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Attune Acoustic Focusing Cytometer Training Guide

1. Symbol Description Do not dispose of this product as unsorted municipal waste Follow local municipal waste ordinances for proper disposal provisions to reduce the environmental impact of _ f waste electrical and electronic equipment WEEE de European Union customers ma Call your local Applied Biosystems Customer Service office for equipment pick up and recycling See www appliedbiosystems com for a list of customer service offices in the European Union vi Attune Acoustic Focusing Cytometer Guide Safety Labels on Instruments The following CAUTION WARNING and DANGER statements may be displayed on the instrument in combination with the safety symbols described in the preceding section Hazard Symbol English Francais ZN CAUTION Hazardous chemicals Read the Safety Data Sheets SDSs before handling ATTENTION Produits chimiques dangereux Lire les fiches techniques de s ret de mat riels avant toute manipulation de produits CAUTION Hazardous waste Refer to SDS s and local regulations for handling and disposal ATTENTION D chets dangereux Lire les fiches techniques de s ret de mat riels et la r gulation locale associ es a la manipulation et l limination des d chets AN DANGER High voltage DANGER Haute tension WARNING To reduce the chance of electrical shock do not remove covers that require tool access No user serviceable parts are inside
2. 1 Add 1 mL of Reconstitution Buffer into the vial containing lyophilized cells to reconstitute cells 2 Mix gently by inverting the vial or placing on a rocker if available 3 Allow the cells to stabilize for 10 minutes before use Attune Acoustic Focusing Cytometer Training Guide 75 Stain Cell Suspension 1 Label tubes as described in the table below Label Description Assigned Tube No Cells Alone Negative Control Auto fluorescence VL1 Comp VL1 Channel Compensation Control Pacific Blue VL3 Comp VL3 Channel Compensation Control Pacific Orange BL1 Comp BL1 Channel Compensation Control Alexa Fluor 488 BL2 Comp BL2 Channel Compensation Control R PE BL3 Comp BL3 Channel Compensation Control PE Cy 5 5 y Sample All conjugates added together Add 100 uL of cell suspension into the individual tubes Stain individual tubes with appropriate samples and or controls Add 5 uL of antibody conjugates Incubate the cells for 15 minutes in the dark After the incubation period add 1 mL of PBS solution to all tubes and acquire the data on the Attune Cytometer as described below Data Acquisition 1 2 3 4 76 Create a new experiment under the Experiment Explorer Rename the new experiment as Immunophenotyping Experiment followed by your initials Create new samples and required templates Under Workspace create following plots FSC versus SSC
3. Laser Beam Focusing Lens O O o o Acoustic Focusing Acoustic focusing exploits physical differences between cells or particles relative to the background carrier medium to position the particles or cells into a single focused line along the central axis of a flow channel The cells or particles move into energy well in the center of the fluid flow This energy well is created by the acoustic radiation pressure from an ultrasonic piezoelectric transducer The ability to focus cells into a tight line without sheath fluid allows many possibilities outside the scope of conventional flow cytometry Dilute samples can be processed quickly and flow can be controlled in unique ways Slowing the sample flow through the analysis chamber can be accomplished while maintaining tight focus of the cells This in turn allows the use of longer laser transit times enabling higher sensitivity and precision The acoustically driven capillary is a focusing device that enables the application of acoustic radiation pressure to flow cytometry The focusing device is an acoustic resonant device that focuses cells or particles into a single tight line using a capillary coupled to a single piezoelectric transducer The figure below schematically shows a line driven capillary depicting tight single line focusing of particles in a flowing liquid using acoustic radiation pressure capillary e line source e particlas cells backg
4. Quick Access Toolbar The Quick Access Toolbar contains the Save Workspace Undo Redo and Options buttons lt _ _ Quick Access Toolbar Home Insert View Save workspace button allows you to save workspace to the disk Undo function undoes the last action Redo function redoes the last action Options which allows you to perform administrator and user management functions if authorized determine file and folder pathways change general formatting and define start up options AB Button The AB Button allows you to save FCS Files Workspace and Instrument Settings and to AB print Workspace It also lets you open the Options window access the Main Menu and F logout of the software Double clicking the AB Button closes the Attune Cytometric Software Software Administration Several functions are only available to the software administrator or a super user These include e Adding Users a Click on the show options icon in the upper left of the screen b Click the User Management option c Select New User d Enter appropriate information and permissions o Assign password by selecting change password Bh Enter new password and confirm Attune Acoustic Focusing Cytometer Training Guide 41 Assigning Data Storage paths for user s folders scripts shared templates QC folders and reports folders amp Advanced options for working with TheGadget User Management Folder Locations ka
5. Refer servicing to Applied Biosystems qualified service personnel AVERTISSEMENT Pour viter les risques d lectrocution ne pas retirer les capots dont l ouverture n cessite l utilisation d outils L instrument ne contient aucune pi ce r parable par l utilisateur Toute intervention doit tre effectu e par le personnel de service qualifi venant de chez Applied Biosystems A DANGER Class 3B visible and or invisible laser radiation present when open Avoid exposure to beam DANGER Rayonnement visible ou invisible d un faisceau laser de Classe 3Ben cas d ouverture Evitez toute exposition au faisceau A CAUTION Moving parts Crush pinch hazard ATTENTION Pi ces en mouvement risque de pincement et ou d crasement Safety Alert Word Definitions The following safety alert words appear in the user documentation where you need to be aware of relevant hazards Each alert word implies a particular level of observation or action as defined below DN CAUTION Indicates a potentially hazardous situation that if not avoided may result in minor or moderate injury It may also be used to alert against unsafe practices DN WARNING Indicates a potentially hazardous situation that if not avoided could result in death or serious injury AX DANGER Indicates an imminently hazardous situation that if not avoided will result in death or serious injury This signal word is to be limited to t
6. Unclog This is a user initiated back flush operations to remove clogs from the sample probe and flow cell Shutdown is an automated function that initiates the cleaning cycle and post cleaning rinse This mode requires user supplied bleach Attune Wash Solution and Attune Shutdown Fluid Attune Acoustic Focusing Cytometer Training Guide 17 Start Up and Shut Down Procedures Starting Attune Acoustic Focusing Cytometer 1 Turn on the computer if it is not already on by depressing the power button 2 Check the levels in the fluid tanks Note The Attune Acoustic Focusing Cytometer monitors the fluid levels via floating sensors in TM all fluidics tanks When the fluid level is low or the waste bottle is full the Attune Cytometric Software displays the appropriate warning message If the waste tank is full empty the waste tank If the fluidics tanks are empty fill the focusing fluid wash solution and shutdown solution tanks as follows a Press the metal release button to free the tubing from the instrument and remove the tank Note It is important to use the fittings as pulling on the tubing may cause wires to degrade over time Unscrew the lid and fill the tank with the appropriate solution The focusing fluid tank has 1 L capacity and the wash and shutdown solution tanks have 500 mL capacity each Do not overfill the fluid tanks Screw the lid back on without over tightening it Replace
7. You can view the contents of the currently open FCS file modify instrument settings and customize the workspace View 3 Y Collection Panel Status e 2 Es E m a as Y Instrument Configuration Print Area FCS Instrument Sa Ze Ri pj Pi Print File Settings Et aa i as se Y Experiment Explorer Reset Windows Layout Experiment Ei Show Hide Instrument Settings are the individual parameters that are measured such as the PMT voltages threshold settings for an experiment specimen and sample The Instrument Settings are saved as part of the experiment and can be viewed on the experiment explorer by double clicking on the 40 Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking Instrument Settings icon To adjust the Instrument Settings double click on the Instrument Settings icon and then type a PMT value or use the slider bars to increase or decrease the voltage Instrument Controls is a summary of the entire instrument functions i e unclog run rinse wash and prime Options allows you to define storage paths format workspace and objects Compensation ribbon allows you to access the compensation set up guide and view the compensation matrix Instrument Set Up allows you to choose the parameters that you want to collect data including mode area height and width selection change threshold settings and customize parameters such as defining a ratio parameter and adjusting PMT voltages
8. 4 Compensation is the correction applied to raw data to remove spillover from the signal of interest True or False 5 A dichroic mirror is used to direct light to the appropriate photomultiplier tube True or False 6 Bandpass filters transmit specific wavelengths of light True or False 7 Using a fluorescence spectra viewer at http www invitrogen com site us en home support Research Tools Fluorescence SpectraViewer html What detection channels would you detect the following fluorochromes A Pacific Orange antibody conjugate B Alexa Fluor 488 antibody conjugate C Live Dead Fixable Aqua stain D SYTOX Blue dye E R PE antibody conjugate F Qdot 605 antibody conjugate TM G Vybrant DyeCycle Violet dye Attune Acoustic Focusing Cytometer Training Guide 33 34 Chapter 4 Software Overview This chapter describes Launching the Software Log in Screen Main Menu Workspace Screen Software Administration Perform Basic Software Functions Exercise 5 Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking TM The Attune Acoustic Focusing Cytometer is controlled by the Attune Cytometric Software This chapter provides a basic overview of the software and its features Launching the Software Upon installation of the Attune Acoustic Focusing Cytometer the Attune Cytometric Software is installed on your instrument under programs a
9. 5 Definition of Common Flow Cytometry Terms unida 6 Transit M d s and TIMES A a eee oso eso 9 A O aed ha aes 12 Chapter 2 Fluidics OvervieW cccccccccccccccccccccccccccccccncncnncnnnnnnnnonennnenenennenons 13 A icteric te vba nel wet a les cade a a oa a vba ey nuts Ta 14 Etica y ona 15 Modes OF Operation adi E RAS A 17 Start Up and Shut Down Proco dute dai a 18 Ma itenance Proc dures casa 21 Exercise iii A A 22 Exercise gina aaa a 23 Chapter 3 Optics and Electronics Overview ccccssssssssseeeeeeeeseesseeeeseeeeees 24 Workflow a a 25 Optical Path of the Attune Acoustic Focusing CytoMeter ccoocincinnoninnnnnncnncnnncnncncnnonocncnnonocncanonos 26 Types f Optical Piles oia A AAA A AAA 27 Attune Acoustic Focusing Cytometer Guide j Excitation Lasers and Laser Power of the InstrumMent cocnconocononocononnnonnoncnnnnnnnnnonononecncnonananonenic ns 29 COMPENSADA A eas 30 E o 31 Exercise Airis A Stesenn than Ne a a i 33 Chapter 4 Software Overview oooccccccccccccccccccccccccnoncncncnencnnnnnnnnennnenonerenennnnnos 34 LASUNA E th SoftWare A A ida 35 Login Sereen ii 35 Main Menu S r eN aeaee ee i sis EAE EE a ET a eaa aa EPEE EAE aA 36 Workspace CN sess esminio A EEES AAA Eea aleve de AA 36 Software A climimiis tra Oi cscs sees dh cass cac test cps cerhe tase cae rE A Eia Eaa Eaa EA ap eee 41 Perform Basic Software BUNCIONS iia AR ia 42 EN D e a e e ced tad 44 Chapter 5 Instrument Performance Tracki
10. 73 Immu phenoty pingas ii A AAA 74 List of Fluorescent MARES Ra 74 Immunophenotyping EXPENSAS 75 Attune Acoustic Focusing Cytometer Guide jii Attune Acoustic Focusing Cytometer Guide About This Guide Purpose This training guide contains instructions used during the practical training for Attune Acoustic Focusing Cytometer For further details on the Attune Acoustic Focusing Cytometer and Attune Cytometric software that are not covered in this training guide refer to the Attune Acoustic Focusing Cytometer user guide Safety Conventions and Symbols Brief information on safety conventions and symbols is described below For details refer to the Attune Acoustic Focusing Cytometer user guide Electrical Symbols The following table describes the electrical symbols that may be displayed on the instrument Symbol Description Indicates the On position of the main power switch Indicates the Off position of the main power switch Indicates a standby switch by which the instrument is switched on to the Standby condition Hazardous voltage may be present if this switch is on standby Indicates the On Off position of a push push main power switch Indicates a terminal that may be connected to the signal ground reference of another instrument This is not a protected ground terminal Indicates a protective grounding terminal that must be connected to earth ground before any other elec
11. Biosystems see below for ordering information For details visit www appliedbiosystems com or contact Technical Support i Focusing Fluid i Reservoir i i Focusing Fluid Filter i i Focusing Fluid i ia Movement via Focusing Pump Types of Fluids and Reagents Attune Acoustic Focusing Cytometer Training Guide 15 16 Attune Focusing Fluid to dilute the sample before entering the acoustically driven capillary The Attune Focusing Fluid is a sterile buffered azide free support carrier reagent optimized for transporting particles through the Attune Acoustic Focusing Cytometer The focusing fluid provides the balance of total flow solution through the interrogation chamber and aids in maintaining system cleanliness The solution contains a surfactant to help clean the fluid lines and to minimize bubble formation For best results store fluid at 2 to 25 C Cat no Quantity 4449790 Attune Focusing Fluid 1X 1L 4449791 Attune Focusing Fluid 1X 6x1L 4449792 Attune Focusing Fluid 1X 10x1L Attune Wash Solution is used to clean the sample lines of any build up of cellular debris or remove any bound dye The Attune Wash Solution is a ready to use fluid for the shutdown procedure on the Attune Acoustic Focusing Cytometer This wash solution is formulated to remove cellular debris and dyes from the fluidics system of the instrument The wash solution is stable on the instrument for 30
12. Dot Plot BL1 versus BL2 Dot Plot BL2 versus BL3 Dot Plot BL3 versus VL1 Dot Plot VL3 versus SSC Dot plot Use the Compensation setup guide to compensate the signal in all channels with the exception of VL2 use the table in staining section of procedure to find appropriate controls Create appropriate statistics window s for all plots and display the mean values and standard deviations in the statistics window s Acquire data Calculate the Stain Index for following fluorochromes channels using the formula Stain Index Mean of positive Mean of Negative 2 SD of the Negative Attune Acoustic Focusing Cytometer Training Guide Advanced Applications Immunophenotyping Fluorochrome Conjugate Stain Index Value R PE Pacific Blue Pacific Orange Alexa Fluor 488 PE Cy 5 5 Attune Acoustic Focusing Cytometer Training Guide 77 Rev Date 2 June 2010 applied A blosystems by Lefe technologies Applied Biosystems 850 Lincoln Centre Drive Foster City CA 94404 USA Phone 650 638 5800 Toll Free 800 345 5224 www appliedbiosystems com Technical Resources and Support For the latest technical resources and support information for all locations visit www appliedbiosystems com
13. The Attune Acoustic Focusing Cytometer allows data acquisition in Standard and High Sensitivity modes For each of these two modes the instrument uses the syringe pump system to control the total flow rate The total flow volume through the sample chamber of the Attune Cytometer is comprised of two components part sample and part acoustic focusing solution which is added to the flow stream prior to entering the sampling cuvette The two streams remain separated using laminar flow The two transit modes are explained below Standard Transit Mode The Standard transit mode is used for most of assays where antigens are abundantly present and or fluorescent markers used are bright This is true of most immunophenotyping and cell cycle assays Standard transit mode transfers 2 400 uL of total volume through the flow cells per minute particles travel at 2 m s velocity during this transit mode The sample input rate in this transit mode can be further adjusted depending on the concentration of the sample and desired data acquisition rate The sample input rate ranges from 25 1 000 uL per minute and the selectable sample rates are listed below Pre set Sample Input Rate Focusing Fluid Input Rate Focusing Fluid to Sample Ratio in pL minute in pL minute 25 2 375 95 1 100 2 300 23 1 200 2 200 11 1 500 1 900 3 8 1 1 000 1 400 1 4 1 Note that the particle velocity and interrogation time remains constant regardless
14. a cell crosses the laser light is scattered around the obscuration bar and is collected by the detector Obscuration bar FSC Forward Scatter Histogram The forward scattered light received by the detector is translated into a voltage pulse Because small cells produce a small amount of forward scatter and large cells produce a large amount of forward scatter the magnitude of the voltage pulse recorded for each cell is proportional to the cell size If we plot a histogram of these data as shown in the figure below smaller cells appear towards the left and larger cells appear towards the right A histogram of forward scatter data is a graphical representation of the size distribution within the population but such a graph only presents one dimensional data Attune Acoustic Focusing Cytometer Training Guide 7 Small Medium Large Time Cell count Voltage Voltage Voltage Time Time Side scattered SSC light is focused through a lens system and is collected Forward scatter by a separate detector usually located at 90 degrees from the laser s path The signals collected by the side scatter detector can be plotted on one dimensional histograms similar to forward scatter Flow cytometry allows you to visualize objects on two dimensional dot plots since one dimensional plots do not always indicate the complexity of samples By utilizing a dot plot of FSC and SSC we are able to identify different populati
15. allows you to define the run limits select the mode of sample collection set up samples for a run and record data Attune Acoustic Focusing Cytometer Training Guide 37 Collection Panel Run status Stop recording when O Any of these conditions are met pam Collection i lin 0 x Sn is criteria O Record continuously fae Collection Record ze controls Transit Time lt lt erre Draw Volume 300 ul 50 pl needed x Collection mode 100 p min ee Ss Ee Instrument Configuration yyy Collection Panel Collection panel tab Instrument Configuration Panel The Instrument Configuration Panel allows you to specify the Threshold and Voltage parameters for each of the Scatter and Fluorescence detectors on the Attune Acoustic Focusing Cytometer To set threshold and voltage values adjust the slider bars below each detector or enter the desired number directly in the appropriate window 38 Instrument Configuration Threshold x1000 FSC SSC BL1 BL2 BL3 VLI VL2 VL3 a o el o o o e SIX F m e e e l m Ign _Ign Or Ign Ign Ign Ign Ign Voltage mv Esc SSC BLI BL2 BL3 VLI v2 VL3 160 210 230 220 25s 125 195 220 TT y Instrument Configuration F Collection Panel Collection Panel Attune Acoustic Focusing Cytometer Training Guide Instrument Performanc
16. days after the bottle is opened and should be stored at 2 to 25 C Cat no 4449755 Quantity 500 mL Attune 10X Shutdown Solution is used during the shutdown procedure TM M TM Attune Shutdown Solution is a ten fold concentrated solution that is diluted 1 10 in sterile deionized water This azide free solution is formulated to minimize bubble formulation that can occur in the system lines overnight to help keep the fluid lines clean and to minimize microbial growth in the fluid lines The shutdown cycle is used at the end of each day to ensure that all sample fluids and dyes have been removed from the system and that the fluidic lines and pumps are filled with the Attune Shutdown solution to prevent salt deposits from forming in the fluidics lines Shutdown takes around 20 minutes but most of the steps are automatic under the control of the Attune Cytometric Software Run the shutdown procedures at least once a day even if the instrument is intended for continuous use Proper cleaning of the instrument ensures consistent and accurate operation For best results store solution at 2 to 25 C Cat no 4454955 Quantity 250 mL 10 bleach prepared fresh daily not supplied with the instrument installed on to the sample loader during the shutdown procedure Attune Performance Tracking Beads are designed for use in conjunction with the Attune Cytometric Software to automatically characterize track and report daily perfo
17. folder for Applied Biosystems and the Attune software icon or a shortcut is placed on the computer desktop and under programs from your Start menu To launch the Attune Cytometric Software turn on the computer and double click on the Attune software icon on the desktop The Log in screen is displayed The software consists of the following screens Log in Screen Main Menu screen and Workspace Screen Log in Screen The Log in screen allows users to log into the software AB 1 applied AB biesystems Please Login Username Admin Password eeeeecee Login Aa No performance test has been completed yet There are three types of user accounts Administrator Operator and Service e Administrator users perform a variety of tasks that are described at the end of this chapter e Operators are users who can access and modify their own workspace and experiments but can not add or delete users e Service is used for Applied Biosystems service personnel to trouble shoot and maintain the performance of the instrument After a successful log in the software directs you to the Main Menu Screen Attune Acoustic Focusing Cytometer Training Guide 35 Main Menu Screen The Main Menu screen consists of three main sections Performance Test Panel New Experiment Panel and Experiment Explorer a8 A ABR lt n 1 biosystems Quality Control Y Last performance test completed on Thursday Ma
18. granulocytes based on scatter properties alone left plot in the figure below These populations can be further subdivided by viewing the antigen expression on the cells Lymphocytes are commonly subgated on T cells B cells and NK cells These cells can then be further divided into T helper cells T cytotoxic cells by CD4 and CD8 expression right plot in the figure below mu 3 SSC H 106 CD8 PAC ORANGE FLS H FSC H 1076 CD4 PAC BLUE FL4 H Statistical Tools There are many different statistics used in the analysis of flow cytometry data The statistics that are available or can be calculated using the Attune Cytometric Software are e Percent Total The percentage of a population of the percent of the total events collected e Percent Parent The percentage of a population based on the number of events collected in the parent gate e Median 50 percentile This is the value that corresponds to the middle item in a ranked list i e sorted by magnitude of all measurements e Mean This is calculated by summing the values of all measurements and then dividing by the number n of measurements e Standard Deviation The standard deviation is a measure of how spread out your data are The steps for computing the standard deviation are 1 Compute the mean for the data set 2 Compute the deviation by subtracting the mean from each value 3 Square each individual deviation Attune Acousti
19. hierarchy in the experiment explorer by left clicking on title Experiment Explorer vax 4 8 My Experiments 4 New Experiment Workspace E Instrument Settings ul Compensation 4 ig Specimen g Sample W Sample 2 4 Experiment Folder 2 Right click on My Experiments then choose import experiment to bring up a navigation panel Attune Acoustic Focusing Cytometer Training Guide 71 Look in E Admin Y El E A Gayle s Training Experiments Y My Experiments My Recent Templates Training Folder My Documents My Computer My Network File name Places La Files of type Experiment Files gex le Navigate to the folder where you have the experiment stored that you want to import 4 Select the file by left clicking on it then select Open Experiment instrument settings compensation settings workspace and specimens and samples automatically appear at the bottom of the experiment explorer Exporting Experiments You may want to export experiments for long term data storage use the experiment template for other experiments and perform data analysis using other tools 1 Right click on the experiment folder on the experiment explorer 2 Select Export Experiment 3 Navigate to the storage location and select Save 72 Attune Acoustic Focusing Cytometer Training Guide Advanced Applications Immunophenotyping Chapter 9 Advanced Applications Immunophenotypin
20. lines between samples Shutdown Cycle is performed at the end of each day and is used to ensure that all sample fluid and dyes are removed from the system and the fluidic lines and system s two pumps are filled with shutdown a low salt solution to prevent salt crystals from clogging the fluidics system Shutdown takes around 30 minutes but most of the steps are automatic and computer controlled Fluidics Functions The various fluidics functions of the Attune Acoustic Focusing Cytometer are defined below Start Up is an automated function that starts the fluidics optics and electronics of the Attune Acoustic Focusing Cytometer The startup functions include priming the instrument fluidics and allowing laser warm up time De bubble is a user initiated prime for clearing bubbles in the fluidics lines of the cytometer Wash is a user initiated system cleaning between sticky samples This function requires user supplied 10 bleach solution Run is used to set up the instrument and experiment to collect and run samples through the system but does not collect data Record is used to collect and record data Stop is used to stop all data collection Clear is used to clear the results from the screen It refreshes the workspace while the instrument is in the Run or Record mode Rinse flushes the system between samples to minimize any sample or reagent carryover This occurs between samples but can also be user initiated
21. minimal periodic maintenance However to ensure reliable performance of the instrument we recommend a basic maintenance schedule as described below If your instrument is not going to be used for a week or longer perform a shutdown using 10 bleach and switch off the instrument and the computer see Shutting Down the Attune Acoustic Focusing Cytometer Routine maintenance is performed on the instrument as listed below For maintenance details refer to the user guide supplied with the instrument Maintenance Type Performed by Schedule Routine e Visual examination of fluidics bottles User Daily e Visual examination of syringes User Monthly e Clean Optical filters User Monthly e Change focusing fluid filter User Biannually e Change both syringes User Biannually WARNING Follow good laboratory practices by wearing Personal Protective Equipment PPE when performing maintenance procedures Attune Acoustic Focusing Cytometer Training Guide 21 Exercise 2 1 Match the following ____ Run A Stops fluid flow ___ Rinse B Flushes system between samples to minimize carryover Stop C Allows sample to move through system Record D Allows sample to move through system and captures data 2 What is the capacity of the following solutions Focusing Fluid is Liter Wash Solution is Liter Shutdown solution is Liter 3 In what mode should the instrument be in before refilling the focusing flu
22. not assigned a number Regions created automatically come highlighted with the default color The highlight color as well as the opacity can be adjusted using the population option To change the look of the object right click on the different options under the Customize Function to change shading and population color To delete an object select the object and right click on the object Select Delete To create a daughter plot of a gate select Object right click on object and select create daughter plot Select the type of plot The plot created only displays data from the region that was selected To hide gates select the object right click on center of object and then select Hide The gate and the boundary are now hidden To show the gate click on the center of the plot right click on the plot and select Show Gate Select the gate to be displayed and gate is automatically displayed Attune Acoustic Focusing Cytometer Training Guide Data Analysis Hierarchy or Gating Tree All defined gates are found on a Gating Tree under the Statistics box Use this view to show defined populations and to show the relationships between populations for a particular sample tube For example for a normal whole blood sample there are several different cell types that can be identified using immunophenotyping protocols In a normal whole blood sample there are at least 3 clearly identifiable populations of cells lymphocytes monocytes and
23. of the instrument over time Using these reports you should review changes in delta PMT voltage CV for all channels including scatter parameters Example reports are attached as appendices Performance Tracking Procedure Using Attune Performance Tracking Beads A brief procedure for using the Attune Performance Tracking Beads Cat no 4449754 is described below For detailed instructions and troubleshooting information refer to the user s manual for the Attune Acoustic Focusing Cytometer Note Prepare the Performance Tracking Bead suspension immediately before use Optimization of cytometer settings for applications using stained biological samples may be required following cytometer setup Materials Required but Not Provided e Disposable 12 x 75 mm tubes or flow tubes or 1 5 mL microcentrifuge tubes e Vortex mixer optional e Attune Acoustic Focusing Solution Cat no 4449790 or phosphate buffered saline PBS for use as a diluent Running a New Lot of Beads A Before running a new lot of beads go to www appliedbiosystems com navigate to the Attune Acoustic Focusing Cytometer s product page and import the lot specific data file Refer to the user guide for instructions on how to import the lot specific information into the Attune Cytometric Software To verify the lot number of the Attune Performance Tracking Beads look at the first six digits L T printed on the label Preparing Attune Performanc
24. of the sample input rate since the total volume sample and the focusing fluid is constant at this transit mode Attune Acoustic Focusing Cytometer Training Guide 9 High Sensitivity Transit Mode High sensitivity transit mode is ideal for assays where the antigens are not as abundantly expressed and or the fluorescent makers used are not bright dim High sensitivity in this transit mode is achieved by slowing the particle stream down to 0 5 m s velocity resulting in a greater interrogation time which produces more photons resulting in more robust data The total volume flowing through flow cell at this transit rate is 600 uL per minute There are only two selectable sample input rates at this transit mode as listed below Pre set Sample Input Rate Focusing Fluid Input Rate Focusing Fluid to Sample Ratio in pL minute in pL minute 25 575 23 1 100 500 5 1 Transit Time Experiment This section demonstrates a transit time practice experiment using fluorescent Rainbow beads Materials Needed e Spherotech 8 peak Rainbow beads prepare bead sample by adding 30 uL of Rainbow beads to a 12 x 75 mm tube containing 2 mL PBS Experiment 1 Launch the Attune software by double clicking on the shortcut from the desktop 2 Logon using the admin password and click Log in 3 Go to functions gt Start Up to perform Start up function of instrument if not already started 4 Verify that the Performance Test is complete an
25. the number of colors you will need in your experiment the flow cytometer that you are using and compensation trade offs To use the spectra viewer 1 Go to www invitrogen com and click on the Support tab Click on Fluorescence SpectraViewer under Research Tools on the right on the support page 2 Once the spectra viewer is launched choose the fluorochromes of interest from the drop down menu click either excitation emission or both spectra boxes 3 Add laser excitation lines and enter emission filters Overlapping spectra are shown for each individual dye to inform the user on the spectral Characteristics of each dye By hovering over each spectra actual data points may be visualized Electronics Voltage Pulse When a cell or particle passes through a focused laser beam it refracts or scatters light in all directions and can emit fluorescence The scatter and the fluorescence last only a few microseconds because the cells or particles are moving very rapidly through the focused laser beam The detectors convert the momentary flash of light into an electrical signal called a voltage pulse When the cell or particle begins to enter the intercepting laser beam the signal intensity is low because only a small portion of the particle scatters the light The pulse reaches its maximum when the cell or particle is in the middle of the laser beam and the whole particle scatters the light Further the laser beam is brightest in t
26. through the steps necessary for calculating compensation for your samples Compensation Setup Guide Import FCS file Show Compensation Setup Load Unstained Control Click Run Click Record Position Gate F Do not show this dialog again Close 4 Install the tube containing the unstained control beads on the sample injection port as prompted by the software 5 Push up the tube loader to the active position in the sample injection port and click Run on the Collection Panel 6 Wait until the sample equilibrates and click Record Compensation Setup Guide Import FCS file Show Compensation Setup Load Unstained Control Click Run Click Record Position Gate Do not show this dialog again Close 7 Repeat the process for each of the single stained controls 8 After you have calculated the compensation settings you are ready to run your samples to acquire and record data Attune Acoustic Focusing Cytometer Training Guide 57 Acquiring Data 1 Select the Sample of interest from the Experiment Explorer panel Double click Sample to activate it Workspace displays the plots setup for the Experiment Enter the collection criteria in the Collection Panel You can specify the collection criteria as unlimited or set limits to collection by the number of events for specified gates total sample volume interrogated or by elapsed time Install the tube containing the sample on the sample injection port and
27. to study different cell types and protein expression function The antibodies used for this application are tagged with fluorescent markers that help to identify the protein or antigen of interest A variety of fluorescent tagged antibodies for flow cytometry applications are commercially available In addition to conjugated antibodies flow cytometry also utilizes various cells stains such as propidium iodide DAPI and various SYTOX stains that distinguish healthy cells from dead or dying cells List of Fluorescent Markers A list of fluorescent markers that can be used in the standard configuration of Attune Acoustic Focusing Cytometer are listed below For details on the labeled antibodies and dead cell stains visit www invitrogen com Visit the Fluorescence Spectra Viewer on www invitrogen com under support tab to find the optimal excitation and emission of fluorescent proteins and the optimal filter configuration required TM 74 Attune Acoustic Focusing Cytometer Training Guide Advanced Applications Immunophenotyping Note The instrument can be optimized for other fluorescent markers since the filters can be easily replaced Detector Laser Dichroic Mirror Emission Filter Designed to Detect BL1 488 555 nm SP 530 30 nm FITC Alexa Fluor 488 GFP SYTOX Green DyeCycle Green Stain CSFE LIVE DEAD Fixable Green Dead Cell Stain BL2 488 620 nm LP 575 24 nm PE PI YF
28. 0000 E are s Hr 39 980 98 95 98 95 rs 15 834 39 73 3931 1788 Or 16 909 42 29 41 85 o 2 4 6 8 FSC H 106 Instrument Settings Default O 4 essere Det sie OOO Attune Acoustic Focusing Cytometer Training Guide 45 46 Chapter 5 Instrument Performance Tracking This chapter describes TM Performance Tracking of Attune Acoustic Focusing Cytometer Attune Performance Tracking Beads Baseline Calculations Interpretation Daily Performance Reports Performance Tracking Procedure using Attune Performance Tracking Beads Exercise 6 Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking Workflow Performance Test Attune Acoustic Focusing Cytometer Training Guide 47 Performance Tracking of Attune Acoustic Focusing Cytometer Instrument performance tracking is the process in which you can monitor the daily performance of the instrument Performance tracking is very critical to ensure the accuracy and sensitivity of the instrument The performance check report provides you with information on all of the lasers and detection channels available on the Attune Acoustic Focusing Cytometer The performance tracking process includes e Running the Attune Performance Tracking bead particle set at the same instrument settings on a daily basis e Monitoring the change in the coefficient of variation and changes in PMT voltages e Tracking the linearity of the instrument e Evaluati
29. AB Fetes 1 biosystems by life technologies Attune Acoustic Focusing Cytometer Training Guide For Research Use Only Not intended for any animal or human therapeutic or diagnostic use Information in this document is subject to change without notice APPLIED BIOSYSTEMS DISCLAIMS ALL WARRANTIES WITH RESPECT TO THIS DOCUMENT EXPRESSED OR IMPLIED INCLUDING BUT NOT LIMITED TO THOSE OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE TO THE FULLEST EXTENT ALLOWED BY LAW IN NO EVENT SHALL APPLIED BIOSYSTEMS BE LIABLE WHETHER IN CONTRACT TORT WARRANTY OR UNDER ANY STATUTE OR ON ANY OTHER BASIS FOR SPECIAL INCIDENTAL INDIRECT PUNITIVE MULTIPLE OR CONSEQUENTIAL DAMAGES IN CONNECTION WITH OR ARISING FROM THIS DOCUMENT INCLUDING BUT NOT LIMITED TO THE USE THEREOF WHETHER OR NOT FORESEEABLE AND WHETHER OR NOT APPLIED BIOSYSTEMS IS ADVISED OF THE POSSIBILITY OF SUCH DAMAGES Limited Use Label License No 223 Labeling and Detection Technology The manufacture use sale or import of this product may be subject to one or more patents or pending applications owned or licensed by Life Technologies Corporation The purchase of this product conveys to the buyer the non transferable right to use the purchased amount of the product and components of the product in research conducted by the buyer whether the buyer is an academic or for profit entity in a manner consistent with the accompanying product literature The buyer cannot sell or otherw
30. BL3 to display only data from the lymphocyte gate Right click in the center of your desired gate select Create Daughter Plot and then select Histogram Define the parameter of interest to BL1H and BL3 H and set the scale to log if necessary OR From the workspace select Histogram plot tool on the insert tab and a plot automatically appears on the workspace Define the parameter of interest BL1 H and BL3 H and set the scale to log if necessary Add histogram markers to BL1 positive cells and right click on center of BL1 marker Create a daughter dot plot VL1 vs BL3 H Create rectangle gates around CD8 and CD4 positive populations Rename regions T cytotoxic for CD8 positive and T helper for CD4 positive regions Select BL1 histogram and rename CD3 positive cells Select Statistic boxes for both dot plots for newly created VL1 vs BL3 plot Attune Acoustic Focusing Cytometer Training Guide 67 a Right click on the center of the desired plot and select Statistics b Select Plot of Interest and use the statistics tool under the other ribbon on the insert contextual tab 22 Customize the statistics box to show Total of Parent Event Count Median Standard Deviation and CV 23 Save workspace by selecting the Save Disk icon on the quick access tool bar located at the top left of the screen Note Once you have saved the analysis strategy is defined for your experiment and this strategy can be applied to all se
31. P DyeCycle Orange Stain BL3 488 640 nm LP PerCP Cy 5 5 PerCP PE Cy 5 TRICOLOR PE Cy 5 5 PE Cy 7 DyeCycle Ruby SYTOX AADvanced LIVE DEAD Fixable Red Dead Cell Stain and Qdot 655 Odot 705 and Qdot 800 nanocrystal conjugates VL1 405 410 nm SP 450 40 nm Pacific Blue DyeCycle Violet LIVE DEAD Fixable Violet Dead Cell Stain CellTrace Violet dye FxCycle Violet dye SYTOX Blue dye autofluorescence Alexa Fluor 405 dye VL2 405 575 nm LP 522 30 nm LIVE DEAD Fixable Aqua Dead Cell Stain Qdot 565 nanocrystal conjugates VL3 405 603 48 nm Qdot 605 nanocrystal conjugates Pacific Orange dye LIVE DEAD Fixable Yellow Dead Cell Stain Immunophenotyping Experiment In this experiment you will perform a multicolor staining experiment using a variety of fluorescent dyes perform compensation to compensate the signal and acquire data using Attune Acoustic Focusing Cytometer Materials Required e CYTO TROL Control Kit from Beckman Coulter Cat no 6604248 contains lyophilized cells and Reconstitution Buffer e Mouse anti Human CD45 Pacific Orange Cat no MHCD4530 e Mouse anti Human CD3 PE Cy 5 5 Cat no MHCD0318 e Mouse anti Human CD8 Pacific Blue Cat no MHCD0828 e Mouse anti Human CD19 R PE Cat no MHCD1904 e Mouse anti Human CD4 Alexa Fluor 488 Cat no MHCD0420 Prepare Sample
32. acking New Experiment Attune Acoustic Focusing Cytometer Training Guide Y F Template 0 No template defined Click here to select one none No template defined Click here to select one Browse Templates Fluidics Overview _ Browse Experiments a 8 repens 1 near gt vna gt O emp O comparan test gt D rana a D onamo E erase O trae tines a Ei compereation Ed retained iw lw Tu He Hu paa tates b oiram oas eM Experiment Explorer 19 20 Instrument Status Indicator Lights Once the instrument is turned on a series of five lights located on the right side of the instrument above the tube lifter are turned on that indicate the instrument status Error Clog Startup Aari Wash Trigger Ready Processing Running E E E gt Instrument Cycle Green Red Blue Yellow Green Startup BLINK ON OFF OFF OFF OFF Indicator light blinks for 2 seconds then turns off Startup complete ON OFF OFF OFF OFF Idle ON OFF OFF OFF OFF Run ON OFF OFF OFF BLINK Indicator light blinks with cycle time proportional to event rate Run complete ON OFF OFF OFF OFF Wash Declog De OFF OFF BLINK OFF OFF bubble Rinse OFF BLINK OFF ON OFF OFF Indicator light blinks when the rinse cycle is initiated and turns off when it is time to place the sample on the sample injection port Clog detected OFF BLINK OFF ON OFF Focusing fluid tank emp
33. as they direct the emission light to the photomultiplier tube detector 540 nm 460 nm LP 530 Neutral Density Filter A Neutral Density ND filter has a constant attenuation across the range of visible wavelengths and is used to reduce the intensity of light by reflecting or absorbing a portion of it Excitation Lasers and Laser Power of the Instrument The Attune Acoustic Focusing Cytometer has alignment free excitation and emission optics and utilizes two lasers Laser Type Wavelength Power Spectra Physics Cyan 488 nm 20 mW Power Technology IQ1C50 405 nm 50 mW Note Shutting down lasers within 15 minutes of start up time can decrease their lifetime After performing the shutdown procedure turn off the lasers for 15 minutes prior to restarting the instrument Attune Acoustic Focusing Cytometer Training Guide 29 Compensation Compensation is the process by which the spillover is corrected Every fluorescent molecule emits light with a particular spectrum unique to that molecule These emission spectra overlap in some cases very significantly For instance see the spectra shown below for Pacific Blue Alexa Fluor 488 R phycoerythrin R PE and Alexa Fluor 647 R PE dyes 488 nm v 450 40 BS 530 30 575 24 640 LP Alexa Fluor 488 R PE Pacific Blue Alexa Fluor 647 R PE 440 nm 480 nm 530 nm 560 nm 600 nm 640 nm 680 nm 720 nm In this figure the emission spectra of ea
34. ate Histogram markers are used to select a single range of events in a plot whereas a Bi marker gate is used to identify two separate ranges in a histogram plot i e negative vs positive events After a population is assigned it displays in hierarchy under the statistics tab After the gating parameters are defined you can customize the gates to create joined intersected or inverted gates by setting a customized gate Editing Gates Objects are automatically created using default settings These objects can then be customized as per the user s preference Left click on the object object handles appear on the outside of the object to customize the objects 64 To move the region click on the center of the region then hold the left mouse key down and move the cursor to where you want it on the plot Release the left mouse To resize the gate click on one of the handles around the region Hold the left mouse key down drag handle in or out and then release the left mouse key To change formatting of the region select the region then right click on center of region and select Customize Function Under the Customize Function you can change the name of the region from the default name The default names for the plots are generated using the region label of R followed by the number order that the object was created Note If you change the name of the region the next region created will be the lowest number in order that is
35. c Focusing Cytometer Training Guide 65 4 Add up the squared deviations 5 Divide by one less than the sample size 6 Take the square root e Coefficient of Variation Percent coefficient of variation is a measure of peak distribution The percent coefficient of variation is the standard deviation of the peak divided by the mean channel number of the peak multiplied by 100 e Stain Index Mean of positive Mean of Negative 2 SD of the Negative Note The median is robust in that it doesn t necessarily move in response to small numbers of outliers or to skewing of the tails of a distribution whereas the mean is tugged by both One situation where the median is probably the only valid measure is where data pile up at one extreme of measurement as long as more than 50 of the cells are clear of the sides you get a valid median but either type of mean will be way off So if you ve got normally distributed data and want to be able to reflect small changes use the arithmetic mean if you ve got slightly skewed data use the geometric mean and if you want a robust indicator use the median The geometric mean is most useful when data is not normally distributed Data Analysis Exercise 1 Start Up the Attune Acoustic Focusing Cytometer as described in Chapter 2 2 Double click on the Attune Cytometric software shortcut from the desktop 3 Log in as the administrator and enter the password Click on log in 4 Ensure performance
36. ch dye is highlighted with a shaded area indicating the emission filter where the specific light is captured on the Attune Acoustic Focusing Cytometer The teal line is the laser excitation wavelength of an argon ion laser 488 nm Each dye emits with a characteristic emission spectrum that is specific for the fluorochrome Alexa Fluor 488 dye has a maximum around 520 nm R PE at about 575 nm Alexa Fluor 647 dye at about 666 nm and Pacific Blue dye at about 454 nm To simultaneously measure these emissions we choose optical filters bandpass filters which only transmit specific wavelengths of light The filters commonly used in flow cytometry for these dyes are represented by the shaded areas In general filters are chosen which collect the emitted light near the emission maximum For Alexa Fluor 488 dye we use a BP 530 30 filter meaning that the filter has a pass band centered on 530 nm and the width of the pass band is 30 nm However it is impossible to choose filters which measure only one dye For instance Alexa Fluor dye has a significant emission in the region that we measure R PE 575 nm Therefore whenever fluorescein is present we get signal in the 530 nm band and also in the 575 nm band If R PE is also present it contributes to the 575 nm band To differentiate between the fluorescence from R PE and Alexa Fluor 488 dye compensation is used Compensation is the mathematical process for correcting for the amoun
37. change the Parameter and or the Scale right click directly on the plot axis Alternatively right click on the plot and select Customize to open the Customize dialog box Attune Acoustic Focusing Cytometer Training Guide 55 Blue Laser Sample General XAxis YAxis Samples Gates Back Gates 10 4 Plot Type Dot Plot v 1 0 1 Density 100 J 4 Cut Ctri X Chart Title F 10 3 Copy Ctrl C A Text Violet Laser D 10 Delete Del Duplicate Style 10 Save AS Tahoma vi i o i DN a gt 10 1 Statistics Border 0 Width 0 vy 10 rre 0 1 Back Gates Include Name of 10 10 New Gate Experiment _ Specimen v Sample L Set Population Optimizing Instrument Settings DOM FF WN Be 10 11 Double click on the unstained sample to activate the workspace Install unstained bead sample on the tube lifter Select standard transit time Adjust the flow rate to 100 uL min by adjusting slider bar Define stop criteria by setting auto stop to 10 000 events on all events Click the Run button Events appear in the FSC vs SSC plot You can obtain real time data without saving the data to a file Adjust the FSC and SSC voltage to place the bead population on scale by sliding the FSC slider bar up or down Adjust threshold on instrument control panel to remove debris Adjust the fluorescence channels to place your unlabeled beads in the round to the far left of all of the dot plot
38. d it passed the criteria 5 Open Experiment a Navigate to the training folder on the experiment explorer b Right click on the experiment folder and open the Transit Time Experiment c Duplicate the experiment d Rename the experiment by right clicking on the experiment e Select Properties Change experiment name to Sensitivity MMDDYY g Go to the first sample and double click to activate the Workspace h Rename the first sample by right clicking on sample gt Properties gt Name standard sensitivity 500 uL per minute 6 Install bead sample on the tube loader and push up the tube lifter 7 Press Run when bead events appear set at a gate around the main bead population and adjust the PMT voltages such that the lowest peak appears around 10 ensure the axes are on manual scale 10 Attune Acoustic Focusing Cytometer Training Guide Overview of Flow Cytometry 8 Press Record after all settings are complete 9 After completion unload the tube by pushing the tube lifter down The Rinse function automatically begins 10 Add additional sample on experiment by right clicking the sample just collected and select duplicate sample 11 Rename the sample high sensitivity mode and set speed to 25 pL min 12 Double click on the sample to activate and press Run 13 After the events begin and all peaks are visible press Record 14 After completion perform the rinse function twice Attune Acoustic Focusing Cytomete
39. e Data Collection 4 Ensure the performance test is complete and it passed criteria If needed perform Instrument Performance Tracking as described in Chapter 5 5 Check the optical layout of the instrument to verify that the filters are appropriate for the use of Alexa Fluor 488 R PE Tricolor APC Pacific Blue Pacific Orange and Qdot 605 dyes Creating Experiment Templates Open the training experiment explorer by going to the quick access tool bar and AB symbol Browse and select Training Folder Right click on Data Acquisition Folder Select Duplicate Experiment Right click on Duplicate Experiment and select Properties Rename the Data Acquisition with the desired name a 7 PE we NS Confirm the following setup Select Specimen by right clicking and choose Properties option Rename Beads Select Sample by right clicking on sample Duplicate sample 3X creating a total of 4 samples Select each sample and rename it with unstained blue green and mixed by right clicking on sample and select Properties Open Experiment by double clicking on sample Create FSC vs SSC dot plot Create a BL1 vs VL1 dot plot Create a BL1 histogram Create a VL1 histogram Creating Plots 1 To insert a Plot to your Work Area select the Specimen or the Sample in the Experiment Explorer then choose the type of plot from the Insert tab Histogram Dot Density Plot Plot Plot Plots 2 To
40. e Tracking Experiment Explorer The Experiment Explorer lists experiments in a hierarchal view and functions as an interface for creating new Experiments and recording data Experiment Explorer is also an interface for creating Experiments and recording data Only one experiment can be opened at a time You can organize your experiments in higher level folders which can contain multiple experiments Double click on any sample to open an experiment to display the work area An active sample is the one with a tube icon A sample that has data recorded has a tube icon overlayed with a disk Experiment Explorer sw AX 4 e My Experiments 4 New Experiment Workspace 2 Instrument Settings ny Compensation a a Specimen g Sample W Sample 2 f 4g Experiment Folder Work Area Work Area displays Analysis objects plots gates and statistics views The work area is empty for new experiments and pre populated for experiments from a template or a saved experiment Double click any Sample lf or I in the Experiment Explorer to open and display it in the Work Area Work Area Attune Acoustic Focusing Cytometer Training Guide 39 Instrument Status Bar The Instrument status bar indicates the status of the instrument This bar indicates On Off Fluidics laser power status USB connection and functions such as unclog Layout Default Instrument Settings Specimen Tube A i 5 100 Scripts Status None Compen
41. e Tracking Beads in Tubes 1 Label a flow tube polystyrene tube or a 12 x 75 mm tube or 1 5 mL microcentrifuge tube 2 Mix the Attune Performance Tracking Bead vial by gentle inversion or gentle vortexing 3 For defining baseline or running daily measurements prepare the beads suspension by adding the following to the labeled tube 1 mL diluent Attune Acoustic Focusing Solution or PBS 1 drop of Attune Performance Tracking Beads Attune Acoustic Focusing Cytometer Training Guide 49 50 Mix the bead suspension by gentle inversion or vortexing Note If the beads are not used immediately store the diluted beads suspension at 2 C to 25 C protected from light for no more than 4 hours To access the performance tracking program log on to the Attune Cytometric software After log in navigate to the Performance Tracking panel located on the upper half of the workspace m Y lied AB jstems Y Last performance test completed on Thursday March 11 2010 10 32 AM Baseline Calculations Performance Test Note After installing the instrument for the first time a baseline calculation will be performed followed by a performance test TM To perform a baseline calculation the Attune Cytometric Software prompts you through the following steps a Prepare Attune Performance Tracking Bead sample for baseline as indicated above b Check bead lot number on the tube label c Select the bead lot number f
42. for acoustic focusing cytometer operation and includes the flows during the Startup Wash Rinse Run Stop De bubble and Shutdown operations as well as the main data collection operation The sample to be analyzed is driven by a syringe pump and passes through the bubble sensor and the sample loop before arriving at the capillary assembly A separate pump forces the focusing fluid through the focusing fluid filter and flow dampener The capillary assembly is an acoustic resonant device that focuses cells or particles in the sample fluid into a single tight line i e the sample core using a capillary coupled to a single piezoelectric transducer The capillary carries the sample core upward through the center of the optical cell where the particles to be analyzed are intercepted by a tightly focused laser beam for interrogation After passing through the optical cell the stream arrives at the waste container TM A schematic of the Attune Acoustic Focusing Cytometer fluidics system is shown in the figure below Laser Intercept Points Flow Cell Capillary Assembly Sample Loop i i Movement Bubble Sensor via 4 Sample Pump i Sample Tube i TM The Attune Acoustic Focusing Cytometer requires three different fluids to perform the start up and shutdown features and these are supplied with the Attune Acoustic Focusing Cytometer These fluids and reagents are also available separately from Applied
43. g This chapter describes e Immunophenotyping TM e List of fluorescent markers for use with the Attune Acoustic Focusing Cytometer e Immunophenotyping Experiment Attune Acoustic Focusing Cytometer Training Guide 73 Immunophenotyping Immunophenotyping is a technique to detect or study proteins expressed by cells this technique is used to identify cell type in clinical settings to diagnose various disease states and in laboratory setting to study protein expression and function Immunophenotyping is one of the major applications of flow cytometry Immunophenotyping allows the identification of cells types that cannot be delineated based on morphology alone Immunophenotyping assays are performed on different types of cells including but not limited to peripheral blood cells bone marrow cells splenocytes and various cells lines An example of human peripheral leukocytes scatter profile red blood cells were lysed in this assay is shown below Although major cell types such as lymphocytes monocytes and neutrophils were easily distinguishable further identification of T cells B cells NK cells and dendritic cells is not clear these cell populations are found within the lymphocyte gate 250 sn 3 i A 2 y xx E a3 A Neutrophils ES Y o o 2 E 0 Vv Mm w ow 3 3 UN Monocytes o T T T I 1 0 50 100 150 200 250 Forward scatter amp Size e Lymphocytes Antigen specific antibodies are used
44. gions are shapes or objects that are drawn around a population of interest on one and two parameter plots A gate is defined when regions are used to isolate a specific group of cytometric events from a large set of data Gates can be customized by using Boolean logic OR AND NOT to link multiple gates together However the most popular application is to use gates in sequential order to limit data display and define the parameters for statistical data display Creating Gates 1 The Gate ribbon is grayed out until a plot on the work area is selected by clicking on the plot The plot is highlighted with a blue border to indicate the active plot 2 Once a plot is activated then the gate ribbon is available Attune Acoustic Focusing Cytometer Training Guide 63 3 After selecting the appropriate region by clicking the tool a gate appears on the plot This region will have a default color as well as a default name color and border which can be customized To create multiple regions click the tool multiple times to display multiple gates The types of objects that are available to create regions on two parameter plots are rectangle gate oval gate polygon gates and quadrant gates Quadrant gates are used to divide a dot or contour plot into four individual populations Quadrant gates are typically used for sub setting populations The objects available for use on a single parameter histogram plots are histogram markers and Bi marker g
45. hat require longer interrogation times within the laser beam thus improving sensitivity and producing brighter signals from dim fluorochromes e Dilute sample analysis Dilute samples can be easily analyzed at a high rate using acoustic focusing cytometry The particle event rate in acoustic or conventional flow cytometry is a function of sample concentration and sample flow rate Unlike conventional flow cytometry precise analysis is maintained in acoustic cytometry over a broad range of sample rates by controlling the amount of time the cells spend in the lasers path allowing you to use a slower flow rate to collect more photons when analyzing dim signals For conventional flow cytometry increasing the sample flow rate broadens the sample core and results in less precise analysis as a broader sample core allows cells to travel in different streamlines at different velocities where they are illuminated by different parts of the focused laser beam Acoustic cytometry can also be used to maintain maximum particle analysis rate in a wide variety of sample concentrations by diluting the samples and is perfect for analyzing very small sample sizes Additionally cells that tend to aggregate can be analyzed as more dilute samples thus minimizing cellular aggregation e High throughput Acoustic focusing cytometers can tightly focus lymphocytes and larger cells at volumetric flow rates The high volumetric sample rate enables them to maintain high
46. he middle thus causing more light to scatter off of the particle As the cell or particle exits the beam the signal starts decreasing and eventually trails off below the threshold see figure on the next page Attune Acoustic Focusing Cytometer Training Guide 31 Voltage Laser beam Particle or cell O Sample flow Time Voltage Time Voltage Time H Voltage Time Pulse Measurement The analog signal from the detectors are amplified and relayed to the 24 bit analog to digital converter ADC which samples the signals at a rate of up to 2 5 MHz converting the continuous signal into digital data and producing 6 decades resolution for up to 20 000 events per second The data is further processed by the field programmable gate array FPGA which simultaneously calculates pulse height area and width when the pulse exceeds the user specified threshold value width Pulse area Voltage Pulse height trigger threshold front rear front extension extension Time 32 Attune Acoustic Focusing Cytometer Training Guide Optics Overview Exercise 4 Select True or False for the following questions 1 A short pass filter allows all light greater than the maximum to the detector True or False 2 The lasers on this instrument require daily alignment True or False 3 The 530 30 nm filter is used to detect light in the VL3 detection channel True or False
47. he most extreme situations O IMPORTANT Provides that is necessary for proper instrument operation accurate installation or safe use of a chemical Attune Acoustic Focusing Cytometer Guide vil Except for IMPORTANT each safety alert word in the user documentation appears with an open triangle figure that contains a hazard symbol These hazard symbols are identical to the hazard icons that are affixed to the instrument see Safety Symbols above Examples of Alert Words The following examples show the use of safety alert words IMPORTANT Wear powder free gloves when you handle the halogen lamp CAUTION The lamp is extremely hot Do not touch the lamp until it has cooled to room AN temperature WARNING CHEMICAL HAZARD Ethanol is a flammable liquid and vapor Exposure N causes eye skin and respiratory tract irritation and may cause central nervous system depression and liver damage Read the SDS and follow the handling instructions Wear appropriate protective eyewear clothing and gloves DANGER ELECTRICAL HAZARD Failure to ground the instrument properly can lead to an electrical shock Ground the instrument according to the provided instructions General Instrument Safety AS WARNING PHYSICAL INJURY HAZARD Use this product only as specified in this document Using this instrument in a manner not specified may result in personal injury or damage to the instrument Moving and Lifting the Instrumen
48. heath fluid The flow of sheath accelerates the particles and restricts them to the center of the sample core This is the standard method in flow cytometry for positioning particles within the optical interrogation region defined by a tightly focused laser beam The technology works best with more concentrated samples as the sheath fluid flow dilutes the sample and the sample is entrained into the flowing sheath fluid Additionally as the sample is entrained into the sheath fluid shear forces are created which can disrupt fragile cells i e apoptotic cells As the sample is injected the sample is caught up in the sheath flow and is accelerated forward see figure on next page Because of the high velocity of the sheath flow through a narrow area mixing of the sample and the sheath is minimal allowing the sample to remain in its own individual stream This individual stream is a small percentage of the sheath flow therefore increasing the rate that the sample is injected has little effect on the speed of the particles in the sample as they pass through the laser However increasing the sample injection rate increases the percent fraction of sample in the total fluid flowing leading to widening of the sample core stream which can affect the precision of the measurements made by the instrument 2 Attune Acoustic Focusing Cytometer Training Guide Overview of Flow Cytometry Sample Sheath Flow Sheath o o O gt a Incoming o o
49. ical Filters separate the light scatter and fluorescence directed to detectors by wavelength which is measured in nanometers nm They selectively transmit light having a particular range of wavelengths while absorbing or reflecting the remainder photons reflected photons absorbed photons transmitted There are five types of optical filters used in flow cytometry e Bandpass filter BP e Longpass filter LP e Shortpass filter SP e Dichroic mirror DM e Neutral density filter ND Attune Acoustic Focusing Cytometer Training Guide 27 Bandpass Filter A Bandpass BP Filter is a device that passes frequencies within a certain range and rejects attenuates frequencies outside that range Combining a longpass filter and a shortpass filter produces a bandpass filter These filters usually have lower transmittance values than SP and LP filters and block all wavelengths outside of a selected interval which can be wide or narrow depending on the number of layers of the filter The bandwidth of the filter is the difference between the upper and lower cutoff frequencies Common bandpass filter nomenclature is the peak emission bandwidth For example a filter that detects Alexa Fluor 488 dye would be 530 30 which ranges from 515 545 nm 486nm BP 530 30 460 nm Alexa Fluor 488 emission spectrum 520 nm 540 nm 700 nm BP 530 30 l 500 nm 600 nm Longpass Filter A Longpass LP Filter is an optical i
50. ice such as an external hard drive CD or network drive The Attune Cytometric software does not generate separate files for instrument settings experiments and data All experimental data is stored within an experiment and is stored in the C drive hard drive on your computer To maximize the efficiency of the computer system routinely export the FCS files and Experiments to a network drive external hard drive or the D drive of your desktop system Some of the options for maintaining your computer efficiency are described below However there are some maintenance procedures that can help maintain the quality of your data and ensure proper function of the computer e Back up your experiments on a regular basis to a secondary storage device e Defragment the hard drive of the computer weekly e Minimize memory usage by deleting parameters that you do not need such as only collect parameters in either area or height not both unless you need both parameters for a certain application such as cell cycle when planning the experiments Also if the experiment has several samples consider collecting some of the samples under one experiment and then collecting the rest under a second experiment e Save the experiment data after every experimental run Importing Experiments It is very easy to import an experiment using the Attune Cytometric Software 1 In the experiment explorer highlight select My Experiments on the experiment
51. id tank 4 How often should you perform the following procedures Daily D Weekly W Monthly M Biannually B Cleaning of optical filters Shutdown Checking of Syringes Start Up Replacement of Focusing Fluid Filter 22 Attune Acoustic Focusing Cytometer Training Guide Fluidics Overview Exercise 3 1 Proceed to the Attune Acoustic Focusing Cytometer 2 Perform startup and shutdown functions Attune Acoustic Focusing Cytometer Training Guide 23 Chapter 3 Optics and Electronics Overview This chapter describes e Optical path of the Attune Acoustic Focusing Cytometer e Types of optical filters e Excitation lasers and laser power of the instrument e Compensation e Electronics e Exercise 4 Attune Acoustic Focusing Cytometer Training Guide Optics Overview Workflow Optical Configuration Check Attune Acoustic Focusing Cytometer Training Guide 25 Optical Path of the Attune Acoustic Focusing Cytometer The Attune Acoustic Focusing Cytometer contains lasers to illuminate cells or particles from the sample and optical filters and mirrors to direct the resulting light scatter and fluorescence signals to the appropriate detectors The basic optical layout for the Attune Acoustic Focusing Cytometer is shown in the figure below FL6 VL3 FL3 BL3 FL5 VL2 BL2 FL2 FL4 VL1 BL1 FL1 see note 2 Focusing lens X7 Mirror Pinhole Mirror Collimat
52. ing Side Scatter see note 1 lens X2 From Collector Lens Notes 1 At Side Scatter location neutral density ND filter is in user removable filter holder and 405 10 filter is in non user removable filter holder tube 2 AtFL1 location bandpass filter is in user removable filter holder and long pass filter is in non user removable filter holder tube 26 Attune Acoustic Focusing Cytometer Training Guide Optics Overview Detector Laser Dichroic Mirror Emission Filter Designed to Detect BL1 488 555 nm SP 530 30 nm FITC Alexa Fluor 488 GFP SYTOX Green DyeCycle Green Stain CSFE LIVE DEAD Fixable Green Dead Cell Stain BL2 488 620 nm LP 575 24 nm PE PL YFP DyeCycle Orange Stains BL3 488 640 nm LP PerCP Cy 5 5 PerCP PE Cy 5 TRI COLOR PE Cy 5 5 PE Cy 7 DyeCycle Ruby SYTOX AADvanced LIVE DEAD Fixable Red Dead Cell Stain and Qdot 655 Qdot 705 and Qdot 800 nanocrystal conjugates VL1 405 410 nm SP 450 40 nm Pacific Blue DyeCycle Violet LIVE DEAD Fixable Violet Dead Cell Stain CellTrace Violet FxCycle Violet SYTOX Blue autofluorescence Alexa Fluor 405 Dyes VL2 405 575 nm LP 522 30 nm LIVE DEAD Fixable Aqua Dead Cell Stain Qdot 565 nanocrystal conjugates VL3 405 603 48 nm Qdot 605 nanocrystal conjugates Pacific Orange LIVE DEAD Fixable Yellow Dead Cell Stains Types of Optical Filters Opt
53. ise transfer a this product b its components or c materials made using this product or its components to a third party or otherwise use this product or its components or materials made using this product or its components for Commercial Purposes The buyer may transfer information or materials made through the use of this product to a scientific collaborator provided that such transfer is not for any Commercial Purpose and that such collaborator agrees in writing a to not transfer such materials to any third party and b to use such transferred materials and or information solely for research and not for Commercial Purposes Commercial Purposes means any activity by a party for consideration and may include but is not limited to 1 use of the product or its components in manufacturing 2 use of the product or its components to provide a service information or data 3 use of the product or its components for therapeutic diagnostic or prophylactic purposes or 4 resale of the product or its components whether or not such product or its components are resold for use in research For products that are subject to multiple limited use label licenses the most restrictive terms apply Life Technologies Corporation will not assert a claim against the buyer of infringement of patents that are owned or controlled by Life Technologies Corporation and or Molecular Probes Inc which cover this product based upon the manufacture use or sale of a therape
54. istogram plot for the VL1 channel that shows only data from your lymphocyte gate Right click in the center of your desired gate select Create Daughter Plot and then select Histogram Define the parameter of interest to VL1 H and set the scale to log if necessary OR From workspace select Histogram plot tool on the insert tab and a plot automatically appears on the workspace Define the parameter of interest VL1 H and set the scale to log if necessary Using the bi marker tool select the negative and positive population Note Make sure the plot is active by clicking in middle of plot and the outline in light blue Adjust the bi marker right click and hold on the handle in the middle of the plot and slide to capture the population of interest or right click and hold on the colored portion of the gate and then slide to capture the population Create a Statistics box by clicking on the histogram plot and then selecting the statistics tool on the other ribbon under the insert tab Note The gate tree is now visible and you can only see the gates under the lymphocyte gate because all other cell populations are eliminated by creating a daughter gate or setting your population to lymphs Select the VL1 vs BL1 VL1 vs BL3 and BL3 vs BL1 dot plots Plot to display only data from the lymphocyte gate by doing the following a Right click on the center of the plot b Select Set Population Lymphs Create a histogram plot for BL1 and
55. ization Compensation Recording Data Data Analysis ND oF FP Ww NY A Instrument shutdown Experiment Optimization Overview Before recording data for a sample perform experiment optimization which includes PMT voltage optimization compensation and threshold settings for each dyes and samples that are used in the experiment Instrument settings optimization needs to be done by adjusting the position of the populations of interest on scale for scatter and fluorescence parameters Each individual experiment needs to have experiment optimization performed or verified prior to data collection This chapter demonstrates an experiment optimization practice experiment using fluorescently labeled beads PeakFlow beads The beads are used to demonstrate the process of performing experiment optimization but are not to be used as an absolute standard for your experimental conditions Experiment Set up Materials Needed to complete the optimization experiment e FACS Tubes e Attune Focusing Fluid e Attune Performance Tracking Beads e PeakFlow Blue Beads e PeakFlow Green Beads TM e AbC anti mouse Negative beads Instrument Set Up 1 Start Up the Attune Acoustic Focusing Cytometer as described in Chapter 2 2 Double click on the Attune Cytometric software shortcut from the desktop 3 Log in as the administrator and enter the password Click on log in 54 Attune Acoustic Focusing Cytometer Training Guid
56. king Beads are 2 4 um in nominal diameter The intensity level 2 3 and 4 beads are 3 2 um in nominal diameter and stained with a combination of multiple fluorophores that can be excited by the lasers used in the Attune Acoustic Focusing Cytometers and emit fluorescence signals at designed levels to all the channels in the instrument Baseline Calculations The Attune Performance Tracking Beads are used to define a cytometer baseline which is performed anytime a new lot of beads are used or after any major maintenance is performed on the instrument Diluted beads are run on the Attune Acoustic Focusing Cytometer using the Attune Cytometric software The percent half peak coefficient of variation YHPCV of the intensity level 4 bead is recorded Using assigned MESF values for each fluorescent bead the relative quantum efficiency rQ 48 Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking and relative background rB is calculated for each channel and the linear regression is calculated and recorded The laser delay setting is also automatically calculated Interpretation of Daily Performance Reports Several reports need to be reviewed to determine the performance of the instrument These reports include a summary of the baseline check review of the linearity of the PMTs track laser performance and alignment These reports also include Levey Jennings plots that graph out daily voltage differences
57. ld it stationary while someone slides the contents out of the box Operating the Instrument Ensure that anyone who operates the instrument has e Received instructions in both general safety practices for laboratories and specific safety practices for the instrument e Read and understood all applicable Safety Data Sheets SDSs Cleaning or Decontaminating the Instrument AN CAUTION Using cleaning or decontaminations method other than those recommended by the manufacturer may compromise the safety or quality of the instrument Biological Hazard Safety NE BIOHAZARD Biological samples such as tissues body fluids and blood of humans and other animals have the potential to transmit infectious diseases Follow all applicable local state provincial and or national regulations Wear appropriate protective eyewear clothing and gloves Read and follow the guidelines in these publications In the U S e U S Department of Health and Human Services guidelines published in Biosafety in Microbiological and Biomedical Laboratories stock no 017 040 00547 4 www cdc gov OD ohs biosfty bmb14 bmbl4toc htm e Occupational Safety and Health Standards Bloodborne Pathogens 29 CFR 1910 1030 www access gpo gov nara cfr waisidx_01 29cfr1910a_01 html e Your company s institution s Biosafety Program protocols for working with handling potentially infectious materials e Additional information about biohazard guidelines is available at ht
58. lift up the tube loader to the active position Click Run The events are displayed on the plots as the graphs are being populated Wait a short time for the sample to equilibrate Customizing Plots 1 2 3 On the work area select each individual dot plot one at a time Right click on Dot plot and select Properties Rename Axis labels as follows FSC Vs SSC Blue vs Green Select each individual histogram plot Right click on the Histogram plot and select Customize Rename Axis labels as follows e Blue 450 40 VL1 axis e Green 530 30 BL1 axis Recording Data SES pI p A 6 7 8 9 10 58 Select Blue sample and double click to activate sample Install Blue bead sample and press run Adjust VL1 PMT to make sure beads are on scale and not off scale too high around 10 When on scale press Record After completion unload the tube by pushing the tube lifter down The Rinse function automatically begins Select Green Sample and double click to activate the sample Install the Green Bead sample and press Run Adjust BL1 PMT to make sure beads are on scale and not off scale too high around 10 When on scale press Record Unload tube and perform Rinse Attune Acoustic Focusing Cytometer Training Guide 11 12 13 14 15 16 17 18 Data Collection Double click and select the sample on experiment explorer Place mixed sample on the tube loader Push up the tube loader t
59. llary independent of fluid flow TM Like a conventional flow cytometer the Attune Acoustic Focusing Cytometer includes three main systems optics fluidics and electronics The optical system includes an optical cell that is integrated with a laser which acts as the light source for scatter and fluorescence the detectors which receive the light to illuminate the particles in the focused stream and optical filters to direct the resulting light signals to the appropriate detectors The fluidics system uses a syringe pump that pushes or pulls the sample through the system Fluid flow can be controlled at any desired rate using appropriate pumps The electronics system converts the detected light signals into electronic signals that can be processed by the computer system which converts the signals from the detectors into digital data to perform the necessary analyses An important difference between the acoustically focused cytometer and a conventional hydrodynamically sheath focused cytometer is that particles or cells in the acoustic capillary are focused toward a tight central line along the axis of the capillary whether fluid is flowing or not Definition of Common Flow Cytometry Terms TM Since the Attune Acoustic Focusing Cytometer has similar properties to a conventional flow cytometry some common flow cytometry terms are explained and defined below Fluorescence Fluorescence is the emission of light that occurs when an e
60. mitting particle such as a fluorophore labeled antibody absorbs light from another source such as the intercepting laser beam When the particle absorbs the intercepting light it is elevated to an excited electronic state and as it returns to its ground state the absorbed energy is radiated where most of it is emitted as light The emitted light is always a longer wavelength i e less energetic than the absorbed light The difference between the excitation and emission wavelengths is known as the Stokes shift Flow cytometry uses fluorescence detectors to identify different aspects of cells including functional assays and subset identification One of the most common ways to study cellular characteristics using flow cytometry involves the use of fluorescent molecules such as fluorophore labeled antibodies In these experiments the labeled antibody is added to the cell sample The antibody then binds to a specific molecule on the cell surface or inside the cell When the laser light of the right wavelength strikes the fluorophore a fluorescent signal is emitted and detected by the flow cytometer Fluorescence data is collected in generally the same way as forward and side scatter data In a population of labeled cells some will be brighter than others As each cell crosses the path of the laser a fluorescence signal is generated The fluorescent light is then directed to the appropriate detector where it is translated into a voltage pulse proporti
61. nce Test is complete and it passed criteria Create an Experiment a Navigate to the training folder on the experiment explorer b Select a Workspace exercise Attune Acoustic Focusing Cytometer Training Guide a o gt 0 he Instrument Performance Tracking Right click on the workspace exercise folder Duplicate an experiment Find a newly created experiment it may be at the bottom of the experiment explorer Rename the experiment by right clicking on the experiment and select Properties Change the experiment name to Workspace Experiment Your name Go to the Sample and double click to activate the Workspace Setup a FSC histogram a SSC histogram and an FSC vs SSC dot plot manual axes 6 Install a bead sample on tube loader 7 Click Run on the Collection panel Place a region around the bead population of interest by clicking on the gate and then moving to the location of population 8 View Instrument Control Panel to Adjust Voltages a e f Adjust FSC parameter by using the slider bars and increase the voltage by 1 000 Note record Median values prior to adjusting Adjust the SSC parameter by using the slider bars and increase the voltage by 400 Note record Median value prior to adjusting Record data for FSC and SSC using different samples as a reference After recording change scale from linear to log Right click on plot and choose scale Logarithmic Adjust the voltage by typi
62. ng cccccccccccccccccccccnccnncnnnnnnnnos 46 WGP EHOW TN 47 Performance Tracking of Attune Acoustic Focusing Cytometer oocooncocinnincnnnnnnnnnonnanionncnccncnnanacnns 48 Attune Performance Tracking Beads riot eta 48 Baseline Calcula dd 48 Interpret Daily Performance Reports in ities ccrvicatsesterwde cloro cabecita cb cea 49 Performance Tracking Procedure Using Attune Performance Tracking Beads 49 A E NN 51 Chapter 6 Data Collection iii di 52 O A te ane gare Ea COEIRE EEA 53 Experiment Optimization OVINA 54 Experiment et a 54 Creating Experiment Lem platess a A A es 55 Optimi ing Instr ment Senasa poda 56 Adj sting Thresholds AAA A A wes 56 Perform Compensatl Mira A AAA aSK asi Taea 57 Acquiring Dat cial 58 Attune Acoustic Focusing Cytometer Guide Recording IAS di EA A E O EA 58 ENS A a A ls e o ide e te Re eds 60 Chapter 7 Data Analy SiS ices ccccasesciccaseiieccceccceccciteccenwevtcsnacs vecehextcecedidcneccaessiites 61 WV EW sachs eas A AS oa eee 62 Types of Data Plots nat A is 63 Gates arid Gating TOS A A A A a E A A A sialon a 63 Statistical Dos ia 65 Data Analysis Extra A A A A Ai 66 Exercise Oir A E A dens bodes EE AA dase KAE iN 69 Chapter 8 Data ManageMent cccccccccccccccccccccceneccncccncncnenenenenenenenenenenenenenenenos 70 Importing Experiment ao a ao A ese RA a IAEA 71 EXporine EXPOLUINEN iS Si A ea iaat 72 Chapter 9 Advanced Applications Immunophenotyping cccccccccooooo
63. ng numbers into the box Increase the FITC voltage up and down using slider bars 9 Use Instrument Control Panel to change the threshold a b C Choose a threshold on SSC Adjust the threshold up and down Apply multiple thresholds Attune Acoustic Focusing Cytometer Training Guide 43 Exercise 5 1 What happens if you change FSC and SSC to logarithmic mode 2 Increase the FSC PMT voltage by 200 volts Which direction does the population move 3 Decrease the SSC PMT voltage by 100 volts Which direction does the population move 4 Identify the following plot types FLIA 2 44 10 10 1525 1144 4 Cells Six color Stain CD3 FITC FL1 H Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking 5 Identify the different parts of the workspace and define their functions Attune Cytometric Software v1 0 24 Admin a si Say Ej tube 8 3 3 4 02 18 2010 05 42 PM x F A workspace 8 Bas 7 B D gt instrument Settings d R6 46 Compensation 094 4 02 18 2010 05 45 PM 5 T T E Workspace 0 5 1 0 15 20 2 4 6 8 gt instrument Settings FSC H 106 FSC H 106 o i Parameters FSC H vs SSC H ne Tube Gate RI Experiment Name New Experiment Specimen Name Specimen 5363 Tube Name Tube Name Event Count 9 Parent 6 Total o Gales O soas 1
64. ng the detector quantum efficiency Q and optical background B Once baseline values are defined the beads are used to run daily performance measurements to track the cytometer performance daily We recommend running the performance test at least once per day that the instrument is used The voltage that is required to place the bright bead in the target channel is recorded as well as the day to day delta PMT voltage The half peak coefficient of variation HPCV of the bright bead is recorded Using assigned MESF values for each fluorescent bead the relative quantum efficiency rQ and relative Background rB is calculated for each channel and the linear regression is calculated and recorded The laser delay setting is also automatically calculated Levey Jennings charts provide a visual to track the HPCV and PMT voltage to check for shifts and trends Attune Performance Tracking Beads The Attune Performance Tracking Beads are supplied with the instrument and also available separately Cat no 4449754 Each vial of the Attune Performance Tracking Beads contains a mixture of equal concentrations of beads of four fluorescence emission intensities intensity levels 1 2 3 and 4 The beads are used to define a baseline and conduct daily measurements of the cytometer Each 3 mL vial contains beads sufficient for approximately 50 daily measurements or 50 baseline definitions The intensity level 1 beads in Attune Performance Trac
65. nterference or colored glass filter that attenuates shorter wavelengths and transmits passes longer wavelengths over the active range of the target spectrum ultraviolet visible or infrared Longpass filters which can have a very sharp slope referred to as edge filters are described by the cut on wavelength at 50 percent of peak transmission 488 nm v LP 530 700 nm Alexa Fluor 488 540 nm emission spectrum 460 nm LP 530 520 nm 560 nm 600 nm Shortpass Filter A Shortpass SP Filter is an optical interference or colored glass filter that attenuates longer wavelengths and transmits passes shorter wavelengths over the active range of the target spectrum usually the ultraviolet and visible region 460 nm 540 nm SP 530 28 Attune Acoustic Focusing Cytometer Training Guide Optics Overview Dichroic Mirror A Dichroic mirror also called reflective or thin film or interference filters can be made by coating a glass substrate with a series of optical coatings Dichroic filters usually reflect the unwanted portion of the light and transmit the remainder A dichroic filter is a very accurate color filter used to selectively pass light of a small range of colors while reflecting other colors By comparison dichroic mirrors and dichroic reflectors tend to be characterized by the color s of light that they reflect rather than the color s they pass Dichroic mirrors are essential to the optical path of a flow cytometer
66. o the active position Select Run on collection panel wait for the sample to equilibrate Select Record and acquire data Click Stop to stop the data collection and save the data in a unique FCS file After recording data unload the tube Place the tube of 1 mL deionized water on the tube loader in the active position Attune Acoustic Focusing Cytometer Training Guide 59 Exercise 7 1 List the Instrument Optimization Steps in order Define Threshold Calculate Compensation Define Gating Parameters Performance Tracking Adjusting FSC and SSC parameters Create Experiment objects on Workspace Adjust PMT settings Instrument Start Up Check Optics Record Data 2 Compensation can only be set using automated program True or False 3 It is not an important part of data acquisition to perform instrument performance tracking True or False 60 Attune Acoustic Focusing Cytometer Training Guide This chapter describes Types of Data Plots Gates and Gating Tools Statistical Analysis Data Analysis Exercise Exercise 8 Attune Acoustic Focusing Cytometer Training Guide Data Analysis Chapter 7 Data Analysis 61 Workflow Data Analysis 62 Attune Acoustic Focusing Cytometer Training Guide Data Analysis Analyzing Data is a multi step process In the previous chapter we learned about the different plots that we use in flow to acquire data and perform instrument optimization In this chapter you will lea
67. on Cell Viability Acoustic focusing differs fundamentally from ultrasonic lysis of cells and is generally gentler on cells than the forces occurring in hydrodynamic focusing Ultrasonic lysis of cells relies on cavitation and shear forces produced at sub megahertz frequencies where tiny gas bubbles form and collapse with immense local shear and heating in the solution containing the sample In contrast the acoustic focusing capillary of the Attune Acoustic Focusing Cytometer operates at a frequency well above 1 MHz where the possibility of cavitation is greatly reduced Further acoustic cytometry is performed with relatively low energy levels at very high sample flow rates and the design of the acoustically driven capillary spreads this energy over the entire length of the capillary The net effect is that cells experience low shear forces and do not appear to be harmed by the ultrasonic forces 4 Attune Acoustic Focusing Cytometer Training Guide Overview of Flow Cytometry Advantages of Acoustic Focusing e High sensitivity One of the unique capabilities of acoustic cytometry is the ability to select the sample delivery rate Slowing cell particle transit times approximately 20 100 times slower than conventional systems provides the opportunity to increase the time that a cell is within the laser beam transit time This maximizes photon collection leading to higher sensitivity optical measurements and photonic events measurements t
68. onal to the amount of fluorescence emitted All of the voltage pulses are recorded and can be presented graphically Multiple colors can be used on a flow cytometer and the number of colors that can be detected depends upon the number 6 Attune Acoustic Focusing Cytometer Training Guide Overview of Flow Cytometry of detectors available in the instrument The different colors are collected using select optical filters that direct the light to the right detector and capture the peak fluorescent signals Light Scatter When a cell or particle passes through a focused laser beam it refracts of scatters light in all directions e Forward scatter or low angle light scatter is the light that is scattered in the forward direction as laser light strikes the cell The magnitude of forward scatter is roughly proportional to the size of the cell or particle and this data can be used to quantify that parameter e Side scatter is defined as the light that is scattered at larger angles Side scatter is indicative of the granularity and structural complexity inside the cell or particle Forward scatter Side scatter Measuring Light Scatter and Plotting Data Forward scatter light is quantified by a detector that converts intensity into voltage In most cytometers a blocking bar called an obscuration bar is placed in front of the forward scatter detector The obscuration bar prevents any of the intense laser light from reaching the detector As
69. ons of cells as shown below 3 5 gt Neutrophils 3 Monocytes Side scatter 0 Complexity 100 Forward scatter 0C Size Lymphocytes Example When examining a typical peripheral blood sample different populations can be identified and gated The populations that emerge include lymphocytes which are small cells possessing low internal complexity monocytes which are medium sized cells with slightly more internal complexity and neutrophils and other granulocytes which are large cells with a lot of internal complexity This multiparametric analysis demonstrates the real power of flow cytometry Attune Acoustic Focusing Cytometer Training Guide Overview of Flow Cytometry Transit Modes and Times Hydrodynamic focusing instruments achieve tight focus by adjusting the volumetric flow rate of sheath 100 to 1 000 times greater than the sample solution Since acoustic radiation is the driving force in an acoustic focusing cytometer to align cells independent of the sheath flow rates the volumetric input rate of sheath to sample volume can be significantly reduced This helps alter the interrogation time which is the amount of time spent by each cell or particle in the path of the laser Increasing the interrogation time by reducing the speed of the cells or particles as they travel through flow cell increases number of photons emitted by the particle while it travels through the path of laser yielding greater sensitivity
70. or particles in suspension pass individually through a flow cytometer instrument These experiments typically performed on single cell suspensions provide discrete measurements from each cell in the sample and provide a distribution of the measured characteristics in the sample In generic terms flow cytometry measures cells particles flowing in a stream Flow cytometry assays allow researcher s to study many different applications including immunophenotyping of cell populations functional expression of intracellular proteins evaluation of apoptosis cell proliferation and cell viability Traditional flow cytometers are made up of three subsystems e Fluidics system which transports the sample to the flow cell and eventually discards as waste e Optics system that includes lasers mirrors and lens and photomultiplier tubes to detect the emitted fluorescent light and scattered light e Electronics system that converts the data into digital signals that can be visualized in a software program for data acquisition and analysis Traditional flow cytometers use a stream within a stream method to focus and transport cells throughout the fluidics system and delivers them for analysis This process is called hydrodynamic focusing Hydrodynamic Focusing Hydrodynamic focusing for conventional flow cytometry uses relatively high volumetric sheath flow that confines injected sample fluid to a small core which is separate but coaxial within the s
71. quential samples within your experiment 68 Attune Acoustic Focusing Cytometer Training Guide Data Analysis Exercise 8 1 When creating a daughter plot why are some of the data points missing 2 Explain the difference between Total vs Parent 3 The Hierarchy or Gating Tree is found on the instrument explorer True or False 4 A gate is defined when regions are used to isolate a specific group events from a large set of data True or False 5 Names of regions cannot be changed True or False 6 A bi marker tool is a good way to identify positive events from negative events True or False 7 Rectangle gates can be used as a gate on histogram plots True or False 8 What statistic is recommended when data is collected in logarithmic mode Mean or Median Attune Acoustic Focusing Cytometer Training Guide 69 70 Chapter 8 Data Management This chapter describes Options for Maintaining Computer Efficiency Importing Experiment Exporting Experiment Maintain Data Quality Using Routine Maintenance Procedures Attune Acoustic Focusing Cytometer Training Guide Data Management Data management is very important but often forgotten in maintaining a properly functioning instrument system There are many tools to help manage experimental data including ability to build folders on the experiment explorer to categorize or file day to day experimental results and exporting experiments to a back up storage dev
72. r Training Guide 11 Exercise 1 12 Define Transit Time Hydrodynamic focusing requires a to focus the cell sample where as acoustic focusing is dependent on to focus the cells Match the following Interrogation Point A Detects granularity and structural complexity inside the cell Forward Scatter B Prevents any of the intense laser light from reaching the detector Optical Filter C Spot where the laser and the sample intersect and the optics collect the resulting scatter and fluorescence Side Scatter D Amount of light that is scattered in the forward direction as laser light strikes the cell indicates cell size Obscuration Bar E Helps detect laser light to the appropriate fluorescence detector transit time should be used to get the most sensitive measurements Attune Acoustic Focusing Cytometer Training Guide Fluidics Overview Chapter 2 Fluidics Overview This chapter covers Fluidics system of the instrument Solutions required to operate the Attune Acoustic Focusing Cytometer Different modes of operation Basic instrument start up and shut down procedures Maintenance procedures Exercise 2 and 3 Attune Acoustic Focusing Cytometer Training Guide 13 Workflow Instrument Start Up Instrument Shut Down 14 Attune Acoustic Focusing Cytometer Training Guide Fluidics Overview Fluidics System The fluidics system of the Attune Acoustic Focusing Cytometer establishes the fluid flows required
73. rch 11 2010 10 32 AM liv iva New Experiment Ens Ties Tisa wadi fee Pik No template ai Loe gt defined ES E EA i Eim ee Els No template No templaje No template No template No template E Cl defined defined defined defined defined 3 f L E el Click here to select one Click here to seleft one Click here to select one ick here to select one Click here to select one me is f v lo rue New Experiment Performance Experiment Tracking Explorer Performance Test Panel This screen provides information of when the last performance test was complete and the status of that run It also allows you to set up a baseline for your daily performance monitoring runs the Performance Tracking Program and review the Performance Tracking Report It also allows you to download new lot information for Attune Performance Tracking Beads New Experiment Panel In this panel you can create an experiment using a blank template or use a pre populated template that can be user defined or preset template This panel displays up to 10 individual experiment templates Experiment Explorer This panel shows the experiments of the operator that is logged on to the instrument Each experiment is stored in individual folders or can be organized in larger folders Double clicking on any sample within the experiment opens the Workspace screen Workspace Screen The Workspace is used for controlling the Attune Acoustic Focusing Cytome
74. rmance measurements of the Attune Acoustic Focusing Cytometer Regular calibration of your instrument with the beads ensures the accuracy and sensitivity of the instrument and allows easy identification of potential shifts or trends in the instrument performance The tracking beads contain distinct sub populations of beads labeled at different intensities and are used to establish optimal dynamic range settings for the instrument The beads are pre calibrated at the factory and the lot specific bead performance data captured as a downloadable file for use by the Attune Cytometric Software Each vial contains enough beads for 50 measurements Store the beads at 2 to 8 C Cat no 4449754 Quantity 50 measurements Attune Acoustic Focusing Cytometer Training Guide Fluidics Overview Modes of Operation The operation of the Attune Acoustic Focusing Cytometer falls under three major modes Startup Cycle performed at the beginning of each day and is used to ensure that that all fluidic lines are clean and the fluidic lines and system s two pumps are filled with fresh sheath fluid Startup takes approximately 2 minutes Collect Run Rinse Cycle is used for normal operation with data collection Collect Cycle is used to record all data Run Cycle is used to collect data in two modes standard and high sensitivity modes Each individual mode can run the sample at different sample rates Rinse Cycle is used to rinse the fluidic
75. rn how to use the software features in which to analyze your data including setting gates defining gate parameters and introduce various statistical analysis tools Types of Data Plots TM The Attune Cytometric Software displays data in histogram dot or density plots Histogram Plot Histogram is a graphical representation of single parameter data and shows the relative number and distribution of events In a histogram the horizontal axis corresponds to the signal intensity of the selected parameter while the vertical axis represents the number of events count per channel number Dot Plot 10 10 10 10 10 10 10 10 BL3 H Human CD3 PerCP conjugate A dot plot is a graphical representation of two parameter data where each 7 axis represents the signal intensity of one parameter One parameter is 10 di displayed on the x axis and the other parameter is displayed on the y axis 3 Each dot in the plot corresponds to one or more events detected above the w e threshold sd re 10 101 10 10 10 10 10 VLI H Density Plot A density plot is a graphical representation of two parameter data where the colors represent the collection of events with the same intensity and each axis represents the signal intensity of one parameter FSC H 1076 Gates and Gating Tools Regions and gates are commonly used in data analysis to identify different subsets of populations in multi color experiments Re
76. rom the drop down menu d Load the bead sample e Run the baseline calculation TM Once the baseline calculation is complete the Attune Cytometric Software prompts you to complete the performance tracking test recommended to perform daily to ensure proper performance of the instrument using the following steps a Prepare Attune Performance Tracking Bead sample for baseline as indicated above b Check bead lot number on the tube label If beads from new lot are used download the correct lot information and perform a new base line calculation as described in Step 7 c Load the bead sample d Run the performance test Attune Acoustic Focusing Cytometer Training Guide Instrument Performance Tracking Exercise 6 Perform a performance tracking run on the cytometer Attune Acoustic Focusing Cytometer Training Guide 51 52 Chapter 6 Data Collection This chapter describes Experiment Optimization Overview Experiment Set up Creating Experiment Templates Optimizing Instrument Settings Adjusting Thresholds Performing Compensation Acquiring Data Recording Data Saving Experiment Exercise 7 Attune Acoustic Focusing Cytometer Training Guide Data Collection Workflow Experiment Settings Optimization Compensation Data Acquisition Attune Acoustic Focusing Cytometer Training Guide 53 Data collection occurs in several steps Instrument start up Performance tracking Experiment optim
77. round fluid or rd y potential minimum Attune Acoustic Focusing Cytometer Training Guide 3 Acoustic focusing cytometry is a powerful technique for the simultaneous measurement and analysis of multiple parameters of individual cells within heterogeneous populations Acoustic focusing cytometry is useful in applications ranging from immunophenotyping to ploidy analysis to cell counting and GFP expression analysis The acoustic focusing cytometer performs the analysis by passing thousands of cells per second through a laser beam and capturing the light that emerges from each cell as it passes through The data gathered is analyzed statistically by software to report cellular characteristics such as size complexity phenotype and health Flow Rate In a conventional cytometer the diameter of the sample core is varied by the pressure difference between the sample stream and the sheath fluid stream increasing the sample flow rate enlarges the core diameter which allows quicker data acquisition but lower resolution In contrast the alignment of cells in the Attune Acoustic Focusing Cytometer is independent of the total fluid flow through the instrument Therefore large changes in the amount of sample injected or the total fluid flow may alter the diameter of the sample core but not affect the resolution due to the constant focus of the cells and their ability to remain in the sweet spot of the aligned laser This feature of
78. s negative should run around 10 Record data from unstained beads Remove the unstained beads from the tube loader Adjusting Thresholds A threshold is a way to get rid of unwanted events i e debris before a sample is recorded Thresholds can be set on a single or dual parameter either on scatter or fluorescence channels 1 2 3 4 5 56 Select Insert tab to display the Gating Tools Select the FSC vs SSC dot plot on the Work Area Select the appropriate Gate from Gating Tools Gate appears automatically on the selected plot Drag the Gate over the population of interest and adjust its boundaries to include the population Check settings are fine for all samples Place mixed bead sample on to the instrument Attune Acoustic Focusing Cytometer Training Guide Data Collection Performing Compensation 1 Click Compensation in the Home tab to open up the Compensation Setup dialog box Alternatively right click and select Compensation Setup under the same folder that contains your optimized Experiment in the Experiment Explorer Compensation Setup Compensate on OArea Oueight For these control samples Unstained Control vu Met va Metz Mus Me 2 Select the type of compensation you want to perform and the channels and click OK 3 Compensation Setup Guide opens and the Workspace is automatically populated with the plots necessary to calculate compensation The Compensation Setup Guide directs you
79. sation None System Status Functions Experiment Zoom Status Indicators Menu Overview Tool Ribbon Tabs TM The Attune Cytometric Software utilizes the Microsoft Ribbon interface The Ribbon consolidates related functionality by organizing control elements in logical groups under contextual tabs Each tab relates to a type of activity The main contextual Ribbon tabs are the Home Insert and View tabs and they contain common commands that apply only to the selected item Objects that are not available as a function in a particular context are grayed out in the tab AB Ribbon Home Insert View tabs Home Tab The Home tab provides editing and formatting functions for your workspace Home Select All Ly a x x 1 a e kk le bb ls Unselect All jad Use slobally Use j Paste B Iu Ay gt XK Delete on tion sr Setup o seal Sea Options de Clipboard Font Editing Compensation Insert Tab The Insert tab includes ribbons that facilitate the insertion of different types of charts onto the work area identify gating parameters and allow addition of text statistics and images Objects are grayed out if they are not available as a function Insert tal SS EH a Oo A Lal E Histogram Dot Density Rectangular Oval Polygon Quadrant Histogram Bi Marker Text Image Statistics Plot Plot Plot Gate Gate Gate Gate Gate Plots Gating Tools Other View Tab The View tab facilitates the configuration of an experiment and application
80. t A CAUTION PHYSICAL INJURY HAZARD The instrument is to be moved and positioned only by the personnel or vendor specified in the applicable site preparation guide If you decide to lift or move the instrument after it has been installed do not attempt to lift or move the instrument without the assistance of others the use of appropriate moving equipment and proper lifting techniques Improper lifting can cause painful and permanent back injury Depending on the weight moving or lifting an instrument may require two or more persons Moving and Lifting Stand alone Computers and Monitors AN WARNING Do not attempt to lift or move the computer or the monitor without the assistance of others Depending on the weight of the computer and or the monitor moving them may require two or more people Things to consider before lifting the computer and or the monitor e Make sure that you have a secure comfortable grip on the computer or the monitor when lifting e Make sure that the path from where the object is to where it is being moved is clear of obstructions e Do not lift an object and twist your torso at the same time e Keep your spine in a good neutral position while lifting with your legs viii Attune Acoustic Focusing Cytometer Guide e Participants should coordinate lift and move intentions with each other before lifting and carrying e Instead of lifting the object from the packing box carefully tilt the box on its side and ho
81. t for Alexa Fluor 488 dye fluorescence in the 575 nm band so that we can measure the R PE fluorescence Performing multicolor analyses complicates compensation further because fluorophores are not usually spectrally separated very well therefore compensation plays a key role in the experimental design If a fluorescent dye emission is collected through three different filters then we can always estimate how much emission is in the first filter based on how much spill over or contaminating signal is in the second or the third filters In the above figure the Pacific Blue conjugate has some spill over in the 530 30 nm filter and very little in the 575 24 nm filter therefore the amount of compensation required in the 530 30 nm filter will be more than in the 575 24 nm filter 30 Attune Acoustic Focusing Cytometer Training Guide Optics Overview Fluorescence spillover can be estimated by running single fluorescence controls specific for a certain dye and then subtracting out the fluorescence in the other detection channels thus leaving the true signal of the other fluorophores For a more detailed description of the mechanisms of compensation refer to the flow cytometry tutorials at http www invitrogen com site us en home Products and Services Applications Cell and Tissue Analysis Flow Cytometry FC Misc Tools and Resources html Spectra Viewer A fluorescence spectra viewer is used to choose the right fluorochromes according to
82. ter to run samples generate data and analyze the results e Collection Panel e Instrument Controls 36 Attune Acoustic Focusing Cytometer Training Guide e Experiment Explorer e Work Area e Contextual Tabs e Instrument Status Bar e Ribbon Bars e Quick Access Toolbar e AB Button AB Quick Access Button Toolbar Ribbon contains contextual tabs A Ari Home inset view Afal ES Tet Image Statistics Other IED sae Stop recording when O Any oF these conditions ore met 108 Scatter Sample E 50000 Events on All Gates ls jmin o see SSC H 106 eL Elwo Ja O Record continuously j FSC H 10 6 POSEE Parameters FSC H ws SSC H sone Ocoee TT So ae META EE s ee 100 mio 20 405 100 000 y mm mmn ase ef vent Configurat Collection Parel A a a SS Collection Panel and Instrument Instrument Controls Status Bar NOA D Blue Laser Sample Work Area gt Violet Laser Sample Instrument Performance Tracking Instrument Settings Specimen Sample 109 s Compersavon None Experiment Explorer Note You can move the experiment explorer collection panel and instrument control panel throughout the Workspace to make more room on the work area These panels also can be hidden or minimized Collection Panel The collection panel displays a status bar as well as number of events collected The collection panel
83. test is complete and it passed criteria If needed perform Instrument Performance Tracking as described in Chapter 5 5 Check the optical layout of the instrument to verify that the filters are appropriate for the use of Alexa Fluor 488 R PE Tricolor APC Pacific Blue Pacific Orange and Qdot 605 dyes 6 Open the Experiment and navigate to the training folder on the experiment explorer a Select the workspace exercise b Right click on Data analysis exercise folder c Duplicate an experiment d Find the newly created experiment it may be at the bottom of the experiment explorer Rename the experiment by right clicking on the experiment f Select Properties g Change the experiment name to Data analysis Experiment Your name 7 Go to the Sample and double click the sample to activate the Workspace 8 On FSC vs SSC dot plot create three regions around the lymphocytes monocytes and granulocytes Adjust the gate sizes around the population by clicking on the gate and then using the dots to size the gate tightly around the population of interest 66 Attune Acoustic Focusing Cytometer Training Guide 10 11 12 13 14 15 16 17 18 19 20 21 Data Analysis Right click the region name box hold the right mouse down and drag the R1 2 and 3 symbols off of the region so they are easier to see Rename them by clicking on the Region box and rename lymphs monos and grans Create a h
84. the instrument allows analysis of dilute samples at a high rate without the loss of resolution The Attune Acoustic Focusing Cytometer has a maximum sample injection rate of 1 000 pL minute but is recommended to run from 25 pL min to 500 pL min If high sensitivity and resolution precision are more important than throughput the flow rate can be decreased drastically to maximize the collection of photons which is dependent upon the laser excitation intensity and cell transit time Sample Concentration All cytometers including the Attune Acoustic Focusing Cytometer are governed by Poisson statistics which predict the probability of a given number of cells or particles being intercepted by the interrogating laser beam While increasing the sample concentration results in a higher sample throughput it also increases the probability of a coincident event defined as more than one cell being present in the interrogating laser beam TM The Attune Acoustic Focusing Cytometer can maintain its maximum particle analysis rate over a large range of initial sample concentrations without the need to concentrate using centrifugation or filtration The ability to analyze dilute samples has the added benefits of reduced background fluorescence from free fluorophores in the sample and capability to analyze very small initial samples sizes or to dilute very small samples to larger volumes for more efficient sample use Effects of Acoustic Focusing
85. the tank by sliding it into the appropriate slot and plugging the tubing back into instrument 3 Turn on the instrument using the power button located on the upper right hand corner of the fluidics door located on the front of the instrument The instrument lights start blinking until the instrument is ready for use TM 4 Launch the Attune Cytometric Software as follows a 18 TM Double click the Attune Cytometric Software shortcut icon on the computer desktop or from the Start Menu Start All Programs gt Attune Cytometric Software Enter you user name and password in the user logon screen that is displayed Note User name is defined by your system administrator If you have questions consult your system administrator about your user name assignments Passwords can be changed by the administrator Click log in The Main Menu screen is displayed see next page Attune Acoustic Focusing Cytometer Training Guide applied A iipsystems Quality Control New Experiment ____ O Blank Template No template defined Click here to select one Template A No templaje defined Click here to seleft one Main Menu Performance Test Y Last pertormance test completed on Thursday Maren 11 2010 10 32 AM Template 8 No template defined Click here to select one H Template No template defined lick here to select one o ba Performance Tr
86. throughput for even dilute samples without the loss of signal resolution e Improved resolution Acoustically focused sample streams can be slowed without degrading alignment of the particle stream within the flow chamber The increased residence time within the acoustic field produces a stream of particles whose focus is actually improved Attune Acoustic Focusing Cytometer The Attune Acoustic Focusing Cytometer is an acoustic cytometer that uses acoustic radiation pressure to confine the cells or particles in a sample solution into a single focused line along the central axis of the flow channel The focusing is independent of the sample fluid flow and does not use high fluid velocities or high volumetric sheath fluid which can damage cells The acoustically driven capillary is an acoustic resonant device that focuses the cells or particles into a single tight line using a capillary coupled to a single piezoelectric transducer The acoustic contrast of Attune Acoustic Focusing Cytometer Training Guide 5 a particle or cell is determined by the density and compressibility differences between the particle cell and its background medium The relative magnitudes and signs of the differences determine the size and direction of the acoustic radiation pressure force that is applied to the particles which allows the particles traveling through the capillary to experience a time averaged force that aligns them along the central line of the capi
87. tp www cdc gov In the EU e Check your local guidelines and legislation on biohazard and biosafety precaution and the best practices published in the World Health Organization WHO Laboratory Biosafety Manual third edition http www who int csr resources publications biosafety WHO_CDS CSR L YO_2004_11 en Attune Acoustic Focusing Cytometer Guide ix Technical Support For Trouble shooting Guide refer to the Attune Acoustic Focusing Cytometer user guide supplied with the instrument For technical support information for all locations visit www appliedbiosystems com support Please have the following information available when calling Product name Attune Acoustic Focusing Cytometer Serial number Located near the back of the instrument The serial number has a format of letters and numbers Error messages xX Attune Acoustic Focusing Cytometer Guide Overview of Flow Cytometry Chapter 1 Overview of Flow Cytometry This chapter describes e Basic concepts of acoustic cytometry e Differences between traditional and acoustic focusing cytometry e Definition of Common Flow Cytometry Terms e Transit Time e Exercise 1 Attune Acoustic Focusing Cytometer Training Guide 1 Cytometry is the measurement of physical or chemical characteristics of cells or particles Flow cytometry and cell sorting are important tools to help address many complex biological questions Flow cytometry measurements are made as cells
88. trical connections are made to the instrument Indicates a terminal that can receive or supply alternating current or voltage Indicates a terminal that can receive or supply alternating or direct current or voltage Attune Acoustic Focusing Cytometer Guide v Safety Symbols The following table describes the safety symbols that may be displayed on the instrument Each symbol may appear by itself or in combination with text that explains the relevant hazard These safety symbols may also appear next to DANGERS WARNINGS and CAUTIONS that occur in the text of this and other product support documents Symbol Description Indicates that you should consult the manual for further information and to proceed with appropriate caution Indicates the presence of an electrical shock hazard and to proceed with appropriate caution Indicates the presence of a hot surface or other high temperature hazard and to proceed with appropriate caution Indicates the presence of a laser inside the instrument and to proceed with appropriate caution Indicates the presence of moving parts and to proceed with appropriate caution Indicates the presence of a biological hazard and to proceed with appropriate caution Sree E gt gt Indicates the presence of an ultraviolet light and to proceed with appropriate caution Environmental Symbol The following environmental symbol applies to this product
89. ty Waste tank full OFF BLINK OFF OFF OFF Wash tank empty Water tank empty Shutdown OFF OFF BLINK OFF OFF Error OFF ON OFF OFF OFF Attune Acoustic Focusing Cytometer Training Guide Fluidics Overview Shutting Down the Attune Acoustic Focusing Cytometer Perform the following shutdown procedures at the end of each day To ensure consistent and reliable functioning of the instrument prevent sample tube clogging and minimize dye carry over in the tubing perform proper cleaning of the instrument as described below Note Perform a shutdown procedure if viscous samples are analyzed or nucleic acid dyes such as acridine orange thiozole orange and propidium iodide are used Select shutdown procedure on the Attune Cytometric software Ensure that the cleaning solution bottle is at least half full Install a tube of 10 bleach onto the sample loader Follow the on screen instructions for the automatic shutdown procedure Add two tubes of water when indicated by the shutdown procedure Leave deionized water on sample tube loader after the shutdown procedure is complete SS SOE E Tes Ue Turn off the instrument power supply by holding the power button located on the upper right hand corner of the fluidics door on the front of the instrument for 2 3 seconds until the instrument power is turned off 8 Turn off the computer Maintenance Procedures TM The Attune Acoustic Focusing Cytometer is designed to operate with
90. utic clinical diagnostic vaccine or prophylactic product developed in research by the buyer in which this product or its components was employed provided that neither this product nor any of its components was used in the manufacture of such product If the purchaser is not willing to accept the limitations of this limited use statement Life Technologies is willing to accept return of the product with a full refund For information on purchasing a license to this product for purposes other than research contact Molecular Probes Inc Business Development 29851 Willow Creek Road Eugene OR 97402 Tel 541 465 8300 Fax 541 335 0354 TRADEMARKS The trademarks mentioned herein are the property of Life Technologies Corporation or their respective owners 2010 Life Technologies Corporation All rights reserved Doc Number MAN0002736 Rev date 2 June 2010 Contents ABOUT This GUIAS aii v A e ER v Safety Conventions and Sympos sismis eniri aa v General Instrument San bye oxic irai sica viii Biol gica Hazard Safety iroi A AAA A EKER ix Technical Suppor basse renane A A A ARA da x Chapter 1 Overview of Flow Cytometry omccccccccccccccccccnccnnccnnccnocenonennnnnnnnnnnos 1 Hydrodynamic Focusing at sae ERA EEE AEE Beg ARTE a tin E pe 2 PCOS TACO US NIN ofian tt da 3 Advantages of Acoustic Focusing A A A A AR 5 Attune Acoustic Focusing Cy tometer is ssiend ccviassccionee coher muvees sista diet sasaaandreniapiiaenudienesedsnes
91. va Fihi C Program Files Applied Biosystems Gadget Version 12 TheGadget Users S Scripts Folder C Program Files Applied Biosystems Gadget Version 12 TheGadget Scripts Browse Suwed remplates C Program Files Applied Biosystems Gadget Version 12 TheGadget Shared Templa Quality Control Folder C Program Files Applied Biosystems Gadget Version 12 TheGadget Quality Control Browse Reports Folder C Program Files Applied Biosystems Gadget Version 12 TheGadget Reports a Click on the show options icon in the upper left of the screen b Click on Administrator option c Assign the appropriate path using the Browse function Changing Passwords a Click on the show options icon a in the upper left of the screen b Click the User Management option c Select User d Assign password by selecting Change Password e Enter a new password and confirm Resetting Password a Click on the show options icon a in the upper left of the screen b Click the User Management option c Select User d Assign password by selecting Change Password e Enter a new password and confirm Perform Basic Software Functions OF Rs G2 INS 42 Launch the Software by double clicking the shortcut from the desktop Logon to the log in screen using admin Enter the password use default and click log in Perform Start up Function of instrument Go to functions Start Up if not already started Verify Performa

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