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8 - NEW AND Refurbished Ultrasound Equipment

1. 4 0 11 0 MHz Number of Element 128 Convex Radius 11mmR FOV Max 133 Physical Foot Print 26 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single Angle Disposable Reusable e 8C Wide Band Microconvex Probe Applications Pediatric Neonatal Probe Band Width 4 0 11 0 MHz Number of Element 128 Convex Radius 11 mmR FOV Max 133 Physical Foot Print 26 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available None e BE9C Micro convex Bi plan Probe Applications urology Probe Band Width 4 0 11 0 MHz Number of Element 96 Convex Radius 9 mmR FOV Max 127 Page 12 of 14 Physical Foot Print 25 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 1OMHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single Angle Reusable disposal e ERB Biplane Probe Applications Urology Probe Band Width ERB Linear 4 7 10 0 MHz ERB Convex 4 5 8 8 MHz Number of Element ERB Linear 128 Elements ERB Convex 128 Elements Probe Radius ERB Convex Radius 8 mmR ERB Linear Radius 0 mmR FOV Max ERB Convex FOV Max 122 ERB Linear FOV Max 51 2mm Physical Foot Print ERB Convex 17 x 5 5 mm ERB Linear 51 x 5 mm B mode Imaging Frequ
2. AR Radius Proximal Isovelocity Surface Area Radius of Aliased Point AR Radius Proximal Isovelocity Surface Area Regurgitant Flow AR Trace Proximal Isovelocity Surface Area Regurgitant Volume Flow AR Trace Proximal Isovelocity Surface Area Aliased Velocity AR Vmax e Mitral Valve Proximal Isovelocity Surface Area Regurgitant Orifice Area MR Radius Proximal Isovelocity Surface Area Radius of Aliased Point MR Radius Proximal Isovelocity Surface Area Regurgitant Flow MR Trace Proximal Isovelocity Surface Area Regurgitant Volume Flow MR Trace Proximal Isovelocity Surface Area Aliased Velocity MR Vmax Page 11 of 14 Combination Mode Measurements e Aortic Valve Aortic Valve Area Ao Root Diam LVOT Vmax AV Vmax Aortic Valve Area by Continuity Equation by Peak Velocity Ao Root Diam LVOT Vmax AV Vmax Stroke Volume by Aortic Flow AVA PI ani met ry AV Trace Cardiac Output by Aortic Flow AVA Planimetry AV Trace HR Aortic Valve Area by Continuity Equation VTI Ao Root Diam LVOT Vmax AV Trace e Left Ventricle Cardiac Output Teichholz Cubic LVIDd LVI Ds HR Cardiac Output Two Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs HR Cardiac Output Four Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs HR Ejection Fraction Two Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs Ej
3. FOV Max 39 mm Physical Foot Print 40 x 6 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 MHz Doppler Frequency 5 6 7 MHz Steered Angle 10 20 Biopsy Guide Available Multi Angle Reusable L Wide Band Linear Probe Applications Vascular Small Parts Neonatal and Pediatrics Probe Band Width 3 10 MHz Number of Element 192 FOV Max 44 mm Physical Foot Print 44 x 6 mm B mode Imaging Frequency 6 0 7 0 9 0 MHz Doppler Frequency 4 0 5 MHz Steered Angle 10 20 Harmonic Frequency 8 10 MHz Biopsy Guide Available Multi Angle Reusable 1L Wide Band Linear Probe Applications Vascular Small Parts Neonatal Pediatrics Probe Band Width 5 13 MHz Number of Element 192 FOV Max 39 mm Physical Foot Print 39 x 5 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 13MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 10 20 Biopsy Guide Available Multi Angle Reusable e T739 Intraoperative Wide Band Linear Probe Applications Intraoperative Probe Band Width 3 5 10 MHz Number of Element 192 FOV Max 39 mm Physical Foot Print 39 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 10 20 Biopsy Guide Available Multi Angle Reusable e i739L Intraoperative Wide Band Linear
4. e Phase Inversion e Gray Scale Map 23 types e Maximum Enhance Mode LOGIQ P6 The LOGIQ P6 is designed for compatibility with commercially available ultrasound contrast agents Because the availability of these agents is subject to government regulation and approval product features intended for use with these agents may not be commercially marketed nor made available before the contrast agent is cleared for use Contrast related product features are enabled only on systems for delivery to an authorized country or region of use GE Medical Systems makes no claims concerning the safety or effectiveness of contrast agents LOGIQView option e Available on all probes e Extended Field of View Imaging e For use in B Mode e LOGIQView Status e Auto detection of scan direction e Pre or post process zoom up to 10X e Rotation e Auto best fit on monitor e Measurements in B Mode Up to 60 cm scan length RealTime 4D option e Acquisition Modes Realtime 4D M mode 3D Static B Mode e Visualization Modes 3D Rendering diverse surface and intensity projection modes Sectional Planes 3 Section planes perpendicular to each other e Render Mode Surface texture Surface Smooth max min and x ray average intensity projection Mix Mode of two render Modes e Curved 3 point render start e 3D Movie e Scalpel 3D Cut tool e Display Format Quad A B C Plane 3D Dual A Plane 3D Single 3D or
5. A or B or C Plane e 4D Volume Frames sec max 30 e Automated Volume Calculation VOCAL II Option Virtual Convex e Available on the Following Probes 8L 9L 11L 3S 1739L T739 ERB CrossBeam e Provides Spatial Compounding e Provides 3 or 5 angles of spatial compounding e Live Side by Side Display e Compatible with PHI and CHI Harmonic Imaging e Available on the following probes 4C 5CS 8C E8CS E8C BE9CS 8L 9L 11L 1739L 1739 4D3C L 4DE7C SRI e Speckle Reduction Imaging e Provides 5 levels of speckle reduction e Live Side by Side Display e Compatible with all Convex Linear and Sector probes e Compatible with all imaging modes e Side by Side Display with Non compounding Image Pre Processing e Acoustic Power Output e Write Zoom up to 8x e B M Mode Gain TGC Image Reverse Depth Scan Area Auto Optimize ATO Dynamic Range Page 6 of 14 Focus Number Focus Position Line Density Frequency Image Rotation Gray Map Colorize Frame Average Edge Enhance Rejection Virtual Convex Focus Width Suppression B Softener M D Cursor Sweep Speed for M Mode e PW Mode Gain Sample Volume Depth PRF Wall Filter Baseline Angle Steer Angle Correct Quick Angle Correct Auto Angle Correct Doppler Frequency Doppler Invert Display Format Sweep Speed Full Timeline Rejection Time Resolution Gray
6. Map Colorize Dynamic Range CFM PWD Ratio Duplex Auto Calcs Trace Direction Modify Calcs umber of Average Cycles Trace Method Trace Sensitivity Auto Optimize ASO Audio Volume e Color Flow Mode Optional Gain ROI Position Size PRF Wall Filter Baseline Angle Steer Color Line Density LOGIQ P6 Color Frequency Packet Size Color Invert Color Map Threshold Frame Average Focus Position ACE Spatial Filter CFM PWD Ratio Duplex Sweep Speed for Color M Mode Anatomical Color M Mode e 3D Acquisition Scan Distance ROI Style Display Format Scan Plane Front to Back Side to Side Acquisition Mode Parallel Sweep Post Processing w TruAccess Raw Data e SRI 5 Selectable level e Read Zoom up to 8x e B M Mode Gain Dynamic Range TGC Image Reverse Auto Tissue Optimize ATO Compression Image Rotation Gray Map Colorize Frame Average in loop images Rejection Sweep Speed for M Mode Anatomical M Mode e PW CW Mode Post Gain Baseline Angle Correct Quick Angle Correct Doppler Invert Display Format Sweep Speed Full Timeline Rejection Gray Map Colorize Compression Dynamic Range Auto Optimize ASO e Color Flow Mode Auto Color Optimization ACO Baseline Color Invert Color Map Threshold Frame Average in loop images Sweep Speed for Color M Mo
7. Power Output PRF Wall Filter Sample Volume Width Dynamic Range Sample Volume Depth Angle Correction e Focal Zone Markers e TGC Curve On Off e Body Pattern 106 types e B Scale Markers 2 types Depth Width amp Depth e M Scale Markers Time Depth e Image Management Menu Menu Delete and Image Manager e Image Palette e Caps Lock On Off e System Messages Display e Trackball Functionality Status Scroll M amp A Measurement and Analysis Position Size Scan Area Width and Tilt e Biopsy Guide Line and Zone e Heart Rate General System Parameter System Setup e Diagnostic Categories 8 types pre settable Abd Obst Gyn Card Vasc Urol Small partsts Pediatrics e User Programmable Preset Capability e Factory Default Preset Data e Languages Chinese Czech Danish Dutch English Finnish French German Hungarian Italian Japanese Norwegian Polish Russian Spanish Swedish e Operation Error Beep Off Low Loud e Body Surface Area 2 types Page 3 of 14 Oriental Occidental e OB Report Format 4 types Tokyo Univ Osaka Univ USA Europe e EFBW 8 types Tokyo Univ Osaka Univ USA and Europe Shephard Merz Hadlock Shephard Williams Brenner e CUA AUA for Hadlock e Body Pattern Copy to Active Side On Off e Colorized B M D 6 types for each e Programmable Annotation Library 24 annotations e Customized Common Home Position e Color Printer Memory 3 types Single Quad Frm Quad Frmls e Menu Selectio
8. Pulmonic Valve Annulus Diameter PV Annulus Diam Pulmonic Diameter Pulmonic Diam e Right Atrium Right Atrium Diameter Length RAD Ma Right Atrium Diameter Width RAD Mi Right Atrium Area RAA Right Atrium Volume Single Plane Method of Disk RAAd Right Atrium Volume Systolic Single Plane Method of Disk RAAs e Right Ventricle Right Ventricle Outflow Tract Area RVOT Planimetry Left Pulmonary Artery Area LPA Area Right Pulmonary Artery Area RPA Area Right Ventricle Internal Diameter RVIDd RVIDs Right Ventricle Diameter Length RVD Ma Right Ventricle Diameter Width RVD Mi Right Ventricle Wall Thickness RVAWd RVAWs Right Ventricle Outflow Tract Diameter RVOT Diam Left Pulmonary Artery LPA Main Pulmonary Artery MPA Right Pulmonary Artery RPA e System nterventricular Septum Thickness IVSd IVSs nferior Vena Cava Pulmonary Artery Diameter MPA Systemic Vein Diameter Systemic Diam Patent Ductus Arterosis Diameter PDA Diam Pericard Effusion PEs Patent Foramen Ovale Diameter PFO Diam Ventricular Septal Defect Diameter VSD Diam Interventricular Septum IVS Fractional Shortening IVSd IVSs e Tricuspid Valve Tricuspid Valve Area TV Panimetry Tricuspid Valve Annulus Diameter TV Annulus Diam M Mode Measurements e Aorta Aortic Root Diameter Ao Root Diam e Aortic Valve Aortic Valve Diameter A
9. Receive Focus Aperture Multi Frequency Wideband Technology 256 Shades of Gray Up to 197 dB Processing Dynamic Range Adjustable Field of View FOV e Image Reverse Right Left mage Rotation 4 steps Rotation 0 90 180 and 270 B Mode e B M Acoustic Output 0 100 2 step e Image Reverse On Off e B Color 8 types e Thermal Index TIC TIS TIB e Softener 4 steps e Focus Number 8 steps e Focus Width 3 types e Range Focus On Off e Compress 0 5 1 5 dB 0 1 dB step e Line Density 4 steps e Noise Suppression 6 steps e Frame Average 6 steps e Max Frame rate gt 800 f s e Edge Enhance 6 steps e Angle Width deg mm probe dependent 10 170 2 step in case of E8CS probe e Gray Scale Map 23 types e Gain 0 98 dB 2 dB step Page 4 of 14 e Dynamic Range 30 120 dB 3 dB step e Harmonic Start On Off default pre settable e Virtual Convex On Off e Depth 2 30 cm 1 cm step probe dependent e Focus Depth 91 steps default pre settable e Rejection 6 steps e Frequency 3 4 steps probe dependent e Dual Beam On Off pre settable e Steered Linear 15 e Auto Line Density On Off pre settable Color Flow Mode e Base Line 0 100 10 step e Invert On Off e Capture 4 steps pre settable e CF PDI Focus Depth 10 100 5 step default pre settable e CF PDI ACE On Off e CF PDI Acoustic Output 0 100 10 step e PW CF PDI Angle
10. Steer 10 20 linear probe e Packet Size 5 16 dependent on probe applications e Line Density 5 steps e Frame Average 7 steps e PRF 300 Hz 10400 Hz probe dependent e Spatial Filter 6 steps application dependent e Gain 0 40 dB 0 5 dB step e Wall Filter 7 steps depend on probe e Virtual Convex On Off e Angle Width deg mm probe dependent e CFM Window Size depends on probe e Convex 10 170 e Sector 10 90 e Linear 10 46mm e CF PDI Frequency 2 steps e Color Map 13 types probe dependent e Velocity 7 types e Velocity Variance 3 types e Additional 3 types e Color Threshold 0 100 5 step e Auto Line Density On Off pre settable e CFM PWD Ratio 1 2 4 e Accumulation Mode 8 steps LOGIQ P6 e Symmetrical Velocity Imaging for optimized 3D color images PDI Mode e PDI Map 13 types e CF PDI Flash Suppression 2 steps e CF PDI Focus Depth 11 steps default pre settable e CF PDI Acoustic Output 0 100 10 step e PW CF PDI Angle Steer 10 20 linear probe e Packet Size 5 16 dependent on probe applications e Spatial Filter 6 steps probe dependent e Frame Average 7 steps e PRF 300 Hz 10400 Hz probe dependent e Power Threshold 0 100 5 step e CFM Window Size depends on probe s Convex 10 133 e Sector 10 90 e Linear 10 46mm e Gain 0 40 dB 0 5 dB step e Wall Filter 7 steps depend on probe e CF PD
11. GE Healthcare LOGIQ P6 TruScan Imaging Technology Product Description The LOGIQ P6 is a premium performance highly mobile and easy to use multipurpose imaging system designed for obstetrics gynecology cardiology musculoskeletal vascular urological small parts superficial pediatric neonatal transcranial and abdominal applications System Architecture TruScan Architecture our exclusive software intensive ultrasound imaging platform that gives you unsurpassed computational power image manipulation capability workflow flexibility and product upgrade ability via software or hardware e TruAccess is the GE exclusive raw data processing technology that will change the future of ultrasound imaging By accessing raw data TruScan achieves excellent image quality and ensures unsurpassed today s image management tomorrow e SmartScan utilizes new advances in operating algorithms and system operations to improve image acquisition and patient throughput while increasing diagnostic confidence and exam consistency e ComfortScan our most advanced ergonomic design ever helps maximize productivity and simplify every exam you perform LOGIQ P6 Page 1 of 14 General Specification Dimensions and Weight e Height Maximum 1470 Minimum 1250 e Width 43cm Depth 64cm e Weight approx 80 kg 176 Ib Electrical Power e Voltage 100 120Vac or 220 240Vac Frequency 50 60 Hz e Pow
12. I Frequency 2 steps e Auto Line Density On Off pre settable e CFM PWD Ratio 1 2 4 e Transparent 5 steps e Invert On Off e Accumulation 6 steps M Mode e Sweep Speed 8 steps M Color 8 types e M PW Display Format V 1 3B V 1 2B V 2 3B H 1 2B H 1 4B Timeline only e B M Acoustic Output 0 100 2 step e Rejection 6 steps Dynamic Range 30 120 dB 3 dB step Edge Enhance 6 steps Gray Scale Map 23 types e M Gain 0 98 dB 2 dB step Anatomical M Mode e M mode cursor adjustable at any plane Can be activated from a CINE loop from a live or stored image e Available with Color Flow Mode M amp A capability PW CW Mode e Maximum and Minimum Velocity Scales Max 20 m sec angle probe dependent Min 10 cm sec Gray Scale Map 4 types Dynamic Range 24 48 4 dB step Base Line 0 100 10 step SV Gate 1 2 3 4 5 6 7 8 9 10 12 14 16mm Angle Correct 90 1 step Spectral Color 5 types PW Sweep Speed 8 steps Invert On Off M PW Display Format V 1 3B V 1 2B V 2 3B H 1 2B H 1 4B Timeline only Duplex On Off PW Acoustic Output 0 100 10 step Spectral Averaging 5 steps pre settable Time Resolution 4 steps e CFM PWD Ratio 1 2 4 e Rejection 15 steps e Gain 0 32 dB 1 dB step e Wall Filter 19 3000 Hz 22 steps e PW CF PDI Angle Steer 10 20 e PRF 640 19600 Hz e Sample Volume Depth 29
13. Mitral Valve Acceleration Time MV Acc Time Mitral Valve Deceleration Time MV Dec Time Mitral Valve Ejection Time MV Trace Mitral Valve A Wave Duration MV A Dur Mitral Valve Time to Peak MV Trace Mitral Valve Acceleration 4 ime Deceleration Time Ratio MVAcc Dec Time Stroke Volume Index by Mitral Flow MVA Planimetry MVTrace Mitral Valve Area from Continuity Equation MVAPlanimetry LVOT Vmax MV Vmax e Pulmonic Valve Pulmonic Insufficiency Peak Pressure Page 10 of 14 Gradient PR Vmax Pulmonic Insufficiency End Diastolic Pressure Gradient PRTrace Pulmonic Valve Peak Pressure Gradient PV Vmax Pulmonic End Diastolic Pressure Gradient PR Trace Pulmonic Insufficiency Peak Velocity PR Vmax Pulmonic Insufficiency End Diastolic Velocity Prend Vmax Pulmonic Valve Peak Velocity PV Vmax Pulmonic End Diastolic Velocity PV Trace Pulmonary Artery Diastolic Pressure PV Trace Pulmonic Insufficiency Mean Pressure Gradient PR Trace Pulmonic Valve Mean Pressure Gradient PV Trace Pulmonic Insufficiency Mean Velocity PR Trace Pulmonic Insufficiency Mean Square Root Velocity PR Trace Pulmonic Insufficiency Velocity Time Integral PR Trace Pulmonic Valve Mean Velocity PV Trace Pulmonic Valve Mean Square Root Velocity PV Trace Pulmonic Valve Velocity Time Integral PV Trace Pulmonic Insufficiency Pressure Half Time P
14. Probe Applications Intraoperative Probe Band Width 3 5 10 MHz Number of Element 192 FOV Max 39 mm Physical Foot Print 39 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 5 0 6 7 MHz Steered Angle 10 20 Biopsy Guide Available None e 4D3C L Convex Volume Probe Applications Abdomen OB Probe Band Width 2 5 MHz Number of Elements 192 Convex Radius 40 5 mmR Volume Sweep Radius 20 15mm FOV 80 B 85 x 80 Volume scan Foot Print 53 2 x 40 6 mm B mode imaging Frequency 3 4 5 MHz Harmonic Frequency 4 4 5 4 8 5 0 Page 13 of 14 MHz Color Frequency 2 5 3 3 MHz Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Single Angle Reusable 4DE7C Convex Volume Probe Applications OB Gyn Urology Probe Band Width 4 11 0 MHz Number of Element 192 Convex Radius 11 6 mmR Volume Sweep Radius 11 6 mmR FOV 116 Volume 146 x 90 Physical Foot Print 35 x 34 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 11 0 MHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single Angle Reusable stainless steel e P2D Non imaging Single CW Doppler Pencil Probe Applications Cardiac Frequency 2 0 MHz e P6D Non imaging Single CW Doppler Pencil Probe Applications Cardiac Vascular Pediatri
15. R PHT Pulmonic Valve Flow Acceleration PV Acc Time Pulmonic Valve Acceleration Time PV Acc Time Pulmonic Valve Ejection Time PVET Pulmonic Valve Pre Ejection Period PVPEP QRS complex to end of envelope Q to PV close Pulmonic Valve Acceleration to Ejection Time Ratio PV Acc Time PVET Pulmonic Valve Pre Ejection to Ejection Time Ratio PVPEP PVET e Right Ventricle Right Ventricle Outflow Tract Peak Pressure Gradient RVOT Vmax Right Ventricle Systolic Pressure RVOT Vmax LOGIQ P6 Right Ventricle Outflow Tract Peak Velocity RVOT Vmax Right Ventricle Diastolic Pressure RVOT Trace Right Ventricle Outflow Tract Velocity me Integral RVOTTrace Right Ventricle Ejection Time RV Trace Stroke Volume by Pulmonic Flow RVOT Planimetry RVOTTrace Right Ventricle Stroke Volume Index by Pulmonic Flow RVOT Planimetry RVOT Trace e System Pulmonary Artery Peak Velocity PV Vmax Pulmonary Vein Velocity Peak A reverse P Vein A Pulmonary Vein Peak Velocity P Vein D P Vein S Systemic Vein Peak Velocity PDA Diastolic PDA Systolic Ventricular Septal Defect Peak Velocity VSD Vmax Atrial Septal Defect ASD Diastolic ASD Systolic Pulmonary Artery Velocity Time Integral PV Trace Systemic Vein Velocity Time Integral PDA Trace Pulmonary Vein A Wave Duration P Vein A Dur lsoVolumetric Relaxation Time IVRT lsoVol
16. V Diam Aortic Valve Cusp Separation AV Cusp Aortic Valve Ejection Time LVET e Left Atrium Left Atrium Diameter to AoRoot Diameter Ratio LA Ao Ratio Left Atrium Diameter LA Diam e Left Ventricle Left Ventricle Volume Teichholz Cubic LVIDd LVI Ds Left Ventricle Internal Diameter LVIDd LVI Ds Left Ventricle Posterior Wall Thickness LVPWd LVPWs Left Ventricle Ejection Time LVET Page 9 of 14 Left Ventricle Pre Ejection Period LVPEP Interventricular Septum IVS Left Ventricle Internal Diameter LVI D Left Ventricle Posterior Wall Thickness LVPW e Mitral Valve E Point to Septum Separation EPSS Mitral Valve Leaflet Separation D E Excursion Mitral Valve Anterior Leaflet Excursion D E Excursion Mitral Valve D E Slope D E Slope Mitral Valve E F Slope E F Slope e Pulmonic Valve QRS complex to end of envelope Q to PV close e Right Ventricle Right Ventricle Internal Diameter RVIDd RVIDs Right Ventricle Wall Thickness RVAWd RVAWs Right Ventricle Outflow Tract Diameter RVOT Diam Right Ventricle Ejection Time RVET Right Ventricle Pre Ejection Period RVPEP Velocity Circumferential Fiber Shortening Vcf e System Interventricular Septum Thickness IVSd IVSs Pericard Effusion PE d Interventricular Septum IVS Fractional Shortening IVSd IVSs e Tricuspid Valve QRS complex to end of envelope Q to TV close Dopple
17. Ventricle Outflow Tract Mean Pressure Gradient LVOT Trace Left Ventricle Outflow Tract Mean Velocity LVOT Trace Left Ventricle Outflow Tract Mean Square Root Velocity LVOT Trace Left Ventricle Outflow Tract Velocity Time Integral LVOT Trace Left Ventricle Ejection Time LVET Cardiac Output by Aortic Flow AVA PI ani met ry AV Trace Stroke Volume Index by Aortic Flow AVA Planimetry AV Trace e Mitral Valve Mitral Valve Regurgitant Flow Acceleration MR Trace tral Valve Regurgitant Mean ity MR Trace tral Regurgitant Mean Square Root ity MR Trace tral Regurgitant Mean Pressure ient MR Trace tral Regurgitant Velocity Time egral MR Trace tral Valve Mean Velocity MR Trace tral Valve Mean Square Root locity MR Trace tral Valve Velocity Time Integral MR ace tral Valve Mean Pressure Gradient R Trace tral Regurgitant Peak Pressure adient MR Vmax tral Valve Peak Pressure Gradient R Vmax tral Regurgitant Peak Velocity MR max tral Valve Peak Velocity MR Vmax itral Valve Velocity Peak A MV A ity itral Valve Velocity Peak E MV E ity tral Valve Area according to PHT HT tral Valve Flow Deceleration MV ace itral Valve Pressure Half Time PV HT tral Valve Flow Acceleration MV ace itral Valve E Peak to A Peak Ratio A C and D E MV E ARatio 935558 o 2 O fa O fa 2 20 22 25 25 2325 a ee ee ee ee ee Er oO ie
18. ay Independent Dual B PW Display Display Formats Top Bottom or Side Side selectable Format Size able to switch after freeze Vertical 1 3 1 2 2 3 Horizontal Full Time line only Update mode timed based on sweep e Virtual Convex e CrossBeam Display Annotation e Institution Hospital Name 25 Characters e Date 3 types selectable YY MM DD MM DD YY DD MM YY e Time 2 types selectable 24 hours 12 hours e Operator Identification e Patient Name First Last amp Middle name each store 64 characters Up to 64 total characters displayed Patient Identification 31 Characters Gestational Age from LMP EDC GA BBT Power Output Readout MI Mechanical Index TIS Thermal Index Soft Tissue TIC Thermal Index Cranial Bone TIB Thermal Index Bone System Status real time or frozen Probe Orientation Marker Coincides with a probe orientation marking on the probe Image Preview Gray Color Bar Cine Gauge Measurement Summary Window Measurement Results Window pre settable display location Probe Type Application Name Imaging Parameters by Mode current mode highlighted B M Mode Imaging Frequency Gain Edge Enhance Frame Averaging Gray Map Image Depth Dynamic Range Line Density of Power Output Color Flow Mode Optional Doppler Frequency Color Gain Line Density Frame Averaging of Power Output PRF Wall Filter Spatial Filter Packet Size PW Mode Doppler Frequency Doppler Gain of
19. c Frequency 5 0 MHz e UG7C Gastro Probe Europe Only Applications Transesophageal Stomach Probe Band Width 4 5 12 MHz Number of Element 128 Convex Radius 7 5mmR FOV Max 130 Physical Foot Print 17 x 9 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 12MHz Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Endoscopic Biopsy Inputs and Outputs e Video In S Video e Video Out S Video Analog VGA RGB LOGIQ P6 Composite Color most current information e Audio Stereo In e Audio Stereo Out e External Microphone In e Connectors GE Medical Systems Americas 888 202 5528 PO Box 414 Milwaukee Wisconsin 53201 U S A GE Ultrasound Europe 49 212 28020 PO Box 1105 60 D 42665 Solingen GE Ultrasound Asia T 86 21 5257 4640 Footswitch 50 F 8 Xingyi Road Maxdo Center USB for BW printer on 200336 ina USB for Color Printer Internet USB for remote control www gehealthcare com USB for DMC Additional USB 2 2008 General Electric Company All rights Ethernet reserved Power for Peripherals 3 GE Healthcare a division of General Electric Company GE GE Monogram and LOGIQ are trademarks of General Electric Company Safety Conformance The LOGIQ P6 is e Listed to UL 2601 1 by a Nationally Recognized Test Lab e Certified to CSA 22 2 60601 1 by an SCC accredited Test Lab e CE Marked to Council Di
20. d stored image side by side display CD R storage 650 700 MB Conversion to JPEG AVI SaveAs and WMV MPEGvue file formats e Internal Hard Drive Image Storage 25 GB e External USB 2 0 Hard Drive support for Import Export DICOM Read SaveAs MPEGVue and EZ Backup EZMove USB 2 0 Memory Stick support for SavedAs USB QuickSave and MPEGVue e Network Storage support for Import Export DICOM Read SaveAs MPEGVue and USB QuickSave Connectivity e Ethernet Network Connection e USB serial data output need a converter cable e DICOM Support option Verify Print Store Modality Worklist Multiframe Storage Commitment Modality Performed Procedure Step MPPS Media Exchange Off network mobile storage queue Query Retrieve Structure Reporting Public SR Template Media Store of SR iLing capability Physiological Input Panel Option e Physiological Input ECG 1 channel e Dual R Trigger e Pre settable ECG R Delay Time e Pre settable ECG Position e Adjustable ECG Gain Control Scanning Parameters Digital Beamformer 14336 System Processing Channel Technology Displayed Imaging Depth 2 30 cm probe dependent Minimum Depth of Field 2 cm Zoom and probe dependent Maximum Depth of Field 30 cm probe dependent Transmission Focus 1 8 Focus Points Selectable probe and application dependent Focal Zone Position B Mode 16 steps CFM 64 steps Continuous Dynamic
21. de Anatomical Color M Mode e Easy 3D option Colorize Threshold Opacification Mix Type 1 Render Texture Gray Surface Scalpel Auto Movie Undo Reset e Advanced 3D option 3D Landscape Colorize Threshold Opacification Re slice Type 1 2 Group Planes Scalpel Define Axis Visible Data Tile Active Data Auto Movie Rotate Undo Reset e 3D Movie Colorize Pause Movie Speed AX S Define Start End Auto Movie Movie 360 Manual Measurements Calculations General B Mode Depth amp Distance Circumference Ellipse Trace e Area Ellipse Trace Page 7 of 14 e Volume Ellipsoid Stenosis Area or Diameter e Angle between two lines General M Mode e M Depth Distance Time Slope e Heart Rate General Doppler Measurements Calculations e Velocity Time A B Ratio Velocities Frequency Ratio PS Peak Systole ED End Diastole PS ED PS ED Ratio ED PS ED PS Ratio AT Acceleration Time e ACCEL Acceleration e TAMAX Time Averaged Maximum Velocity Volume Flow TAMEAN and Vessel Area e Heart Rate e PI Pulsatility Index RI Resistivity Index Real time Doppler Auto Measurements Calculations PS Peak Systole ED End Diastole MD Minimum Diastole PI Pulsatility Index RI Resistivity Index AT Acceleration Time ACC Acceleration PS ED PS ED Rati
22. easured Value Up to six measurement values for each item Average maximum minimum or last Generic Study in Cardiology e Stroke Volume SV e Flow Volume FV Cardiac Output CO e Flow Volume Output FVO Probes e 4C Wide band Convex Probe Applications Abdomen OB Gyn Urology and Vascular Maximum Band Width 1 4 5 MHz Number of Elements 128 Convex Radius 60 mm FOV 55 Foot Print 60mm x 18 mm Fundamental Frequency 2 3 4 5 MHz Harmonic Frequency 4 5 5 2 5 5MHz Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Multi Angle Reusable e 5CS Wide band Convex Probe Applications Abdomen OB Gyn Urology and Vascular Maximum Band Width 3 6 MHz Number of Elements 128 Convex Radius 60 mm FOV 55 Foot Print 60mm x 18 mm Fundamental Frequency 2 3 5 MHz Harmonic Frequency 4 5 5 2 6MHz Doppler Frequency 2 5 3 3 MHz Biopsy Guide Available Multi Angle Reusable e E8CS Wide Band Microconvex Probe Applications OB Gyn Urology Endocavity Probe Band Width 4 0 11 0 MHz Number of Element 128 Convex Radius 11 mmR FOV Max 170 Physical Foot Print 15 x 10 mm B mode Imaging Frequency 6 0 8 0 10 0 MHz Harmonic Frequency 8 10 Doppler Frequency 4 0 5 0 MHz Biopsy Guide Available Single Angle Disposable Reusable e E8C Wide Band Microconvex Probe Applications OB Gyn Urology Endocavity Probe Band Width
23. easurements e Parameter annotation follow ASE standard See Supplement for details Report Writer Optional On board reporting package automates report writing e Formats various exam results into a report suitable for printing to a windows printer or reviewing on a standard PC e Exam results include patient info exam info measurements calculations images comments and diagnosis Standard templates provided Page 8 of 14 Customizable templates Supplement Cardiac Measurements Calculations B Mode Measurements e Aorta Aortic Root Diameter Ao Root Diam Aortic Arch Diameter Ao Arch Diam Ascending Aortic Diameter Ao Asc Descending Aortic Diameter Ao Desc Diam Aorta Annulus Diameter Ao Annulus Diam Aorta Isthmus Ao Isthmus Aorta Ao st junct e Aortic Valve Aortic Valve Cusp Separation AV Cusp Aortic Valve Area Planimetry AVA PI ani met ry Trans AVA e Left Atrium Left Atrium Diameter LA Diam LA Length LA Major LA W idth LA Minor Left Atrium Diameter to AoRoot Diameter Ratio LA Ao Ratio Left Atrium Area LAA d LAAIs Left Atrium Volume Single Plane Method of Disk LAEDV A2C LAESV A2C LAEDV A4C LAESV A4C e Left Ventricle Left Ventricle Mass LVPWd LVPWs Left Ventricle Volume Teichholz Cubic LVIDd LVI Ds LVI Ds Left Ventricle Length LVLd LVLs Left Ventricle Outflow Tract Diameter LVOT Diam Left Ventr
24. ection Fraction Four Chamber Single Plane Area Length Method of Disk Simpson LVAd LVAs Left Ventricle Stroke Volume Single Plane Two Chamber Four Chamber Area Length LVAd LVAs Left Ventricle Stroke Volume Single Plane Two Chamber Four Chamber LVAd LVAs Left Ventricle Volume Two Chamber Four Chamber Area Length LVAd LVAs Ejection Fraction Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Stroke Volume Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Volume Bi Plane Method of Disk LVAd LVAs 2CH 4CH Left Ventricle Stroke Index Single Plane Two Chamber Four Chamber Area Length LVSd LVSs and BSA Left Ventricle Volume Single Plane Two Chamber Four Chamber Method of Disk LVAd LVAs Left Ventricle Volume Apical View Long Axis Method of Disk LVAd LVAs Stroke Volume by Aortic Flow AVA LOGIQ P6 Method of Disk Simpson LVIDd LVIDs Planimetry AV Trace e Mitral Valve Stroke Volume by Mitral Flow MVA Planimetry MV Trace Cardiac Output by Mitral Flow MVA Planimetry MV Trace HR e Pulmonic Valve Stroke Volume by Pulmonic Flow PV Planimetry PV Trace Cardiac Output by Pulmonic Flow PV Planimetry PV Trace HR e Tricuspid Valve Cardiac Output by Tricuspid Flow TV Planimetry TV Trace HR Cardiac Worksheet e Parameter lists the mode the measurement folder and the specific measurement e M
25. eets GYN Measurements Calculations e Right Ovary Length Width Height e Left Ovary Length Width Height e Uterus Length Width Height Ovarian Volume ENDO Endometrial thickness Ovarian RI e Uterine RI Follicular measurements Summary Reports Vascular Measurements Calculations SYS DCCA Systolic Distal Common Carotid Artery DIAS DCCA Diastolic Distal Common Carotid Artery e SYS MCCA Systolic Mid Common Carotid Artery DIAS MCCA Diastolic Mid Common Carotid Artery SYS PCCA Systolic Proximal Common Carotid Artery DIAS PCCA Diastolic Proximal Common Carotid Artery SYS DICA Systolic Distal Internal Carotid Artery DIAS DICA Systolic Distal Internal Carotid Artery e SYS MICA Systolic Mid Internal Carotid Artery DIAS MICA Diastolic Mid Internal Carotid Artery SYS PICA Systolic Proximal Internal Carotid Artery DIAS PICA Diastolic Proximal Internal Carotid Artery SYS DECA Systolic Distal External Carotid Artery DIAS DECA Diastolic Distal External Carotid Artery e SYS PECA Systolic Proximal External Carotid Artery DIAS PECA Diastolic Proximal External Carotid Artery VERT Systolic Vertebral Velocity SUBCLAV Systolic Subclavian Velocity e Summary Reports Mean IMT Measurement Tools Cardiac Measurements Calculations e Cardiac calculation package including extensive measurements and display of multiple repeated m
26. ency 6 0 8 0 10 0 MHz Harmonic Frequency 8 0 10 0 MHz Doppler Frequency 5 0 6 7 MHz Biopsy Guide Available Brachy Grid Bridge Biopsy Guide e 3S Wide Band Phased Array Sector Probe Applications Cardiac Transcranial Abdomen Probe Band Width 1 5 3 5 MHz Number of Element 64 FOV Max 90 Physical Foot Print 18 5 x 18 5 mm B mode Imaging Frequency 2 0 2 5 3 0 MHz Harmonic Frequency 3 2 3 6 MHz Doppler Frequency 1 7 2 0 2 2 MHz St CWD Frequency 2 0 MHz Biopsy Guide Available Multi Angle Reusable e 5S Wide Band Phased Array Sector Probe Applications Cardiac Transcranial Abdomen Probe Band Width 2 2 5 3 MHz LOGIQ P6 Number of Element 96 FOV Max 90 Physical Foot Print 14 4 x 11 mm B mode Imaging Frequency 3 0 4 0 5 0 MHz Harmonic Frequency 4 0 5 0 MHz Doppler Frequency 2 5 3 3 MHz St CWD Frequency 2 5 MHz Biopsy Guide Available Multi Angle Reusable e 7S Wide Band Phased Array Sector Probe Applications Neonatal Abdomen Pediatrics Probe Band Width 3 0 8 0 MHz Number of Element 64 FOV Max 90 Physical Foot Print 9 3 x 7 0 mm B mode Imaging Frequency 5 0 6 0 7 0 MHz Doppler Frequency 3 3 4 0 MHz St CWD Frequency 4 0 MHz Biopsy Guide Available None e 8L Wide Band Linear Probe 09 el Applications Vascular Small Parts Neonatal and Pediatrics Probe Band Width 4 10 MHz Number of Element 128
27. er Max 750 VA with Built in and On Board Peripherals Maximum Thermal Output 2200 BTU hr Console Design 3 Active Probe Ports e Integrated HDD Capacity 80GB e Integrated DVD R W Drive On board Storage for Peripherals max 3 peripherals B W printer color printer DVD video recorder e Wheels Wheel diameter 12 5cm Integrated locking mechanism that provides rolling lock and optional caster swivel lock e Probe Holders Removable for Cleaning and Washing Gel Holder Removable for Cleaning and Washing e Air Filters Easily Removable Front Handle User Interface Operator Keyboard e Width 43cm e Height 84 90cm Alphanumeric Keyboard e Ergonomic Hard Key Operations e Indicator Lights Identify Activated Keys e Integrated Recording Keys for Remote Control of Up to 2 Peripheral Devices and DICOM Devices 8 TGC Pods with Re mapping Functionality at Any Depth LOGIQ P6 Monitor 17 inch TFT LCD depending on region XGA Format Display size 1024 x 768 Tilt Rotate Translate Tilt Angle 40 90 Rotate Angle 90 Translate Horizontal 442 mm Translate Vertical 160 mm Flexible Arm for Monitor Translation in X Y and Z axis Digital Brightness Dim Bright Contrast Adjustment System Overview Applications Abdominal e Obstetrical e Gynecological e Cardiac e Musculoskeletal e Vascular Urological Small Parts and Superficial e Breast e Pediatr
28. ic and Neonatal e Transcranial e Endocavitary Transesophageal Scanning Methods e Electronic Sector Electronic Convex Electronic Linear e Mechanical Volume Sweep Transducer Types e Sector Phased Array e Convex Array e Microconvex Array e Linear Array e Single CW Pencil Probes e Bi plane Microconvex Array e 4D Volume Probes Operating Modes e B Mode e Coded Harmonic Imaging e M Mode e Anatomical M Mode option e Color Flow Mode CFM e Power Doppler Imaging PDI with Directional Map e PW Doppler with High PRF e M Color Flow Mode e Anatomical M Color Mode option e B Flow Mode option e Coded Contrast Imaging option e CW Doppler Mode option e 3D 4D Volume Modes option e 3D Static e 4D Real Time System Standard Features e Hard Disk for image storage e Without compression e Raw DICOM gt 14500 images e DICOM Image Only gt 16 000 images e lt 1000 Frames 60 sec CINE Memory 256MB e Real time Triplex Mode at any Depth and PRF e Automatic Optimization Auto Tissue Optimization ATO Auto Spectrum Optimization ASO Auto Color Optimization ACO e CHI Coded Harmonic Imaging e PHI Phase inversion Harmonics e Coded Excitation e SRI Speckle reduction imaging e CRI CrossBeam e Virtual Convex e Patient Information Database e Image Archive on Hard Drive and DVD e Easy Backup to Media for data security e TruAccess Raw Data Processing and Analysis e Vascu
29. icle Posterior Wall Thickness LVPWd LVPWs Left Ventricle Length LV Major Left Ventricle Width LV Minor Left Ventricle Outflow Tract Area LVOT Left Ventricle Area Two Chamber Four Chamber Short Axis LVA d LVA s Left Ventricle Endocardial Area Width LVA d LVA s Left Ventricle Epicardial Area Length LOGIQ P6 Left Ventricle Internal Diameter LVIDd LVAepi d LVAepi s Left Ventricle Mass Index LVPWd LVPWs Ejection Fraction Teichholz Cube LVIDd LVIDs Left Ventricle Posterior Wall Fractional Shortening LVPWd LVPWs Left Ventricle Stroke Index Teichholz Cube LVIDd LVIDs and Body Surface Area Left Ventricle Fractional Shortening LVIDd LVIDs Left Ventricle Stroke Volume Teichholz Cubic LVIDd LVIDs Left Ventricle Stroke Index Single Plane Two Chamber Method of Disk LVI Dd LVIDs LVSd LVSs Left Ventricle Stroke Index Single Plane Four Chamber Method of Disk LVI Dd LVIDs LVSd LVSs Left Ventricle Stroke Index Bi Plane Bullet Method of Disk LVAd LVAs Interventricular Septum IVS Left Ventricle Internal Diameter LVI D Left Ventricle Posterior Wall Thickness LVPW e Mitral Valve Mitral Valve Annulus Diameter MV Ann Diam E Point to Septum Separation EPSS Mitral Valve Area by Pressure Half Time MVA By PHT Mitral Valve Area Planimetry MVA Planimetry e Pulmonic Valve Pulmonic Valve Area PV Planimetry
30. lar Calcs e Cardiac Calcs e OB Calcs e Fetal Trending e Multi Gestational Calcs e Hip Dysplasia Calcs e Gynecological Calcs e Urological Calcs e Renal Calcs e Real time Auto Doppler Calculations e On board basic Reporting Page 2 of 14 System Options e Easy 3D e Advanced 3D with 3D Landscape e DICOM 3 0 Connectivity e LOGIQView e B Flow e Coded Contrast Imaging e Anatomical M Mode e Real Time 4D e Report Designer on board reporting e ECG e ECG Cable e Steering CW Single CW Assy e 3 Pedal Foot Switch with Programmable Functionality e Rear Handle e Drawer e Probe Cable Hanger e Urology Probe Holder Media amp Peripheral Options e Integrated Mounting Kits and Remote Controls Provided for B W Digital thermal printer Digital Color A6 Digital thermal printer Digital Color A5 Digital thermal printer DVD Video Recorder Display Modes e Simultaneous Capability B PW B CFM or PDI B M B CFM M Real time Triplex Mode B CFM or PDI PW Dual B B B Dual B CFM or PDI e Selectable Alternating Modes B M B PW B CFM PDI M B CFM PDI PW 3D Mode option 3D Color Mode option B CW option e Multi Image Split Screen Live and or frozen B B CFM or PDI Independent Cine playback Quad screen format e Zoom Write Read Pan LOGIQ P6 e Colorized Image Colorized B Colorized M Colorized PW Colorized CW option e Time line Displ
31. n at New Patient 2 types Patient Entry Schedule e Sort Criteria for Schedule List 2 types Date amp Time Name e Patient Name Format 2 types Full Name Last amp First e Auto Deletion of Transferred Queue Yes No e Pre settable Doppler Audio Volume e Measurement Clear Operation 2 types Meas only with Comment e Display Unit Age 5 types Year Month Week Day No display e System Boot Up 90 sec e Probe Change 5 sec Complete User Manual available on board through Help F1 User Manual and Service Manual are included on CD with each system A printed Manual is available upon request CINE Memory Image Memory e lt 1000 Frames 60 sec with Standard CINE Memory 256 MB depend on FOV Scanning Lines etc e CINE Gauge and CINE Image Number Display e CINE Review Frame by frame Loop e CINE Review Speed 20 steps 10 20 30 40 50 60 70 80 90 100 150 200 300 400 500 600 700 800 900 1000 e Selectable CINE Sequence for CINE Review e Start and End Frame Selections for Loop Playback e Measurements Calculations and Annotations on CINE Playback e Scrolling Timeline Memory LOGIQ P6 e Cine Capture Function Image Storage On board database of patient information from past exams Storage Format DICOM Raw Data DICOM Still Image Storage Size Gray Image 300K to 1 3 MB Color Image 900K to 1 9 MB e Multi frame Display Format Full size 4x4 and thumbnails Live image an
32. o ED PS ED PS Ratio HR Heart Rate TAMAX Time Averaged Maximum Velocity e PVAL Peak Velocity Value Volume Flow TAMEAN and Vessel Area OB Measurements Calculations Gestational Age by GS Gestational Sac CRL Crown Rump Length FL Femur Length BPD Biparietal Diameter AC Abdominal Circumference HC Head Circumference APTD x TTD Anterior Posterior Trunk Diameter by Transverse Trunk LOGIQ P6 Diameter LV Length of Vertebra FTA Fetal Trunk Cross sectional Area HL Humerus Length BD Binocular Distance FT Foot Length OFD Occipital Frontal Diameter TAD Transverse Abdominal Diameter TCD Transverse Cerebellum Diameter THD Thorax Transverse Diameter TIB Tibia Length ULNA Ulna Length Estimated Fetal Weight EFW by AC BPD AC BPD FL AC BPD FL HC AC FL AC FL HC AC HC Calculations and Ratios FL BPD FL AC FL HC HC AC CI Cephalic Index AFI Amniotic Fluid Index e Nuchal Translucency Measurement Nosalbone Measurement Measurements Calculations by Jeanty Merz Tokyo University Mercer Hansmann Erickson Hill Shephard Hadlock Hohler Campbell Fetal Graphical Trending e Growth Percentiles Multi Gestational Calculations 4 Fetal Qualitative Description Anatomical survey Fetal Environmental Description Biophysical profile Programmable OB Tables Over 20 selectable OB Calcs Expanded Worksh
33. r Mode Measurements e Aortic Valve Aortic Insufficiency Mean Pressure Gradient AR Trace Aortic Insufficiency Peak Pressure Gradient AR Vmax Aortic Insufficiency End Diastole Pressure Gradient AR Trace Aortic Insufficiency Mean Velocity AR Trace Aortic Insufficiency Mean Square Root Velocity AR Trace Aortic Insufficiency Velocity Time Integral AR Trace Aortic Valve Mean Velocity AV Trace LOGIQ P6 Aortic Valve Mean Square Root Velocity AV Trace Aortic Valve Velocity Time Integral AV Trace Aortic Valve Mean Pressure Gradient AV Trace Aortic Valve Peak Pressure Gradient AR Vmax Aortic Insufficiency Peak Velocity AR Vmax Aortic Insufficiency End Diastolic Velocity AR Trace Aortic Valve Peak Velocity AV Vmax Aortic Valve Peak Velocity at Point E AV Vmax Aorta Proximal Coarctation Coarc Pre Duct Aorta Distal Coarctation Coarc Post Duct Aortic Valve Insufficiency Pressure Half Time AR PHT Aortic Valve Flow Acceleration AV Trace Aortic Valve Pressure Half Time AV Trace Aortic Valve Acceleration Time AV Acc Ti me Aortic Valve Deceleration Time AV Trace Aortic Valve Ejection Time AVET Aortic Valve Acceleration to Ejection Time Ratio AV Acc Time AVET Aortic Valve Area according to PHT e Left Ventricle Left Ventricle Outflow Tract Peak Pressure Gradient VLOT Vmax Left Ventricle Outflow Tract Peak Velocity LVOT Vmax Left
34. rective 93 42 EEC on Medical Devices e Conforms to the following standards for safety EN 60601 1 Electrical medical equipment EN 60601 1 1 Electrical medical equipment EN 60601 1 2 Electromagnetic compatibility EN 60601 1 4 Programmable medical systems EN 60601 2 37 Particular requirements for the safety of ultrasonic medical diagnostic and monitoring equipment IEC 61157 Declaration of acoustic output ISO 10993 Biological evaluation of medical devices NEMA UD3 Acoustic output display MI TIS TIB TIC Not all features or specifications described in this document may be available in all probes and or modes General Electric Company reserves the right to make changes in specifications and features shown herein or discontinue the product at any time without notice or obligation Contact GE Representative for the Page 14 of 14
35. steps default pre settable CW Mode option is available on the following probes 35S 5S 7S P2D P6D Coded Harmonic Imaging e Available on the following probes 4C 5CS 8C E8CS E8C BE9C OL 11L 1739L 1739 38 5S 7S Page 5 of 14 4D3C L 4DE7C UG7C Softener 4 steps Line Density 4 steps Suppression 6 steps Edge Enhance 6 steps Gray Scale Map 23 types Gain 0 98 dB 2 dB step Dynamic Range 30 120 dB 3 dB step Rejection 6 steps e Auto Line Density On Off pre settable e Frequency Up to 4 steps depend on probe B Flow option e Available on the following probes OL LIL 1739L T739 e Background On Off e Sensitivity PRI 14 steps e Line Density 4 steps e Edge Enhance 6 steps e Frame Average 8 steps e Gray Scale Map 23 types e Dynamic Range 30 120 dB 3 dB step e Rejection 6 steps e Gain 0 98 dB 2 dB step e Auto Line Density On Off pre settable e Dual Beam On Off pre settable e B Flow Color 8 color maps e Accumulation 6 steps Coded Excitation e Available on the following probes BC E8C E8CS BE9CS 11L ERB Coded Contrast Imaging option e Available on 4C 5CS probes e Contrast Clock Display e Time Trigger Scan 0 3 0 5 10 sec 0 5sec step e Coded Harmonic Angio Tissue Background Selection 4step e TrueAgentDetection 2 frequencies on 4C e Coded Phase Inversion
36. umetric Contraction Time IVCT Pulmonary Vein S D Ratio P Vein D P Vein S Ventricular Septal Defect Peak Pressure Gradient VSD Vmax Pulmonic to Systemic Flow Ratio Qp Qs e Tricuspid Valve Tricuspid Regurgitant Peak Pressure Gradient TR Vmax Tricuspid Valve Peak Pressure Gradient TV Vmax Tricuspid Regurgitant Peak Velocity TR Vmax Tricuspid Valve Peak Velocity TV Vmax Tricuspid Valve Velocity Peak A TV A Velocity Tricuspid Valve Velocity Peak E TV E Velocity Tricuspid Regurgitant Mean Pressure Gradient TR Trace Tricuspid Valve Mean Pressure Gradient TV Trace Tricuspid Regurgitant Mean Velocity TR Trace Tricuspid Regurgitant Mean Square Root Velocity TR Trace Tricuspid Regurgitant Velocity Time Integral TR Trace Tricuspid Valve Mean Velocity TV Trace Tricuspid Valve Mean Square Root Velocity TV Trace Tricuspid Valve Velocity Time Integral TV Trace Tricuspid Valve Time to Peak TV Acc Dec Time Tricuspid Valve Ejection Time TV Acc Dec Time Tricuspid Valve A Wave Duration TV A Dur QRS complex to end of envelope Q to TV close Tricuspid Valve Pressure Half Time TV PHT Stroke Volume by Tricuspid Flow TV Planimetry TV Trace Tricuspid Valve E Peak to A Peak Ratio TV E A Velocity Color Flow Mode Measurements e Aortic Valve Proximal Isovelocity Surface Area Regurgitant Orifice Area

8 - NEW AND Refurbished Ultrasound Equipment

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