Mako Total Hip Posterolateral approach · checkpoint superior to the acetabulum, angled away from...
Transcript of Mako Total Hip Posterolateral approach · checkpoint superior to the acetabulum, angled away from...
Mako™ Total HipPosterolateral
approach
Surgical reference guide
MakoRobotic-ArmAssisted Surgery
Mako Total Hip – posterolateral approachSurgical reference guide
Table of contents
Implant compatibility . . . . . . . . . . . . . . . . . . . . . . . . 4
Express femoral workflow . . . . . . . . . . . . . . . . . . . . 6
Acetabular shell planning . . . . . . . . . . . . . . . . . . . . . 6
Femoral stem planning . . . . . . . . . . . . . . . . . . . . . . . 8
Recommended operating room layout . . . . . . . . . . . 9
Array placement and checkpoints . . . . . . . . . . . . . 10
Acetabular registration . . . . . . . . . . . . . . . . . . . . . . 12
Acetabular reaming and acetabular
shell impaction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
Femoral preparation, reduction and implantation 14
Express femoral workflow reduction results . . . . 15
Enhanced femoral workflow . . . . . . . . . . . . . . . . . 16
Femoral array screw placement and checkpoint . 17
Initial femoral landmarks . . . . . . . . . . . . . . . . . . . . 18
Femoral bone registration and verification . . . . . . 18
Guided femoral neck resection . . . . . . . . . . . . . . . 19
Femoral preparation . . . . . . . . . . . . . . . . . . . . . . . . 19
Broach tracking . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
Enhanced femoral workflow reduction results . . . 21
This publication sets forth detailed recommended procedures for using Stryker’s devices and instruments . It offers guidance that you should heed, but, as with any such technical guide, each surgeon must consider the particular needs of each patient and make appropriate adjustments when and as required .
Note: the information provided in this document is not to be used as the surgical technique when completing a Mako Total Hip procedure. Please refer to the Mako THA surgical guide (PN 210558) for detailed intended use, contraindications, and other essential product information.
2
Mako Total Hip – posterolateral approachSurgical reference guide
3
Mako Total Hip – posterolateral approachSurgical reference guide
4
Implant compatibility
Femoral implant compatibilityNeck options Sizes Part number Approaches Broach tracking Stem tracking
Accolade II127° 0-11 6721-XXXX Anterolateral
PosterolateralDAA
AL and PL- divots or array;
DAA-divots
AL and PL-array; DAA-n/a132° 0-11 6720-XXXX
Anato
Right anteverted 1-8 4845-7-10XAnterolateralPosterolateral
DAA
AL and PL- divots or array;
DAA-divots
AL and PL-array; DAA-n/a
Right neutral 1-8 4845-7-11X
Left anteverted 1-8 4845-7-20X
Left neutral 1-8 4845-7-21X
Secur-FitAdvanced
127° 6-12 1601-XX127 AnterolateralPosterolateral
AL and PL-array AL and PL-array 132° 4-12 1601-XX132
Acetabular shell compatibility
ShellSizes (mm)
Part number
Trident PSL HA solidback
40-72mm 540-11-XXX
Trident PSL HA cluster
40-72mm 542-11-XXX
Trident hemi solidback
42-74mm 500-01-XXX
Trident hemi HA solidback
42-74mm 500-11-XXX
Trident hemi cluster 42-74mm 502-01-XXX
Trident hemi HA cluster
42-74mm 502-11-XXX
Trident hemi multihole
42-74mm 508-11-XXX
Tritanium solidback 44-66mm 500-03-XXX
Tritanium cluster 44-66mm 502-03-XXX
Tritanium multihole 54-80mm 509-02-XXX
Liner compatibility
LinerPart
number
Trident X3 0° 623-00-XXX
Trident X3 10° 623-10-XXX
Trident X3 Eccentric 0°
663-00-XXX
Trident X3 Eccentric 10°
663-10-XXX
Trident X3 elevated rim
643-00-XXX
Trident 0°constrained
690-00-XXX
Trident 10°constrained
690-10-XXX
MDM liner 626-00-XXX
MDM X3 insert 1236-2-XXX
Femoral head compatibility
Femoral head
Partnumber
V40 CoCr (non LFIT)
6260-X-XXX
LFIT V40 CoCr
6260-9-XXX
V40 BIOLOX delta
ceramic6570-0-XXX
Universal BIOLOX delta
ceramic6519-1-XXX
V40Universal adapter
sleeves for delta
universal heads
6519-T-XXX
Mako Total Hip – posterolateral approachSurgical reference guide
5
MDM liner and insert compatibility Shell size (mm), liner alpha code
Trident PSL shell 44 46, 48 50, 52 54, 56 58, 60 62, 64 66, 68 70, 72
Trident hemispherical shell 46 48, 50 52, 54 56, 58 60, 62 64, 66 68, 70 72, 74
Tritanium hemispherical shell* 48 50, 52 54, 56 58, 60 62, 64 66, 68 70, 72 74-80
Liner alpha code C D E F G H I J
MDM CoCr liner 36C 38D 42E 46F 48G 52H 54I 58J
Poly insert OD (mm) 36 38 42 46 48 52 54 58
Poly insert ID (mm) 22 .2 22 .2 28 28 28 28 28 28
Nominal poly thickness (mm) 6 .7 7 .7 6 .8 8 .8 9 .8 11 .8 12 .8 14 .8
*Tritanium solidback and clusterhole acetabular shells (500-03-XXX and 502-03-XXX) are available in sizes 44mm-66mm Tritanium multihole acetabular shells (509-02-XXX) are available in sizes 54mm-80mm
Femoral head, X3 liner, and cup compatibility chart
Shell size, liner alpha code, and head size (mm)
Trident PSL shell 40 42 44 46, 48 50, 52 54, 56 58, 60 62, 64 66, 68 70,72
Trident hemispherical shell 42 44 46 48, 50 52, 54 56, 58 60, 62 64, 66 68, 70 72,74
Tritanium hemispherical shell* 44 46 48 50, 52 54, 56 58, 60 62, 64 66, 68 70, 72 74-80
Liner alpha codeA B C D E F G H I J
Liner thickness
Anatomic femoral heads
44mm - - - - - 3 .8 5 .4 7 .1 8 .6 10 .6
40mm - - - - 3 .8 5 .8 7 .4 9 .1 10 .6 12 .6
36mm - - - 3 .9 5 .9 7 .9 9 .4 11 .2 12 .7 14 .7
Femoral heads
32mm - 3 .9 4 .9 5 .9 7 .9 9 .9 11 .4 13 .2 14 .7 16 .7
28mm 4 .9 5 .9 6 .9 7 .9 9 .9 11 .9 13 .4 15 .2 16 .7 18 .7
26mm - - 7 .9 8 .9 10 .9 12 .9 14 .4 16 .2 17 .7 19 .7
22mm 7 .8 8 .8 9 .8 10 .8 12 .8 14 .8 16 .3 18 .1 19 .6 21 .6
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Plan the acetabular shell in the transverse view and coronal view in the cup plan mode (figure 1).
Figure 1
The ideal component size will evenly fit between the anterior and posterior columns in the transverse view . This view also provides a visual for how much cup overhang there may be beyond the anterior or posterior rim of the acetabulum . The shell should be medialized to the bottom of the acetabulum . Using the cortical rim (represented by the magenta line) as a guide, the shell should be just lateral of the acetabular wall but not buried past it (highlighted in figure 2).
Figure 2
The coronal view can be used to plan inclination and the superior/inferior position of the acetabular shell (figure 3). The default settings are 40° of inclination and 20° of version, but may be changed based on surgeon preference .
Figure 3
Acetabular shell planning
6
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Acetabular shell planning
Figure 5
While in reaming view, surgeons are able to visualize the surface of the planned bone resection . Surgeons should confirm that sufficient bone is resected for cup fixation and that the amount of resected bone is evenly distributed anterior/posterior and superior/inferior within the acetabular rim . The transverse view is helpful with the assessment of the bone stock in the anterior/posterior columns for reaming . Planned bone resection is illustrated in green (figure 5).
Figure 4
The coronal view can also be shown in x-ray mode by selecting “x-ray view” in the software (figure 4).
7
Note: While a “cup-first” approach is shown in the following steps, the surgeon may elect to prepare the femur prior to acetabular preparation.
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Femoral stem planning
Femoral stem size, femoral stem offset, and femoral head lengths can be adjusted on the right side of the screen . The coronal view will allow the surgeon to select the optimal stem size . The implant should be centered in the femoral canal just inside the bone cortices . Picture-in-picture views allow surgeons to scroll through segmented slices in the sagittal view (figure 6) and in the transverse view (figure 7).
Figure 6
Figure 8
Figure 7
In the coronal view for femoral stem planning, the magenta sphere represents the pre-surgical, or native head center . The blue sphere represents the head center of the femoral implant, and the green sphere represents the planned cup center of rotation . This helps surgeons plan the optimal neck cut, represented by the green line superior to the lesser trochanter . The transverse view can be helpful to assess proximal and distal fit of the implant in the femoral canal and give visualization of any abnormalities with the canal (figures 6 and 7).
Note: The surgeon may prefer to measure the planned neck resection level relative to the top of the lesser tronchanter using the measurement tool in either ”x-ray view” or the coronal CT view (figure 8).
8
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Reduced implant planning
Recommended operating room layout
Figure 9
Figure 10
The reduced mode can also be viewed in “x-ray view,” giving surgeons the opportunity to see the plan from a more familiar perspective (figure 10).
Figure 11
O .R . setup is important to the success of a Mako Total Hip procedure . The ideal position for camera placement is at the head of the table . As this may interfere with anesthesia, optimal results can be achieved by placing the camera between 11:00 and 1:00 o’clock position . The camera may be moved intra-operatively, and this will not impact the case . The robotic-arm should be located on the anterior side of the patient and should be aligned with the patient’s ASIS and acetabulum . The robotic-arm can be placed higher (cephalad) at the level of the chest and angled to reach all inclination and version angles . Trial range of motion should be done prior to placing the robotic-arm into position for reaming and impaction (figure 11).
The reduced mode shows the entire plan (acetabular shell, femoral stem, acetabular liner, and neck length) and gives the surgeon data on changes to the operative hip and how it compares to the contralateral side (figure 9).
9
Mako Total Hip – posterolateral approachSurgical reference guide
Express distal and proximal landmark placement
Express femoral workflow
Figure 13
Pelvic array placement
Figure 12a
Figure 12b
Prior to sterile preparation of the patient’s leg, flex the knee so that the patella is stabilized, then place an EKG lead on the distal pole of the patella . In order to improve stability of the lead and maintain sterility of the probe, it is recommended to secure the EKG lead with a sterile film dressing, followed by a self-adherent wrap . Continue with patient draping in the surgeon’s preferred manner . It is important to ensure that the leg remains in the same pose while capturing the proximal and distal checkpoints (figures 12a and 12b) .
Prior to the operative incision, the surgeon should make a stab incision along the lateral aspect of the iliac crest . The surgeon may prefer to make a 1-2cm incision instead of stab incisions . Insert a bone pin 1-2 finger breadths superior to the most prominent point of the ASIS . Use the pin clamp to estimate the location of the subsequent stab incisions and bone pin locations . Attach the pelvic array to the clamp and align it towards the camera . Tighten all knobs and check array stability (figure 13).
10
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Figure 15
Perform incision and exposure . Insert the pelvic checkpoint superior to the acetabulum, angled away from the joint to avoid violating the acetabular wall and incidental reaming . The surgeon should place the proximal femoral checkpoint on the lateral portion of the greater trochanter. Rest the operative leg on the table, flex the knee 90°, and capture the proximal and distal femoral landmarks, ensuring the femur remains stable between captures (figure 14).
Express landmark and initial checkpoint capture
Next, capture the pelvic checkpoint (figure 15). Once the checkpoint is captured, the surgeon resects the femoral neck and removes the femoral head .
Note: While a “cup-first” approach is shown in the following steps, the surgeon may elect to prepare the femur prior to acetabular preparation.
Note: If the surgeon prefers, it is also acceptable to dislocate prior to placing the pelvic checkpoint. Extreme care must be taken not to bump the pelvic array during dislocation. If the array is bumped, reduction values at the end of the case may be compromised.
Figure 14
11
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Capture the first three landmarks in the posterior acetabulum, anterior acetabulum, and superior rim of the acetabulum (figure 16). It is important to match the registration points as close as possible to the virtual model, because these initial landmarks align the patient’s bone with the patient’s virutal model .
Figure 17
Figure 18
Once registration is completed, the surgeon will confirm eight verification spheres. This will conclude acetabular registration (figure 18).
Registration technique is very important . Surgeons should spread registration points out as much as possible, ensuring peripheral points are outside of the acetabular rim and that the probe is against the bone rather than on soft tissue .
The system will automatically continue through the registration process for the next 32 registration points (figure 17).
Acetabular registration
Figure 16
12
Mako Total Hip – posterolateral approachSurgical reference guide
Attach the reamer, reamer handle, adapter, and power equip-ment to the end effector . Surgeons may use a straight or offset reamer . When using the offset reamer, insure that the correct reamer handle is identified on the reaming page. Make sure that the current size reamer is consistent with the size selected in the software .
In free arm mode, move the reamer into the acetabulum and into the planned orientation . Once the arm is in range, take the arm out of free arm mode to engage the robotic-arm guidance and begin reaming . In the stereotactic boundaries, the surgeon has 10° of freedom from the planned cup axis of inclination and version .
The surgeon should ream until the superior, lateral, and posterior values read 0 . On the bone model green indicates more bone should be resected, white indicates bone resection is to plan, and red indicates resection has exceeded the plan by 1mm (figure 19).
Once reaming is satisfactory, remove the power equipment and reamer handle from the robotic-arm .
Express femoral workflow
Figure 20
Attach the acetabular shell to the impactor handle . Place the impactor shaft into the end effector and attach the impactor platform .
In free arm mode, move the shell into the acetabulum and into the planned orientation . Once the robotic-arm is in range, take the arm out of free arm mode to engage the robotic-arm guidance . Ensure that the end effector is fully seated on the impactor handle and begin impaction . Capture the current inclination, version and impaction depth by pushing the end effector down until it stops and then select “capture values.” It is critical to perform a final “capture values” assessment when the cup is seated for the express femoral workflow (figure 20).
When the acetabular shell is seated, disassemble the impactor handle while the robotic-arm is engaged . Once it has been removed, free the robotic-arm and disassemble the impaction shaft .
Surgeons may want to check the acetabular shell orientation results at this time, especially if they inserted acetabular screws . They may do so by using the surgical results feature under the final results tab (figure 21). Surgeons may implant the final acetabular liner at this time, if they so choose.
Figure 21
Figure 19
Acetabular reaming
Acetabular shell impaction
13
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
For femoral preparation and sequential broaching, please refer to the surgical technique for the planned femoral implant .
Figure 22
Figure 23
Select the appropriate size femoral neck trial, head diameter, and acetabular liner and reduce (figure 23).
Confirm placement and sizes in reduction results. Confirm joint stability by taking the hip through a range of motion assessment .
Any adjustments made from the initial plan must be changed in the software to reflect the updated values. Return to the original operative position and capture the proximal and distal landmarks to confirm the planned offset and leg length have been achieved . Surgeons may take intra-operative x-rays, if so desired .
Once the desired reduction results are achieved, remove the trials and prepare the femur for the final implant.
Figure 24
Insert the appropriate acetabular liner . Introduce the femoral stem into the canal by hand and fully seat the stem with the selected stem insertion instrument .
Clean and dry the neck taper, place the femoral head onto the taper and firmly impact the head with a mallet and femoral head impactor . Reduce the joint and assess range of motion, stability, and leg length (figure 24).
Femoral preparation
Trial reduction
Implant insertion
14
Mako Total Hip – posterolateral approachSurgical reference guide
Express femoral workflow
Select the appropriate size femoral neck trial, head diameter, and acetabular liner and reduce (figure 23).
Confirm placement and sizes in reduction results. Confirm joint stability by taking the hip through a range of motion assessment .
Any adjustments made from the initial plan must be changed in the software to reflect the updated values. Return to the original operative position and capture the proximal and distal landmarks to confirm the planned offset and leg length have been achieved . Surgeons may take intra-operative x-rays, if so desired .
Once the desired reduction results are achieved, remove the trials and prepare the femur for the final implant.
Figure 25
In the express femoral workflow, the surgeon can capture the final values after implantation in the reduction results page by capturing the proximal and distal femoral checkpoints (figure 25).
Remove all of the arrays, checkpoints and bone pins . Pulse lavage the surgical site . The surgeon should then close the surgical site using his/her preferred method .
Reduction results
15
Mako Total Hip – posterolateral approachSurgical reference guide
Enhanced femoral workflow
Enhanced workflow features
The enhanced femoral workflow of Mako Total Hip requires additional steps. However, the surgeon may derive certain benefits using the enhanced workflow. The features that are included in the enhanced workflow are guided neck resection, broach version, combined anteversion and reduced leg length and combined offset. Table 1 outlines the differences between the express and enhanced femoral workflows.
Required stepsFemoral workflow
Express Enhanced
Proximal checkpoint Yes Yes
Distal checkpoint Yes No
Cortical array screw No Yes
Femoral array No Yes
Femoral registration No Yes
Reduced hip center capture No No**
Available featuresFemoral workflow
Express Enhanced
Guided neck resection No Yes
Broach and/or stem* version and COR No Yes
Combined anteversion display No Yes
Reduced HL and OS Yes Yes
Table 1* Stem tracking is not available with direct anterior approach
** Hip center capture is not required for the enhanced femoral workflow as the hip center is obtained during final impaction. However, it may be captured manually based on surgeon preference.
16
Mako Total Hip – posterolateral approachSurgical reference guide
Figure 26b
Enhanced femoral workflow
Femoral array screw placement & checkpoint
Locate the proper placement for the femoral cortical screw and prepare the surface by clearing all soft tissues . Next, create a pilot hole for the femoral array cortical screw . If the surgeon is using the standard screw (P/N 116240) use a 2 .5mm drill . If the surgeon is using the variable angle cortical screw (P/N 111655) use a 3 .0mm drill . Thread in the screw until snug, but avoid over-tightening. Confirm that the teeth are anchored into the bone to make certain that the screw will not toggle and compromise femoral registration. (figure 26b).
Figure 27
Insert the femoral array into the cortical screw and gently toggle the array to make certain that there is no motion between the flange and the bone. If so, the screw must be re-tightended (figure 27).
Place the femoral array into the screw and position the array so that it is visible in the dislocated and reduced position . Hand-tighten the array while assembled to the cortical screw to ensure visibility . Next, remove the array and use the square driver to tighten the array . Do not tighten the array while it is attached to the cortical screw .
Insert the checkpoint into the posterolateral aspect of the proximal femur . Next, capture and verify the checkpoint by placing the probe tip in the divot of the femoral checkpoint (figure 26a).
17
Figure 26a
Mako Total Hip – posterolateral approachSurgical reference guide
Enhanced femoral workflow
Next, the surgeon must complete the initial femoral registration. The first landmark is located on the posterior side of the femoral neck (figure 28).
Figure 28
Figure 29
With a posterolateral approach, the second landmark is near the lesser trochanter on the posterior side of the femur (figure 29).
Figure 30
Figure 31
The third landmark is the lateral side of the greatertrochanter (figure 30). It is important to match these three points as close to the model as possible .
The system will auto-proceed into the femoral bone registration mode (figure 31).
Initial femoral landmarks
Femoral bone registration & verification
18
Mako Total Hip – posterolateral approachSurgical reference guide
Enhanced femoral workflow
Figure 32
Next, the surgeon will collect 32 points on the femur . When this process is complete, the surgeon must collect the six femoral verification spheres (figure 32).
In the enhanced femoral workflow, the surgeon has access to a guided neck resection . With the femoral array attached to the cortical screw, use a surgical marker or electrocautery to mark two points with the probe tip on the neck resection line (figure 33). Next, connect the two points to mark the neck resection line . Resect the neck and remove the femoral head .
Figure 33
For femoral preparation and sequential broaching, please refer to the surgical technique for the planned femoral implant .
Femoral bone registration & verification (continued)
Guided femoral neck resection
Femoral preparation
Figure 3419
Mako Total Hip – posterolateral approachSurgical reference guide
Once broach version has been established, the surgeon has the opportunity to change the planned acetabular orientation to the desired combined anteversion values (figure 36).
Figure 35a
Attach the appropriate divoted neck trial that corresponds to the planned femoral implant and selected neck option, reattach the femoral array and collect the three points on the neck trial in the order shown on the screen (figure 35a and 35b) . If the surgeon prefers to use array tracking, rather than divot selection, place the appropriate broach array atop the trunnion and select capture .
The surgeon can make intra-operative adjustments by selecting different head lengths or offsets within the drop down menus located in the software .
Figure 35b
Figure 36
Broach tracking
Note: If the surgeon chooses to adjust the broach position, remove the femoral array, broach, and then reattach the array to capture the new position as outlined above.
Enhanced femoral workflow
Note: After the femoral stem has been implanted, the surgeon has the option to capture the final stem version with stem tracking by placing the broach array atop the trunnion and selecting capture. The divot capture feature is not available during stem tracking because there are no divots on the neck of the stem.
20
Mako Total Hip – posterolateral approachSurgical reference guide
Figure 38
Final reduction results will be displayed (figure 38). When the results are satisfactory, the surgeon may implant the final components.
Enhanced femoral workflow
Enhanced workflow reduction results
Figure 37
Once the hip is reduced, reattach the femoral array . Ensure that both the femoral array and pelvic array are visible to the camera .
Leg length and offset will automatically be calculated based on the impacted hip center data . If the cup position was adjusted manually after robotic-arm assisted impaction, press “capture hip center” and articulate the hip until the progress bar on the screen reaches 100% for leg length and offset measurements . (figure 37).
21
Mako Total Hip – posterolateral approachSurgical reference guide
Notes
Mako Total Hip – posterolateral approachSurgical reference guide
Notes
A surgeon must always rely on his or her own professional clinical judgment when deciding whether to use a particular product when treating a particular patient . Stryker does not dispense medical advice and recommends that surgeons be trained in the use of any particular product before using it in surgery .
The information presented is intended to demonstrate the breadth of Stryker’s product offerings . A surgeon must always refer to the package insert, product label and/or instructions for use before using any of Stryker’s products . The products depicted are CE marked according to the Medical Device Directive 93/42/EEC . Products may not be available in all markets because product availability is subject to the regulatory and/or medical practices in individual markets . Please contact your sales representative if you have questions about the availability of Stryker’s products in your area .
Stryker Corporation or its divisions or other corporate affiliated entities own, use or have applied for the following trademarks or service marks: Accolade, Anato, LFIT, Mako, MDM, PSL, Secur-Fit, Stryker, Trident, Tritanium, V40, X3 . All other trademarks are trademarks of their respective owners or holders .
BIOLOX delta is a registered trademark of Ceramtec Ag .MKOTHA-PG-4 Copyright ©2016 Stryker
325 Corporate DriveMahwah, NJ 07430t: 201.831.5000
www.stryker.com
Stryker Australia Pty Ltd Stryker New Zealand Limited8 Herbert Street St Leonards 515 Mt. Wellington Highway
Auckland 1060 New ZealandNSW 2065 Australia Ph: +61 2 9467 1000 www.stryker.com.au
Ph: +64 9 573 1890www.stryker.com