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STRIDE™ Unicondylar Knee System

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1. BLUE BELT TECHNOLOGIES Navio Surgical Technique for use with the STRIDE Unicondylar Knee System Blue Belt Technologies Inc Blue Belt Technologies Navio Surgical Technique for use with the STRIDE Unicondylar Knee System Blue Belt Technologies Inc 500060 Rev E Issue Date 2015 07 21 C 2014 Blue Belt Technologies Inc Blue Belt Technologies uses or has applied for the following trademarks or service marks Navio NavioPFS PFS Handheld Intelligence and the b logo All other trademarks are trademarks of their respective owners or holders Blue Belt Technologies does not dispense medical advice and recommends that surgeons be trained in the use of any particular product before using it in surgery Please contact your local Blue Belt Technologies representative if you have any questions about availability of Blue Belt Technologies products in your area Patents 6 757 582 5 880 976 6 205 411 6 711 431 8 961 563 B2 TABLE OF CONTENTS 10 12 17 26 33 34 35 36 37 Introduction Navio Overview System and Patient Setup Bone Tracking Hardware Registration Implant Planning Bone Cutting Trial Reduction Cement Final Components and Close Recovery Procedure Guidelines Notes Manufacturer Contact Information NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC 10 This procedure guide provides an overview of the
2. in the positions shown in Figure 12a These are referenced using the point probe at set times throughout the procedure to determine if either of the bone tracking arrays has moved NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Malleoli Point Collection 4 amp Checkpoint Definition Collect Point gt 4 Figure 13 Collect the medial and lateral Malleoli Points to calculate the ankle center Hip Center Calculation SO 2 WBE o 6 5 Femur Landmarks Collection E gt aE G Checkpoint Definition Figure 14 Rotated hip to collect hip center Navio s CT free registration process utilizes standard image free principles in constructing a virtual represen tation of a patient s anatomy and kinematics The user moves through the software s workflow via the included Navio system foot pedal or the touchscreen controls Any collected point may be re collected in sequence by moving backwards through the workflow stages For more detailed information at any stage press the i icon found in the upper right corner of the computer screen near the tracker array visibility indicator Ankle Center Using the point probe input the locations of the medial and lateral malleoli points by identifying their most prominent surfaces Figure 13 Ensure that the point probe tracking spheres are visible throughout the point collection If the probe t
3. taking care not to place the clamp touching the skin e Clamp the tibia array into the bone clamp along the length of the bar on the array with the smaller side of the arrays closest to the operative site Figure 9 Orient the spheres towards the camera and slide the array away from the incision site Femur Tracker Array Placement e Percutaneously place the first bone screw approximately 5 6 cm superior to the patella in the center of the femoral metaphysis Figure 10 These should be inserted with the knee hyperflexed to try to avoid putting the femoral screws through the joint capsule NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Checkpoint Verification Camera Orientation Adjustment A Attach Trackers Verify Point Probe T WG Figure 11 Array visibility in deep flexion Camera O ientation Ai justment C NEAR D Attach Trackers Verify Point Probe Figure 12 Array visibility in full extension Checkpoint Definition Figure 12a Checkpoint pins are placed on both the Femur and Tibia as a reference between that point and the arrays Drill the bone screw into the femur taking care to engage the opposing cortex and stop Utilize the soft tissue protector to mark the position of the second bone screw and drill the screw through the soft tissue protector to ensure the screws are placed parallel with each othe
4. BLUE BELT TECHNOLOGIES INC BONE CUTTING Bone Removal FEMUR STRIDE 2 Refine 7 Cut A FEMUR A FEMUR Figure 55 Finish post with Navio on Speed Control mode utilize the cross hair view and the tools eye view in the lower left Finish Cuts If there remains any cutting to finish on the femur or tibia simply press the Cut Femur or Cut Tibia buttons to finalize the cuts The system will prompt the user to check the safety checkpoints after 20 minutes of continual cutting and upon a switch in bone focus This ensures roughly one re verification of the checkpoints during cutting to ensure tracker arrays have not shifted Once the final surfaces have been prepared the user should put the system into Speed Control mode using the icon in the upper right corner of the virtualization screen and swap out the Exposure Control guard for a Speed Control guard If freehand manual tools saws rasps are used for bone preparation at any time make sure to switch to Refine Femur Tibia mode and update the affected bone model Post holes will be prepared using the same 6 mm bur with the Navio system in Speed Control mode 1 If a divot was created over the holes in exposure control usethatdivotto localize the burappropriately and push down until the system stops the bur at the bottom of the hole 2 The crosshair view can be utilized to set the appropriate trajectory of the handpiece where the green small crosshair re
5. Navio surgery implant partner In the following Recovery Action items any reference to the STRIDE Manual Technique guide is referencing the document STRIDE Surgical Technique Manual Instrumentation and Product Specification guide Point of Navio Failure Recovery Action PLANNING The knee is unaffected by the procedure Remove the tracker arrays the bone screws and the checkpoint pins and proceed with conventional instrumentation Use conventional procedure as described in the STRIDE Manual Technique guide The knee is unaffected by the procedure Remove the tracker arrays the bone screws and the 2 Planning checkpoint pins and proceed with conventional instrumentation Use conventional procedure as described in the STRIDE Manual Technique guide The knee is unaffected by the procedure Remove the tracker arrays the bone screws and the checkpoint pins and proceed with conventional instrumentation Use conventional procedure as described in the STRIDE Manual Technique guide 1 Bone landmark surface and kinematic data collection 3 Refining BONE REMOVAL Remove the tracker arrays and the bone screws and proceed with conventional instrumentation starting with the tibial cut Once the initial tibial cut is prepared check that the distal cut is finished if not then finalize preparation into a complete flat distal cut then check extension gap Continue with the manual technique as described in the STRIDE Man
6. Verification button used to activate a confirmation of the safety checkpoints on femur and tibia B Change Bur button used when the user switches bur size to tell the system about the change C Back to Planning button used to return to the Implant Planning screens to make adjustments to the implant plan Am gg D Crosshair view activate when preparing fixation features Refine 7 Cut o like post holes Femur e FEMUR E Virtual Trial Implant button use this icon to activate a K virtual trial that will be shown on the main viewscreen useful Figure 48 Buttons and virtual navigation views to confirm progress to cut plan and check for overhang of implant on bone F Screenshot button press this icon at any time to capture a screenshot of whatever is on the Navio monitor The screenshot will be saved for access when archiving the patient G Tracker Array Status this icon will show if a tracker array is visible green or not in view black useful to check if the system isn t cutting it will prevent bone cutting when an array important to the action is not in view User may also press this icon to bring up a Field of View screen to check tracker visibility within the camera s field of view similar to beginning of System Setup H Tools Eye View this view will show the user what the tool sees similar to a scope view and continuously active I Isometric Cut Model the user may interract wit
7. and medial portion of the bone Note any over modeled bone that extends around the tibia to the posterior 30 6 In the posterior part of the femur it is generally not possible to bring the handpiece cutting perpendicular to the bone surface therefore a dragging technique is suggested for efficient bone removal In the dragging technique the user pushes the tool into the joint space against the femur and levers it against the bone as they pull the handpiece out Figure 51 For varus knees medial OA posterior femoral access may be optimized by applying a valgus stress as well as deep flexion For valgus knees lateral OA varus stress can help gain access posteriorly 7 When working on the Femur the tibia tracker array can be covered to protect it from wet splatter from the irrigation or particles This will help extend the life of the tracking spheres and limit exposure to view obstructing matter Refine Tibia Prior to engaging the bone with the bur spinning in order to remove bone the user is encouraged to enter into the Refine Tibia stage of cutting When in Exposure Control mode as most users start out with run the barrel of the exposure guard over the patient s bone with the tibia tracker array visible to the camera The visualization on the cutting screen will show over modeled bone being erased by the handpiece guard Figure 52 The user should make sure to refine down the side of the
8. experience a characteristic mid flexion tightness Gap Planning Gap Planning Q Figure 43 Adjusting the tibial depth resection will increase or decrease the gap from extension to flexion left before movement right after moving tibial component inferior 23 It is important for the user to balance the graph with the orange Stressed ROM collection not the blue Unstressed ROM collection Additionally the user can activate a virtualization of the femur and tibia components articulating against each other in the above viewscreens by running a finger across the flexion gap graph below Figure 41 Gap Balancing The goal of this stage is to balance the soft tissue gaps throughout flexion aiming for a relatively flat line and 1 2 mm of gap 1 Manipulate the position and orientation of the implant components such that the resulting Gap Graph is generally flat and 1 2 mm above the zero line 1 2 mm resulting laxity in joint This indicates an even gap throughout flexion Figure 40 2 Confirm that implant resection is appropriate rotating the femoral component to view the backside Any green dots visible on the underside of the implant indicates a shallow resection MANIPULATION Move tibial component inferior Move tibial component superior Move the femoral component posterior SCENARIO Balance is tight throughout flexion Balance is loose throughout flexion Balance is tight in extension and loose i
9. graph icon looks like an open joint representing a stressed ligament will switch the focus of the gap graph from the orange line to the blue line This blue line represents the unstressed ROM collected at the beginning stages of the Registration section the icon will adjust accordingly to blue and show as a joint without a stressed ligament By displaying both of these lines on top of each other on the gap graph the user can visually identify how much laxity was mapped into the joint through the stressed ROM collection If the orange line meets the blue line this indicates the user was unable to apply ligament stress to the knee at this section of flexion The user can plan with this information accordingly 22 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Gap Planning B8 aN Add Femur Points Pre 3 Varus Post 2 Varus a n r O a eres Reset Position Figure 41 Running a finger over the graph will visualize an theoretical articulation of the femur and tibia components throughout the flexion range Femoral Reference a poh SYS ee re Se ee Kinematic axis es La Pr 9 FLEXION degrees Prosthesis Placement Adjust ML Position 1 Pre 3 Varus Post 2 Varus amp Figure 42 The final gap graph should reflect an appropriate level of laxity in the joint throughout flexion The user may
10. is rotated over the patient aimed diagonally toward the surgeon s line of sight Figure 5a Right knee OR Setup above Additional Notes the sterile reflective soheres become soiled and the marker visibility is compromised markers not visible in the Camera Orientation Adjustment screen or there is flickering of the marker visibility indicator replace the spheres on the affected tracker Use clean sterile gloves to handle the spheres Support the tracker frame behind the marker attachment point Avoid transferring force to the entire tracker frame After calibration homing is completed separate the handpiece from the calibration probe Hold the point probe close to the back for easier separation Figure 5b Figure 5b Hand position to separate the handpiece from the calibration probe 7 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC SYSTEM AND PATIENT SETUP Figure 6 Monitor Drape Application Figure 7 Initial Leg Setup 8 Preparing the System and Tool The surgical team will set up Navio to utilize the provided irrigation system refer to the Preparing the Surgical Drill Irrigation System procedure in the Navio User s Manual which will provide continuous irrigation throughout bone removal Be sure to keep the irrigation clip clear during attachment of the point probe The surgical team will assemble the N
11. is zero degrees relative to the mechanical axis of the femur and can be adjusted to accommodate surgeon preference From the initial placement the user has the ability to adjust the size and placement of the component When localizing the component on the digitized surface the following are key metrics to check and confirm before moving on to size the tibial component 1 In the sagittal view confirm that the size provides near full coverage from the Tidemark point to the posterior point 2 Position the component flush with the posterior cartilage which is generally well preserved in medial arthritis although often completely worn in lateral UKR NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Figure 32 Confirm proper ML positioning bottom left transverse viewscreen Figure 33 Localize component on the condyle to avoid medial overhang bottom left transverse viewscreen Prosthesis Placement i R STRIDE FEMUR Size 7 eS Collect Tibia Free Points Review Tibia Figure 34 Slide finger vertically across desired view to navigate through cross sectional views The sticky view will display the location of the current slice while the user navigates through slices Adjust component flexion utilize the rotation arrows in the viewscreen to achieve desired anterior transition within the bone morphed condylar surface Figure 31 The STRIDE c
12. keep it captive tray and confirm through feel that the joint has proper laxity If the joint is too loose remove the insert and attempt a thicker component If the joint is too tight size the insert down to a thinner component or resect more bone depth or change the tibial slope and re cut An assessment of laxity can also be made with the laxity graph Click Finish in the cut screen to evaluate trial implants throughout range of motion ROM Figure 59 Holding down the collect button or foot pedal move the patient s leg through range of motion to collect and display the varus valgus balance of the knee Confirm the final long leg alignment in this screen It is important to assess limb alignment in full extension to confirm appropriate correction Figure 57 Confirm proper tibial sizing referencing the posterior tibial condyle Dynamic Test The Trial Tibial Component must remain perfectly stable during ROM assessment Figure 59 Hold the leg in extension ensuring that the femur and tibia tracker arrays are visible to the camera and confirm that the long leg mechanical alignment is as expected by reading out the Varus Valgus reading in Blue on the left hand of the Evaluate Knee ROM screen There should be no tilt effects in flexion otherwise the tibial slope must be readjusted Figure 58 Impact the tibial trial using the trial impactor Use this There should be no antero posterior translation as
13. of the tracker arrays shifted during registration or planning B Press the Green Dots button to show and hide the cloud of discreet green points It is generally helpful to hide the green points in order to view the meshed virtual surface unobstructed C Implant size changing arrows will size up right or size down left and display between the arrows which size is selected This size will map to the manufacturer s provided labeling on the component boxes D Tibia thickness changing arrows will increase the tibia component thickness right or decrease the thickness left displaying between the arrows which thickness is selected E Press the solid surface button to display the solid implant model and free collection map in three dimensions F Press the cross section button to display cross sections of the implant model and free collection map in two dimensions G Add Femur or Tibia Points is a useful tool to select to bring the user directly backwards through the workflow to the femur or tibia free point collection stage where additional points may be mapped NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC IMPLANT PLANNING Step 2 Soft tissue Balancing Gap Planni Step 2 of the Implant Planning section provides the user ne nT ade the ability to dial in soft tissue laxity gap throughout mee nem knee range of motion The soft tissue gap pl
14. to Implant Planning Tibia Placement The Navio software will provide a starting size and initial placement of the tibial component Figure 35 utilizing the medial landmark and intercondylar eminence ridge collection to size the component M L and place the anterior portion of the component on the Tidemark collection point The default coronal position of the tibia is set in zero degrees relative to the tibial mechanical axis and posterior slope in 5 degrees From the initial placement the user has the ability to adjust the size and placement of the component When localizing the component on the digitized surface the following are key metrics to check and confirm before moving on to size the tibial component 1 Confirm the size using the transverse viewscreen bottom left and the tibia size up down button arrows in the right hand control panel underneath the Tibia button Adjust as necessary paying close attention to medial and anterior overhang illustrated in Figure 36 This is why it is suggested to collect down the anterior and medial face of the tibial bone to understand how the implant will sit with a depth of bone being resected 2 Confirm the posterior slope utilizing the sagittal view upper right Navio software will display the posterior slope within this viewscreen which reflects the slope of the tibial implant component with respect to the sagittal axis defined during registration Figure 37 The default an
15. DYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC NAVIO OVERVIEW Positioning of the System Position the Navio computer cart so that the surgeon can clearly see and easily operate the graphical user interface at all times The computer cart should be positioned on the opposite side of the leg to be operated Figure 5a The camera cart should be placed on the opposite side of the leg to be operated approximately 1 5 m from the surgical site and 1 8 m 2 1 m high Position the operative knee into 90 flexion Use the laser pointer integrated into the faceplate of the camera Left knee OR Setup above head to direct the infra red beam at the knee joint to be operated The camera cart positioning may be adjusted at any point during the operation to meet the needs of the surgeon except during determination of the hip center Guidance for camera positioning is provided in the Adjust Camera Orientation stage of the Navio UKR application Once the system is positioned and the patient has been properly draped and prepped the sterile drape should be applied to the monitor by the scrub nurse assisted by the circulating nurse following the included Monitor Drape Intructions for Use An additional drape may be Figure 5a Typical operating room setup for left and right used to cover the computer cart below the monitor knee operations drape Once properly sterile draped the computer cart is backed up to the table and the monitor
16. Landmark Points Figure 27 Medial tibial landmark point collection 15 Tibial Condyle There are six tibial landmark points to collect These points will be used as a visual reference during Implant Planning Section 4 It is important to take care to understand where these points are taken on the patient s bony anatomy so that they may be referenced properly during planning Using the point probe collect the following Figure 23 28 Knee Center Mark the tibial knee center at the origin of the anterior cruciate ligament Low Point Take the singular low point of cartilage wear on the tibial plateau This point will be used to calculate the resection depth during the Implant Planning stage Most Posterior Point This is the most challenging point to reliably capture Attempt to access the posterior of the tibial condyle by flexing the leg externally rotating the tibia and manually distracting the joint Alternatively pushing the point probe down the tibial spine and feeling for tactile feedback of the posterior end of the condyle has been effective in some cases Most Anterior Point Mark the most anterior point on the tibial condyle that can be referenced to represent the anterior position of the tibial implant component during Implant Planning Most Medial Lateral Point Mark the most medial or lateral point on the tibial condyle that can be referenced to size the ML aspect of the component during Im
17. anning is 4 predicated on the stressed range of motion input from Registration Section 3 During the Stressed ROM stage the user applied valgus stress for a medial knee to the operative side collateral ligament in order to map how much space the compartment has based on ligament laxity The Gap Planning screen Figure 40 has four interactive a viewscreens similar to the screens used in Step 1 of aoe B Implant Planning with respect to the patient s virtualized joint Beneath those viewscreens is a graph of flexion from 0 through 120 degrees of flexion The x axis Figure 40 Navio Gap Planning software step during Implant represents the flexion degree and the y axis represents Planning helps the user balance soft tissue throughout flexion in millimeters the relative gap in the side laxity or overlap in the side tightness Adjust ML Position The orange graph line represents discrete points of flexion input from the Stressed ROM screen If an orange point is above the zero line this represents Gap or laxity in the joint If an orange point is below the zero line this represents Overlap or tightness of the theoretical joint The user wants to avoid overlap which may overstuff the joint and load the contralateral compartment Additionally an ideal line throughout flexion is relatively flat and with 1 to 2 mm of laxity In Figure 41 pressing the ligament icon to the left of the gap balancing
18. anterior transition to minimize risk of patella impingement using the sagittal view The Implant Planning stage presents to the user a virtual reconstruction of the patient s femoral and tibial anatomy visualizes soft tissue ligament tension to aid in joint balance and predicts component on component contact points for load transfer and wear patterns The screen shows four primary viewscreens used to manipulate the implant component Figure 30 Counter clockwise from top right are standard Sagittal Coronal and Transverse views The user can manipulate these views in 3D space and they will always snap back to their original orientation The bottom right view is a sticky view that will hold it s orientation when manipulated by the user The goal of the Implant Planning section is to allow the user to localize the components balance the knee and have an estimate regarding the final limb alignment The user should be able to visualize the post op x ray before any cuts are made There are three stages in the Implant Planning section 1 Femur and tibia sizing 2 Gap balancing and 3 Contact points Step 1 Sizing Your Components Femur Placement The Navio software will provide a starting size and initial placement of the femoral component Figure 30 utilizing the Tidemark and posterior landmark points that were collected during the Registration section Section 3 The default coronal alignment of the femoral component
19. any other patients contraindicated for unicondylar knee replacement surgery or patellofemoral arthroplasty Warning Please reference the implant manufacturer s instructions for use and recommendations for the compatibility of implant system combinations NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC INTRODUCTION STRIDE Unicondylar Knee System Design Rationale The STRIDE Unicondylar Knee system is a unicompart mental prosthetic device that resurfaces one femoral condyle and one side of the tibial plateau The femo ral component is made of cobalt chrome and the tibial component is made of titanium with a UHMWPE insert that snaps into place The device is non constrained the articulating surface of the UHMWPE insert is flat and joint stability is maintained by ligaments and other soft tissues surrounding the knee Both the tibial and femoral components of the STRIDE knee system are designed to be used together Substitution of either component with that from another manufacturer is not indicated All implantable devices are provided sterile and are intended for single use only Figure 1 STRIDE Unicondylar Knee System cobalt chrome femoral component titanium tibial plate UHMWPE tibial bearing component Surgical Planning Rationale The goal of the UKR procedure is to correct mechanical alignment while avoiding additional stress in the contralateral compartmen
20. avio handpiece according to the operating surgeon s preference The configuration found to be most conducive to bone removal consists of the following refer to the Assemble Handpiece procedure in the Navio User s Manual 6mm Spherical Bur 6mm Exposure Control Guard Speed Control Guard The surgical team will cover the Navio system touch screen monitor with a sterile drape This will allow the surgeon to manipulate the touchscreen with gloved sterile finger control to augment foot pedal control of the software The final draped monitor may look like Figure 6 refer to the drape s included IFU for instructions on how to apply to monitor Patient Setup Avoid wrapping the ankle with bulky drapes coverings Using bulky material in this area may make it difficult to locate the malleolar points during patient registration e Using a leg positioner e g IMP s De Mayo leg positioner ensure that the knee can be hyperflexed See Figure 7 for initial leg setup available remove the pad on the operative leg side to allow the positioner to sit below hip level to provide natural kinematics during positioning and flexion NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC SYSTEM AND PATIENT SETUP Exposure e The Navio system technique is compatible with typical MIS approaches e Upon making the incision carefully inspect the joint to confirm
21. chnique guide Follow the instruction in the Trial Reduction section of the STRIDE Manual Technique guide If 10 Refinement adjustments are necessary use the tibial cutting guide to recut the tibia and increase joint space or increase the thickness of the tibial component to reduce joint space NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Notes 36 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC CONTACT INFORMATION Manufacturer Blue Belt Technologies Inc 2905 Northwest Blvd Suite 40 Plymouth MN 55441 USA Tel 1 763 452 4910 Fax 1 763 452 4980 www BlueBeltTech com customersupport BlueBeltTech com EC REP European Community Representative Emergo Europe Regulatory Affairs Only Molenstraat 15 2513 BH The Hague The Netherlands CE 0473 Blue Belt Technologies Inc Navio Surgical Technique for use with the STRIDE Blue Belt Technologies Inc 37 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC
22. curves posterior The software will utilize the Tidemark and posterior points to suggest a starting implant component size Femoral Condyle Surface Mapping The Femur Free Collection stage Figure 22 offers a visualization of the femoral mechanical and rotational axis previously collected blue lines as well as the four discreet femur landmark points collected above yellow dots On top of this visualization the user will digitize the femoral condyle by painting the point probe over its surface While holding the foot pedal move the point probe across the entire condyle The user must input into the system enough information to map out the condylar surface and appropriately localize the implant during planning Hyper flex the leg to map the posterior portion Figure 22 Navio software presents a surface mesh of the Manipulate the touchscreen to view the surface map operative condyle to fit the collected points Manipulate input in 3D the visualization to view in 3 dimensions 14 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC REGISTRATION Tibial Landmark Point Collection Figure 23 Tibia knee center point collection Figure 24 Tibial low point collection Select Tibia Landmark Points Figure 25 Posterior tibial landmark point collection Select Tibia Landmark Points Figure 26 Anterior tibial landmark point collection Select Tibia
23. ed bone removal to achieve predictable component position and limb alignment Figure 3 Navio system computer cart nested with camera cart left Navio handpiece right Navio UKR surgery can be broken up into the following ue 0 Stages This technique guide is separated into the same stages for clarity Checkpoint Pin and Bone Screw Sterilization Case Handpiece Tracker Handpiece Femur Tracker 1 System and Patient Setup 2 Bone Tracking Hardware 3 Registration 4 Implant Planning Gap Balancing 5 Bone Cutting 6 Trial Reduction 7 Cementing Final Components and Closing Formon Rasp Tibia Tracker Navio Instrument Set Point Probe Metal Guards Tissue Protector Long Attachment Tracker Clamps 2 The Navio Instrument set is pictured to the right in Figure 4 It consists of a two level tray that contains all of the required instrumentation for a Navio assisted surgery including a robotic controlled Navio handpiece Anspach power drill interchangeable guards tracker arrays bone tracker hardware and clamps a Z retractor and a rasp that has a flat and rounded rasping surface any of the equipment breaks or fails during a Navio Surgery a backup tray is on site sterile and can be unwrapped to replace a broken or dropped tool T Wrench Z Knee Retractor Anspach Surgical Drill Bone Screw Driver Figure 4 Navio Instrument set 6 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICON
24. es should be kept in slight varus valgus knees in slight valgus Avoid correcting beyond neutral NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Femoral Landmark Point Selection Femoral Condyle There are four femoral landmark points to collect These points are to be used as visual references during Implant Planning Section 4 It is important to take care to understand where these points are taken on the patient s bony anatomy so that they may be referenced properly during planning Using the point probe collect the following Figures 18 21 Tidemark Point The expected anterior termination of the femoral implant component is defined as the Tidemark point This point can be identified with the leg in full extension referencing where the anterior tibia meets the femoral condyle Knee Center Mark the center of the knee which will be referenced as part of the HKA hip knee ankle weight bearing axis This point is typically found in the trochlear groove anterior to the posterior cruciate ligament attachment Most Distal Point Place the probe on the most distal part of the femoral condyle centered medio laterally During implant planning the software will use the distal point to center the initial implant placement Most Posterior Point Hyper flex the leg to access the most posterior point on the femoral condyle marking the inflection point as the condyle
25. gle of the posterior slope is 5 degrees and can be adjusted based on the gap balance graph described in Step 2 of the Implant Planning section 3 The rotation of the tibial component is set in parallel with the collected intercondylar eminence ridge This rotation can be further adjusted using the arrows active in that viewscreen transverse when selected NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC IMPLANT PLANNING Prosthesis Placement S STRIDE TIBIA W Add Tibia Points Reset Position Review Femur Plan Prosthesis Gap Figure 38 Slide finger vertically across desired view to navigate through cross sectional views The sticky view will display the location of the current slice while the user navigates through slices 4 The tibial bearing component will default to the thinnest 8 mm tibial implant 6mm poly 2mm baseplate though this thickness can be adjusted by changing the poly insert selected using the arrow buttons in the right console under the heading Thickness The proximal surface of the poly insert will default to the previously defined Low Point landmark collected during registration Therefore the resection depth displayed in the coronal viewscreen in the upper left corner will default to 8 mm Using the arrows active in that screen the user may move the component superior decreasing resection depth 5 The u
26. h this view using their finger or another object as an input device for rotation J Control Mode indicator this active icon will show the user which control mode Navio is in Exposure or Speed and will indicate what the control mode is currently doing to assist with cutting Pressing the icon will allow for change of control modes K Cutting mode Refine Femur Tibia Cut Femur Tibia and Finish shows which bone the user is currently working with 27 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Bone Model Refinement FEMUR i H Bone Model Refinement FEMUR p Figure 49 Refine the bone model removing over modeled bone left prior to refining right after refining away over modeled bone 28 Bone Preparation Warning The Navio system does not prohibit cutting of soft tissue which may be in the surgical area Always use retractors to protect ligaments and other capsular structures Use steady movement to minimize potential for ligament damage Warning Navio control modes do not establish no cut zones beyond the protected bone zones Therefore posterior to the cut plan and medial lateral to the cut plan burring should be done with care Refine Femur Prior to engaging the bone with the bur spinning in order to remove bone the user is encouraged to enter into the Refine Femur stage of cutting When in Expos
27. ing at a deliberate pace Trace around the outer edge of the implant cut plan Make left right or up down passes to remove the remaining middle bone 3 Avoid quick passes or feathering the tool over the surface methodical motion will remove bone with the greatest efficiency 4 The anterior femur is cut with the knee in less flexion so anterior soft tissues are more easily retracted Move from the anterior down to the distal part of the condyle Continue to cut down to the posterior until you cannot access any more femur area Increase flexion to maximize access as you move down the condyle 5 Leave the post holes the circular color spots for finishing after preparing the complete surfaces The user may want to start the post holes in Exposure Control mode by allowing the bur to dip into the holes when hovering over them Using this method the user can find the holes later in the cutting process when the handpiece is on Speed Control mode Localize over the divots and plunge in to complete the depth of cut NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Figure 51 Illustration of the dragging technique that can be utilized to efficiently remove posterior bone with the Navio handpiece Bone Model Refinement TIBIA STRIDE 3 B8 Refine Cut P Refine ra FEMUR A FEMUR Figure 52 Refine Tibia ensure to refine around the anterior
28. ition will be utilized when calculating the patient s pre operative varus valgus deformity Press and hold the right foot pedal to collect the position Figure 15 When the bar on the bottom reads as fully green 100 release the foot pedal to allow the software to automatically proceed to the next workflow step The next step will record normal flexion motion and calculate the femoral kinematic rotational axis Press and hold the right foot pedal Slowly move the leg through a normal unstressed range of motion to maximum flexion Figure 16 Flex and extend the leg until all of the green bars read fully green 100 Ligament Tension Technique Apply constant stress to the soft tissues and colateral ligament on the coronal side e g valgus stress to the MCL when performing a medial UKR procedure and collect the data throughout flexion Input can either be continuous Figure 17 top which requires constant application of stress throughout flexion or in discrete poses Figure 17 bottom which some users find easier to stabilize a flexion position and record the ligament stress Purpose This data is collected for use during the Implant Planning and Gap Planning stages Section 4 The user wants to identify how much room the ligaments have This will inform how much gap laxity will be built into the joint balance Do not over tension ligaments and force alignment into the unresurfaced compartment of the knee Varus kne
29. ment interface to adjust general sizing and placement Again optimi zation of femoral tracking on the tibial component may be best achieved by lateralizing the femoral component on the condyle without overhanging Component M L Position Adjustment AN STRIDE Pre 11 Varus Post 12 Varus GAP Recollect Stresse d ROM OVERLAP FLEXION degrees Reset Position Plan Prosthesis Gap Checkpoint Verification 0 Figure 45 Confirm implant tracking is appropriate and that there is no obvious edge loading on the femoral component 24 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Figure 46 Irrigation is setup on the side of the Navio system cart to flow when the cutting foot pedal is depressed 25 Bone Preparation During bone preparation the user will execute the surgical plan as generated from the Implant Planning section At any time during the cutting process if the user wishes to make adjustments to the plan they may select the Back to Planning button and make those adjustments Then they may move forward again into the planning stage to continue bone preparation The Blue Belt representative present can help guide the user through this process Setup The following are tips and tricks to help ensure an easy experience using the Navio system for preparing the bone e The handpiece and drill cables should rest o
30. n flexion OR reduce femoral component flexion Move femoral component anterior OR increase femoral component flexion OR increase posterior slope of tibial com ponent ideally no more than 7 degrees and move tibial component inferior Balance is tight in mid flexion and Move femoral component anterior loose in extension and deep flexion and superior Balance is tight in flexion and loose in extension NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC IMPLANT PLANNING Step 3 Confirm Contact Points ML Position 1 Use the position controls in conjunction with the on pe aes planes of reference to adjust the mediolateral i position Contact points should indicate that implants are centrally loaded and no significant edge loading occurs during knee flexion Figure 45 2 Make certain that adjusting the mediolateral position does not compromise the contact between the implant and the respective bone Figure 44 Adjusting the femoral component in the A P direction will 3 Itis important to ensure that fine tuned adjustments adjust flexion gap left before movement right after moving femoral of the Gap Graph does not move the implant out component posterior of position with regard to the free point collection cloud defined in the previous step If necessary use the Back workflow navigation button to navigate back to Step 1 of the implant place
31. n the OR table within the sterile field Take care not to drop them below the table Resting them on the table running below the trackers and up to the handpiece by the patient s foot will help keep the cables from waving in front of the bone tracker arrays During cutting if the camera looses sight of either of the bone tracker arrays check that the cables have not obscured any of the tracking spheres The irrigation needs to prime for approximately 20 seconds prior to active irrigation out of the cutting tool Figure 46 To prime the fluid put the system into Cut Femur Tibia and depress the black Anspach drill foot pedal This will run the peristaltic on the side of the Navio system which runs the fluid through the pump e Remove any remaining osteophytes that may be visible Remove the anterior horn of the meniscus e A self retractor like the Gelpie retractor has proven useful at keeping the incision open and bone exposed during cutting allowing the user s assistant to focus on other retractions or tasks NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING The user should ensure that the scrub tech has properly assembled the Navio handpiece tool and tug on the Anspach drill cylinder inserted into the back of the tool If it comes loose hand the tool back to the scrub tech to properly attach the two for use Figure 47 demonstrates the suggested
32. omponent is designed to be implanted at 25 degrees of flexion angle of pegs to the mechanical axis Anteriorly the component edge should sit just deep to the adjacent cartilage If the surface map is behind the implant on the non articulating cement side as opposed to the articulating side this is indicative of a shallow bone resection or little to no bone cartilage resection and the user should consider burying the component deeper Activating by touching the viewscreen the transverse view in the lower left the user can utilize this point of view to ensure that the component is localized properly on the mapped condyle Figure 32 The Navio software will provide the starting position for the implant component centered on the distal landmark point that was collected on the femur during the Registration section Section 3 For condyles that are wider than the implant the prosthesis should be biased laterally or medially to optimize tracking on the tibial component The user should confirm that the component is not overhanging anteriorly or medio laterally which will be evident if the dark grey of the virtual implant is breaking through the bone morphed surface Figure 33 The default rotation of the component is set at zero degrees If required the user can apply external rotation to the component using the rotation arrows active in the viewscreen The Navio software will indicate how much rotation the user is ap
33. ongue depressor can both confirm that there is adequate laxity and gap balance in the resurfaced compartment and pressurize the cement While the cement is hardening avoid fully extending or flexing the knee It is best to keep the knee flexed approximately 15 30 degrees to ensure concentric loading of the components and avoid either anterior or posterior lift off e When placing the final tibial bearing component surface into the tibial baseplate Use the included tibial impactor to place the bearing into its final resting position The interaction between the snap lock features of the bearing component and the tibial baseplate tray should result in a solidly fixed assembly Remove Checkpoints Warning Prior to closing the patient s incision be sure to remove both the femoral and tibial bone checkpoint pins 34 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC RECOVERY PROCEDURE GUIDELINES The following guidelines are meant to provide a framework for recovering to a manual technique procedure in the case of a Navio system failure at any point during the surgical case A failure can consist of but is not limited to a system software crash cart hardware failure handpiece failure with no backup available tracker array failure or loss of contact with bone that is unrecoverable etc The user should consult and be familiar with the manual technique for any
34. pare the MCL LCL from damage from recommended that the user clean up the color down to the bur the white target surface as cutting moves posterior Start at the anterior edge of the tibia and bur with the handpiece held vertically to maximize exposure of the bur Cut through the color indicated on the model down to the white as the cutting moves posterior Figure 54 Continuous visual inspection is paramount to ensure accurate preparation according to plan 1 Ensure that you clean up all of the green color cut area up the side of the tibial eminence Figure 54 2 Externally rotate the knee to aid in accessing a tight posterior tibial resection Utilize a similar Dragging technique as is suggested for the posterior femur to TT clean up remaining pieces of color on the floor of the tibia start posterior and drag anterior For medial UKR applied valgus stress can aid in accessing the posterior tibia for preparation for lateral UKR a varus stress can give additional access to the posterior lateral tibia Bone Removal TIBIA 3 If the access becomes limited switch to Speed Control mode Use the icon in the top right of the graphic user interface to switch control mode and finish the tibial cut Refine A FEMUR A FEMUR Figure 54 Start anterior and move posterior ensuring the color is removed to white as cutting moves posterior 31 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM
35. plant Planning Ensure that the point is referenced on the bony side of the collateral ligament NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Tibial Landmark Point Collection Knee Center Low Point Most Posterior Point Most Anterior Point Most Medial Point Undo Point Collection q Collect Axis Figure 28 Utilize the axis of the point probe to set both the rotation of the tibial component and the sagittal wall 5 Tibia Free Collection amp Remove Point Collect HOLD Figure 29 Digitize the tibial condyle for utilization during Implant Planning the user can always return to this stage to define more points if needed Intercondylar Eminence Ridge While all of the other collections listed above are singular points referencing the tip of the point probe this collection will reference the axis of the point probe Lay the probe approximately half way up the tibial spine to represent the sagittal cut Figure 28 The probe s rotation will set the initial component rotation during Implant Planning The user should consider the placement of this reference to protect the ACL so as not to undermine it during Bone Preparation This step is critical to establish the rotational axis of the tibial preparation in line with the tibial spine and the central most edge of the component Tibial Condyle Surface Mapping The Tibial Free Collection stage Fig
36. plying This number should be noted as the STRIDE component can accommodate 8 degrees of opposing rotation between the femoral and tibial components The user may also evaluate implant placement using the cross section feature Figure 34 Switch to the cross section views by selecting Cross Section on the right hand side of the screen Activate the desired implant view and slide finger vertically across the view pane to navigate through cross sectional views NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Prosthesis Placement i STRIDE TIBIA View Mode Solid Surface AN Add Tibia Points CED Reset Position Review Femur Plan Prosthesis Gap Figure 36 Check component sizing left and for medial and anterior overhang by identifying breakthrough of the tibial component model and the virtual bone surface right Figure 37 Confirm posterior slope is appropriate for patient component will be placed natively at 5 degrees upper right sagittal viewscreen If at any stage during Implant Planning the user feels as if the current bone morphed virtualization of the fem oral condyle is not sufficient the user should press the Add Femur Points button in the lower right portion of the screen and fill in the map in deficient areas Con tinuing forward from the Femoral Surface Map screen will bring the user right back
37. presents the tool tip bur and the blue big crosshair represents the back of the tool When both crosshairs are centered over the red the tool is in the correct trajectory Speed control will prevent the user from cutting beyond the bottom of the hole and also from cutting beyond the cylindrical sides down the depth of the hole 3 The tools eye view bottom left is the most useful viewscreen for tunneling down the holes The crosshair view can be helpful in providing direction in where to tweak the angle of the tool to stay on trajectory The on site Blue Belt representative is trained to monitor both simultaneously to provide assistance and suggestions when needed NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC TRIAL REDUCTION Trial Reduction Confirm Sizing Trial Reduction After completing all of the bone cuts and adjustments to the final surfaces the meniscus and posterior or remaining peripheral osteophytes are removed Small ridges can be rasped flat Once bone surface preparation is complete perform a trial reduction Figures 56 58 with the appropriate size trial femoral component and trial tibial components as described in the STRIDE Unicondylar Knee System Surgical Technique guide Figure 56 Insert femoral trial using the included trial inserter tool Place the trial poly bearing component in the tibial trial which screws into the trial component to
38. r Slide the Bone Clamp with the clamp hardware oriented towards the optical tracking camera over the two bone screws until the bottom of the clamp is within 1 cm of the patient s skin taking care not to place the clamp touching the skin e Clamp the femur tracker array into the bone clamp along the length of the bar on the array with the smaller side of the arrays closest to the operative site Orient the spheres towards the optical tracking camera and slide the array away from the incision site Prior to registering the leg with the Navio software the user must confirm that the position of the optical tracking camera and tracker arrays allow for full uninterrupted visibility throughout the registration and cutting processes for a full range of knee motion Advance to the Camera Orientation Adjustment screen in the workflow and confirm visibility of the F and T tracker arrays icons through a full range of motion e With the leg in deep flexion ensure that the F is visible in the camera s field of view oriented near the edge of the box Figure 11 e With the leg in full extension ensure that the T is visible in the camera s field of view Figure 12 Both F and T icons should be located in the lower third of the field of view screen and in the farther third of the near to far range Red lines on Figure 12 Checkpoint Pins Small metal checkpoint pins should be placed in both the femur and the tibia
39. racking spheres are not visible check that the tracking spheres on the point probe array are not overlapping in front or behind the tracking spheres on the tibia tracker array Hip Center The Hip Center Calculation stage will follow the femoral tracker array through circular movements of the hip These circular movements should be unrestricted and unhindered by holding fixing equipment Avoid pelvic movement which can be a source of error Prior to beginning collection the femur should start in approximately 20 of hip flexion in order to provide enough room to rotate the hip in a wide circle Slowly rotate the hip until all sectors of the graphic have changed to green Figure 14 There should be no transmission of force from the femur onto the pelvis Avoid a hip flexion angle greater than 45 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Femur Neutral Position Flexion 2 Figure 15 Collect the leg in full extension Femur Kinematic Axis Press and hold right pedal to collect ROM Flexion 74 Figure 16 Input the femoral kinematic axis Figure 17 Stressed ROM Collection work screens where data can be input either continually top or in discrete positions bottom Femur Kinematics Place the leg in full extension applying slight axial pressure to the limb Support the leg below the knee with one hand to avoid hyper extension This pos
40. rd the operative joint Figure 10 Femur and Tibia Tracking Array positions 10 Placing Tracking Hardware Rigid fixation of the femur and tibia tracking arrays onto the bone is critical for a successful Navio surgery The Navio system utilizes a two screw bi cortical fixation system comprised of the tools pictured in Figure 8 These tools allow for the tracker arrays Figure 9 to be fixed to the bone and for the tracking spheres to be oriented towards the optical tracking camera If a PFA procedure is also planned please keep this in mind when placing trackers Refer to the Navio User s Manual for further information With the operative leg in 90 degrees of flexion utilize the following procedure Tibial Tracking Hardware Placement e Percutaneously place the first bone screw 3 5 cm inferior to the tibial tubercle on the medial side of the tibial crest Figure 10 Drill the bone screw into the tibia perpendicular to the bony surface taking care to engage the opposing cortex and stop e Utilize the soft tissue protector to mark the position of the second bone screw inferior to the initial placement and drill the second screw with the bone through the soft tissue protector to ensure the screws are placed parallel with each other e Slide the bone clamp with the clamp hardware oriented towards the optical tracking camera over the two bone screws until the bottom of the clamp is within 1 2 cm of the patient s skin
41. recommended technique for using the Navio surgical system technology with the STRIDE Unicondylar Knee System Blue Belt Technologies recommends that the users review this guide prior to performing partial knee replacement surgery utilizing the Navio system This guide should be used in conjunction with not replacing the information contained within the Navio User s Manual that accompanied the purchase of the Navio surgical system Additional information on the STRIDE Unicondylar Knee System and manual instrumentation technique can be found in its labeling and in the STRIDE Unicondylar Knee System Surgical Technique and Product Specifications STRIDE Unicondylar Knee System The Navio surgical system is intended to assist the surgeon in providing software defined spatial boundaries for orientation and reference information to anatomical structures during orthopedic procedures The Navio surgical system is indicated for use in surgical knee procedures in which the use of stereotactic surgery may be appropriate and where reference to rigid anatomical bony structures can be determined These procedures include unicondylar knee replacement and patellofemoral joint replacement The Navio surgical system is indicated for use with cemented implants only Consult STRIDE Unicondylar Knee System labeling for its intended use indications and contraindications The Navio surgical system is not intended to be used on children pregnant women or
42. ser may also evaluate implant placement using the cross section feature Figure 38 Switch to the cross section views by selecting Cross Section on the right hand side of the screen Activate the desired implant view and slide finger vertically across view pane to navigate through cross sectional views at any stage during Implant Planning the user feels as if the current bone morphed virtualization of the tibial condyle is not sufficient the user should press the Add Tibia Points button in the lower right portion of the screen and fill in the map in deficient areas Continuing forward from the Tibial Surface Map screen will bring the user right back to the Implant Planning NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC IMPLANT PLANNING Prosthesis Placement STRIDE TIBIA Add Tibia Points gt Reset Position Review Femur Plan Prosthesis Gap Figure 39A Other available buttons Prosthesis Placement S STRIDE FEMUR Figure 39B Other available buttons 21 Button Mapping While the Navio User s Manual details each button on this screen the following buttons Figure 39A and 39B are particularly useful to understand A The Checkpoint Verification button is used to manually force a check of the safety checkpoints in the femur and tibia The user should utilize this button if they think either
43. t accurately align the femoral and tibial components and achieve proper soft tissue balance To achieve this goal a slight under correction of preoperative varus valgus is desirable in unicompartmental knee arthroplasty The Navio Surgical system guides the surgeon through acquisition of anatomic landmarks and constructs an anatomic reference frame of the operative leg Preoperative limb alignment is measured in full extension both with and without tensioning the ligaments and used as a reference for planning Identifying the posterior aspect of the tibia may be difficult in a tight knee The surgeon should use a lateral radiograph to provisionally size the tibial component Figure 2 Consult the lateral and AP radiograph and X ray Figure 2 templates prior to surgery 5 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC NAVIO OVERVIEW Navio Surgical System Overview The Navio surgical system is a surgical planning navigation and intraoperative visualization system combined with a hand held smart instrument for bone sculpting The camera communicates the relative position of the handpiece cutting tool the femur and the tibia via rigid tracker arrays to the computer which runs algorithms that control the handpiece Figure 3 The patient s bone is prepared according to an intraoperative plan that combines soft tissue and anatomic information with controll
44. that the patient is a candidate for UKR e Remove intracondylar osteophytes to avoid impinge ment with the tibial spine or cruciate ligament as well as peripheral osteophytes that interfere with the collat eral ligaments and capsule In order to reliably assess M L alignment and joint stability all osteophytes are removed from the entire medial or lateral edges of the femur and tibia Incise the deep menisco tibial layer of the medial or lateral capsule to provide access to any tibial osteophytes and allow insertion of retractors during bone preparation Exposure can also be improved with excision of patellar osteophytes e For medial UKR avoid release of the superficial medial collateral ligament For lateral UKR avoid release of the iliotibial band e While burring or cutting the bone near the collat eral ligament insert a retractor between the tibia and the collateral ligament to protect the ligament from damage For exposure recommendations specific to the STRIDE knee system please consult the STRIDE Unicondylar Knee Surgical Technique Guide Manual Instrumentation and Product Specifications 9 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE TRACKING HARDWARE rom Figure 8 Hardware From left Bone Screws Soft Tissue Protector Bone Clamp Figure 9 Bone Tracking Arrays Femur top and Tibia bottom Keep the smaller array end towa
45. this method to punch the posterior keel or punch the keel using the indicates that the ligaments are too tight or the Trial keel punch and the trial sizer from Figure 57 For best accuracy Tibial bearing is too thick results with the tibial component it is recommended that the keel be cut out prior to placing the trial tibial component using a 2mm spherical bur in manual control mode 33 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC CEMENT AND Cement Final Components amp Close Final Components Evaluate Knee ROM The bone should be prepared before cementation with pulsatile lavage and then dried Apply a thin layer of cement to the inner surfaces of the components Apply a thin layer of cement to the prepared bone surfaces Too much cement particularly on the tibia will be difficult to remove when it extrudes during impaction or pressurization Femoral Reference Kinematic With the knee flexed Insert the Tibial Component and seat it using the Tibial Impactor Reset Points 0 Collect ROM HOLD Insert the Femoral Component and seat it using the Femoral Impactor Figure 59 Assess final range of motion graphing Varus Valgus throughout confirm long leg mechanical alignment Extend the knee and remove any excess cement Insert either the trial tibial insert or the final polyethylene while the cement is curing Inserting a 1 2 mm spacer or t
46. tibia anterior and medially to redefine the edge of the component The user should take note of how much over modeled bone is removed in Refine Tibia along the footprint of the tibia and extrapolate that around to the posterior Therefore any extra generally may be 2mm modeled bone should be discounted in the visual representation of the model and not actively approached for cutting The user can visually check or physically feel around the tibial perimeter to check if there is bone left or if the visual model is just showing over modeled bone NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Cut Tibia When burring bone near and around the collateral ligaments and capsular tissues ensure that a soft tissue protector is used to prevent the bur from cutting the ligament Figure 53 A Z retractor is included in the Navio Instrument set and provides a good low profile option minimizes blockage of tracker arrays A Hohmann retractor may also be used Make sure to uncover the tibia tracker array if it was covered for protection while burring the femur Users should prepare the bone in the same anterior to posterior approach as is used on the femur This approach cleans up space for the guard as the cutting Figure 53 Use a soft tissue protector a Z retractor is included in moves into the posterior portion of the joint It is strongly the instrument set to s
47. ual Technique guide 4 Distal femur cut Utilizing STRIDE manual instrumentation set up for resection of proximal tibia Align Tibial Resector 5 Anterior tibia cut along the anterior tibia cut begun by Navio finish cut Proceed to check extension gap Continue from Section 3 with the STRIDE Manual Technique guide Reverting to the STRIDE Manual Technique guide begin by finalizing the tibial cut if any is left aligning the Tibia Resector to the Navio tibial cut plane and completing the bone resection Check 6 Posterior femur cut extension gap and proceed with manual technique guide finishing the posterior femur cut if no adjustments to initial cuts are required Select appropriately sized femoral cutting guide as selected and planned using Navio software 7 Posterior tibia cut Same as 5 Anterior tibia cut Use the femoral finishing guide and follow the STRIDE Manual Technique guide Align the guide on the finished femoral cuts pin appropriately and use the included Femoral Drill w stop to complete the 8 Posts and keels femoral peg holes Confirm the tibial size planned with Navio software is correct using the Tibial Sizer and continue with finishing the tibial cut Using the included Tibial Baseplate Provisional tool pin and utilize the Tibial Drill with Stop to prepare the tibial peg holes TRIAL IMPLANT ROM EVALUATION 9 ROM Evaluation Follow the instruction in the Trial Reduction section of the STRIDE Manual Te
48. ure 29 offers a visualization of the tibial mechanical and rotational axis previously collected blue lines as well as the discreet tibial landmark points collected above yellow dots On top of this visualization the user will digitize the surface size and shape of the tibial condyle by painting with the point probe over its surface The user must input into the system enough information to be able to appropriately localize and size the implant during planning Define the anterior and medial edges of the condyle as far posterior as is accessible Map the intercondylar eminence along the axis of the point probe Fill in the surface moving anterior to posterior as space allows Externally rotate the tibia apply valgus stress or hyper flex to access additional portions of the articulating condylar anatomy Collect points approximately 8 to 10 mm down the anterior and medial or lateral side of the condyle so that overhang can be identified during implant planning It is important to work the probe around the medial or lateral side of the implant past the medial or lateral point in order to digitize the anatomic shape for component sizing during Implant Planning NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC Prosthesis Placement i 5 STRIDE FEMUR Ca Collect Tibia Free Points Review Tibia Figure 30 Femoral Prosthesis Placement Figure 31 Confirm proper
49. ure Control mode as most users start out with run the barrel of the exposure guard over the patient s bone with the femur tracker array visible to the camera The visualization on the cutting screen will show over modeled bone being erased by the handpiece guard Figure 49 The user is updating the visual model in Refine Femur mode This step has no bearing on the final outcome of a procedure the accuracy of the cutting or the behavior of the Navio handpiece This stage cleans up the visual ization of the model to ensure that any bone that was modeled beyond the patient s articulating bone surface is erased so that it does not obstruct the user s view NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Bone Removal FEMUR STRIDE 2 Refine Cut Lal FEMUR A FEMUR Figure 50 Remove bone anterior to posterior working cleanly all the way down to the white target surface Cut Femur The user should work anterior to posterior cutting away bone to remove color indicated on the model until the target white surface is reached Figure 50 1 Allow the tool to plunge the bur into the bone The bur will stay protruded only until the bur has reached the target surface areas color coded white on the monitor and the bur exposure will be actively adjusted so that cutting beyond the target surface is minimized 2 Widen the cut mov
50. way to hold the Navio handpiece while orienting the tracking spheres towards the camera The user s dominant hand on the body of the tool and the opposing hand near the tip provide support for the cutting implement e In order to activate the bur for bone cutting depress the black Anspach foot pedal all of the way down This will activate the bur at 80 000 RPM During exposure control the bur will spin at approximately full power 80 000 RPM regardless of exposure level During speed control mode the Navio system control will ramp the speed of the bur from 0 to 80 000 RPM depending on its position in bone to be removed or bone to be preserved as defined by the Implant Planning section Figure 47 Right handed technique for holding the cutting tool during bone preparation Do not hold the drill barrel sticking e The surgical workflow during bone preparation works out the back of the handpiece as this may prevent the tool from in a non linear fashion Navio does not force the user functioning properly to start with the femur or tibia Typically users begin by cutting the femur and may switch between femur and tibia cutting once or twice 26 NAVIO SURGICAL TECHNIQUE FOR USE WITH THE STRIDE UNICONDYLAR KNEE SYSTEM BLUE BELT TECHNOLOGIES INC BONE CUTTING Screen Overview I J Figure 48 shows a typical cutting screen with the Bone Removal FEMUR following icons buttons called out STRIDE 2 A Checkpoint

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