Arthroplasty Flashcards
Options for this young (<50yo) patient with a painful right knee
- Exhaust concervative treatment
- PT, NSAIDS
- off loading brace
- Cortisone injections
-
Valgus producing tibial ostotomy
-
Contraindications
- Inflammatory arthritis
- Less than 90 deg flexion
- Flexion contracture > 10 deg
- Ligament instability (varus thrust)
- Lateral tibial subluxation > 1cm
- Medial compartment bone loss
- Lateral compartment joint space narrowing
-
Predictors of failure
- Smoking
- > 60
- Varus > 10
- Other arthritides
-
Contraindications
-
Closing wedge problems
- Patella baja
- Loss of posterior slope
-
Opening wedge
- Nonunion
- Loss of valgus correction
Contraindications to HTO
Inflammatory arthritis
Less than 90 deg flexion
Flexion contracture > 10 deg
Ligament instability (varus thrust)
Lateral tibial subluxation > 1cm
Medial compartment bone loss
Lateral compartment joint space narrowing
Predictors of failure of HTO
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Smoking
> 60
Varus > 10
Other arthritides
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Options for this 65yo male with painful right knee?
-
Exhuast non-operative
- PT, NSAIDS
- cortisone injection
- offloading brace
- Cane, mobility aids
- UKA vs HTO vs TKA
-
UKA benefit over HTO and TKA
- Smaller incision
- Better knee function
- Shorter stay with less pain
-
Technique
- Do not overcorrect - can cause early failure
- Varus - correct to 1-5 deg of valgus
-
Contraindications
- ACL deficiency (strongest)
- fixed varus or valgus deformity > 10 degrees
- restricted motion
- < 90° of flexion
- fixed flexion contracture of > 10°
- joint subluxation of 5 mm or greater
- arthrosis of the additional compartment
- modest Outerbridge Stage II chondromalcia of patella is acceptable
- non-osteoarthritis arthritis
- younger high activity patients and heavy laborers
- overweight patients (> 90 kg)
-
Selection criteria
- Pain must be localized to the compartment being replaced
- Anterior knee pain means patellofemoral disease
- Global pain means tricompartmental disease
-
Complications
- Stress fractures
- best visualized on bone scan
- Usually on the tibial side
- Tibial component collapse
- poor mechanical properties of the bone
- Failure
- Overcorreciton
- Stress fractures
- Undercorrection
- Fixed-bearing (loosening)
- Mobile bearing (diseae progression)
- Patellar impingment (requires revision to TKA)
-
Normal alignment of the knee
Lateral proximal femoral angle: 90 degrees
Mechanical Lateral distal femoral angle: 88 degrees
Anatomic Lateral distal femoral angle: 81 degrees
Medial proximal tibial angle: 87 degrees
Lateral distal tibial angle: 89 degrees
What is this depicting and what are your considerations when measuring the deformity?
CORA - center of rotation of angulation
- Draw a line threw the axis of the distal and proximal end
- If there is only angulation - will occur at the apex of deformity
- If there is combined translation - will occur at a distance equal to the amount of translation deformity
- If angulation is seen on both AP and lateral, the true angulation will be larger than that seen on either XR
- When you don’t see angulation in one plane, but you do on the other - this is the true angular deformity
What is your appraoch to this patient?
-
History
- Take a complete and ample history
- Pain, functional issues, issues in other joints
- Previous surgeries, trauma
- PMHx, meds, all
-
Physical
- Look
- Gait, measure alignment and deformity
- Feel
- Assess stability of the hip, knee, ankle/foot
- Move
- ROM, contractures
- Full NV exam
- Look
-
Imaging
- Radiographs - full length standing AP/Lat
-
Indications for surgery
- Ligamentous laxity on the concave side
- LLD > 2cm
- Uniconylar OA of the knee
- Inability to place the foot in a plantigrade position
-
Conservative
- Unloading brace
- Shoe lift/orthoses
- Appropriate analgesia
-
Considerations
- Healing potential
- Should be done in an area with better healing potential
- Can accept some translation as long as the deformity is anticipated
- Leg length discrepancy - affected by both closing/opening and varus/valgus, the affect is combined
- Closing wedge can relatively lengthen ligaments and tendons
- Opening wedge with lengthen = half the base of the triangle
- Healing potential
- Varus correction will produce lengthening
- This will decrease as you go more distal
- Valgus produces shortening
Technical goals of TKA
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- **restore mechanical alignment **(mechanical alignment of 0°)
- restore joint line ( allows proper function of preserved ligaments. e.g., pcl)
- balanced ligaments (correct flexion and extension gaps)
- maintain normal Q angle (ensures proper patellar femoral tacking)
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You are planning a TKA for this patient. What are the order of releases
- osteophytes
- deep MCL (usually osteophytes and deep MCL is sufficient release)
-
Posteromedial corner
- Semimembranosus
- capsule
-
superfical MCL
- can find as it blends into pes anserine complex
- can not completely release or will have valgus instability (requires constrained prosthesis). Therefore perform subperiosteal elevation only
- Differential release: performed with two component of superficial MCL
- posterior oblique portion is tight in extension (release if tight in extension)
- anterior portion is tight in flexion (release if tight in flexion)
- PCL
Order of release for a flexion contracture
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- Order of posterior release
- osteophytes
- posterior capsule
- gastronemius muscles (medial and lateral)
- You do not want to address by removing too much tibia
- will change joint line and lead to patella alta
- Performed with the knee flexed so there is less risk to the popliteal artery
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Important considerations for planning your TKA cuts
Femur
- uses intramedullary guide, if can’t get this then use CT guided (post DFVO, trauma etc)
-
Distal femur valgus cut (5-7° from AAF )
- jig measures 6 degrees from femoral guide (anatomic axis)
- will vary if people are very tall (VCA < 5°) or very short (VCA > 7°)
-
Posterior referencing with femoral cut
- 3 deg ER (normal DR is 3 deg IR)
- otherwise will internally rotate your component
- should be parallel to interchondylar axis
- be careful with hypoplasia of the lateral femoral condyle, you can put the prosthesis into IR with a posterior reference system
Tibia
- Cut should be perpendicular to mechanical axis
- Can use intramedullary, unless there is deformity then need to use extramedullary
This patient comes in with knee pain. What is the most common complications of TKA? How can you prevent it?
- Abnormal patellar tracking, although not the most serious, is the most common complication of TKA.
- The most important variable in proper patellar tracking is preservation of a normal Q angle (11 +/- 7°)
- the Q angle is defined as angle between axis of extensor mechanism (ASIS to center of patella) and axis of patellar tendon(center of patella to tibial tuberosity)
- Any increase in the Q angle will lead to increased lateral subluxation forces on the patella relative to the trochlear groove, which can lead to pain and mechanical symptoms, accelerated wear, and even dislocation.
- Common errors include:
- internal rotation of the femoral prosthesis
- medialization of the femoral component
- internal rotation of the tibial prosthesis
- placing the patellar prosthesis lateral on the patella
Where should the joint line be in TKA? What problems can you run into if you move it
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-
Normal joint line
- 1 cm above fibula
- 2 fingerbreaths about tibial tuberosity
- **elevating the joint line **(> 8mm leads to motion problems) and can lead to
- mid-flexion instability
- patellofemoral tracking problems
- an “equivalent” to patella baja
-
lowering joint line
- lack of full extension
- flexion instability
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Saggital balancing. Go. All of it. You have 30 sec.
You are planning a TKA on this patient. What is your order of release. What are some important considerations?
-
Classification
- Stage 1 - not correctable
- Stage 2 - > 10 deg, not correctable
- Stage 3 - severe deformity, possibly incompetent MCL, severe bone loss
-
Order of Release
- osteophytes
- lateral capsule
- iliotibial band if tight in extension (release if tight in extension)
- with Z-plasy or release off Gerdy’s tubercle
- popliteus if tight in flexion (release if tight in flexion
- for severe deformities release both the iliotibial band and the popliteus
- LCL
- some authors prefer to release this structure first if tight in both flexion and extension
- others prefer this should be the last structure to release, if you need to release it consider of constrained prosthesis
-
Considerations
- Coronal balancing - older patient can use CCK, younger patient want to take less bone, but still want to do a primary knee
- peroneal nerve palsy
You do a TKA on this patient and surprise! He gets a peronal nerve palsy. What are some risk factors? How do you treat?
-
Prognosis
- most resovle in 3 months
-
Risk Factors
- use of epidural anesthesia;
- previous spinal surgery (double crush);
- valgus knee deformity
- flexion contracture more than 20 deg
- abarent retractors
- pre-op neuropathy
-
Immediate
- take of dressing
- flex the knee
- throrough documentation of physical exam
-
Post-op
- AFO
- PT for ROM
- EMG with-in one month
-
At 3 months
- Repeat EMG for improvement
- Decompression with neuroloysis
- 4 cm proximal
- adherence to fibular head
- 7-15 cm distal to fibular head
Amount of antibiotics to put in antibiotic cement
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- Need to keep under 2g/40g of cement to preserve mechanical function
- Safe loading dose
- Vanco - 10.5g
- Gent - 12.5g (although some report lower - 2g)
- Masri recommends 3.6g tobra and 1g vanc per 40 mg
- Powder is poured into liquid cement, vacum is not used - keeps porosity high to help with elution of cement
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What’s the most important factor in post-op TKA ROM?
Pre-op ROM
Pros and Cons of a CR knee
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- Most common, relies on native PCL
- Bone conserving
- More consistent joint line preservation
- Proprioceptive feedback
- Disadvantages<!--StartFragment-->
- Loss of PCL will lead to instability and failure
- Tight PCL will cause tightness in flexion and cause lift-off of component
- Excessive resection will cause failure from repetitive subluxation
- Instability, pain, buckling
-
Harder to balance
- Avoid in varus > 10, valgus > 15
-
PCL Rupture
- Trauma
- Osteolysis
-
Paradoxical movement - due to loss of ACL
- Tibia slides forward under the femur instead of posteriorly
Modern implants move center of rotation more posterior
- Tibia slides forward under the femur instead of posteriorly
- Loss of PCL will lead to instability and failure
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Pros and cons of anteriorly stabilized knee
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- Anterior lip prevents femor from rolling forward
- PE is highly congruent, there is no cam
- Advantage
- Bone conserving
- Easier balancing
- Operative versatility
- Regulated kinematics
- Disadvantage
- Increased PE surface
- Minimal rollback
- Flexion gap laxity = instability and pain - requires treatment to assess this
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Indications, pros and cons of a PS knee
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- Outcomes are the same for PS and CR knee
-
Indications
- Previous patellectomy - weak extensor mechanism can lead to anterior dislocation
- Inflammatory arthritis - leads to PCL rupture<!--EndFragment-->
- varus >10
- valgus >15
-
Advantages
- Easier balancing
- No sliding
- better flexion
-
Disadvantages
-
Cam jump - if flexion gap is loose, knee will hyperextend, rotate and jump over post and dislocate
- Reduce with sedation, 90 deg of flexion and anterior drawer maneuver
- Avoid in knees with >130 flexion
- Ultimately needs to be revised to address loose flexion gap
- Overreleased poplitues with saw blade
- Overrelease anterior MCL
- Anterior translation femoral component
-
Patella Clunk
- Scar tissue superior to patella gets cause in box
- Flexion - Ex at 45 deg
- Treatment - arthroscopic or mini open debridement
-
PE Wear from tibial post
- Causes aseptic loosening
- If need if hyperextended will cause impingement anteriorly and increase wear rate
- Flexed femoral component, excess tibial slope, anterior translation
-
Additional bone removed
- For post
- Large flexion gap
- Due to PCL removable
- Need to take more distal femur to account for this
-
Cam jump - if flexion gap is loose, knee will hyperextend, rotate and jump over post and dislocate
- **Beware joint line elevation with patella baja** Max 8mm **
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Indications for the use of this prosthesis?
- LCL/MCL attenuation or deficiency
- Flexion gap laxity
- *Can be used more in revision TKA, but consider at times for primary
- ie; severe valgus knee
the patient depicted had instability following CR knee and PCL rupture
Indications for the following prosthesis
Constrained hinge with rotating platform
- Tibia rotates with-in yoke to allow rotation during gait
- Without rotation there was a high loosening rate
- Intramedullary stem for high rotational loads
-
Indications
- Global ligament deficiency
- Hyperextension instability (polio or tumor resection)
- Knee resection for tumor
- Complete MCL (controversial)
Why was this prosthesis choosen?
Tumour Prosthesis
- tumour
- significant bone loss
You do this procedure on a healthy 65 yo male. What are all the complications?
-
Femoral Notching
- Jig is placed too low on the femur
- Lowers load to failure (fracture)
- In bending the fracture extend from the notch creating an oblique fracture
- Peroneal Nerve Palsy
-
PCL deficiency (in a CR knee)
- Will become loose in flexion, knee will feel unstable and femur will start to slide forward
- Will get anterior knee pain
- Treat with revision to PC or CCK
- Lateral Retinacular Release
- Patella Fracture
-
Intra-operative MCL injury
- Primary repair with 6 weeks NWB with full ROM (if young)
- Recommended treatment is to covert to highly constrained prosthesis
- Arthrofibrosis
-
Post-op Flexion Contracture
- The most important factor of post-op range of motion is pre-op ROM
- In a well balanced knee the gastroc is the cause of the flexion contracture
-
Severe extra-articular femoral deformity
- Can do a combined osteotomy with TKA with long stem that goes past the osteotomy site
-
Osteolysis
- Usually around 8-10 years
- Gradual increase in effusion with mild warmth but no erythema
- Normal lab results and aspiration
- Most common place is the posterior femoral condyle
What is usually causing a flexion contracture post-op TKA
gastroc
When do you usually see osteolysis in TKA and where do you get it?
8-10 years
posterior femoral condyle
You do the following procedure. They come back at 6 weeks and a stiff knee. How do you approach this?
-
Functional ROM
- 90 degrees needed to go down stairs
- 95 to get up from a chair
-
Factors to assess
- Boney resection
- patella baja/elevation of joint line
- tibial slope (not enought)
- posterior osteophytes
- patient factors
-
Radiography
- Assess joint line based on fibula and patella
- Assess alignment of implants
- presence of osteophytes
-
Treatment
- depends on the surgeon, some will take them back if not to 90 by 6 weeks, can be done up to a year
-
Manipulation
- usually at 6 weeks
- Later manipulation as high rate of fracture
-
Scope
- release adhesions, cement/loose bodies
- Arthrotomy
- poly exchange, patellar exchange, posterior release, tuberosity transfer, quads snip
- Not highly recommended, often fails with recurrent pain and stiffness
-
Revision TKA
- tibial tuberosity osteotomy, V-Y plasty
- address tibial slope, patellar height
TKA. Patient can no longer extend their knee. How do you approach this?
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- Can also occur with lowering of the joint line
-
Overview
- patellar tendon rupture is a rare and devastating complication after TKA with an incidence reported ranging from 0.17% to 2.5%
- Quadriceps tendon rupture extremely rare ~1%.
- Higher risk with infection, multiple surgeries, hinged prosthesis
-
Patellar Fracture
- Thickness <12mm
- Lateral retinacular release (osteonecrosis)
- Due to transection of superior genicular artery
- Osteonecrosis
- Theoretical risk with removal of fat pad, lateral release, quads turndown
- Blood supply comes from the medial to lateral part of the knee
- Can also be caused by maltracking or direct trauma
-
Quads or patellar tendon rupture
- Overall very poor outcome
-
Treatment
- Can treat conservatively if the component is solid and there is no extensor lag
- Quads
- Drill holes if no patella resurfacing
- Suture anchors if there is less bone stalk
- Patellar
- Primary repair with drill holes or suture anchor does not do well
- Component revision if there is enough bone, component resection if not
- Allograft or autograft if there is significant extensor lag
- Fresh frozen is the prefered choice
- Use a detensioning wire (or mersiline tape) for 3 months
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Considerations when deciding whether to resurface the patella
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- High clinical variability in practice
- **Complications **
- patellar fracture
- malailignment
-
Consequences
- Anterior knee pain with higher revision rate
- 50% re-operation rates and higher complication rates with no patellar resurfacing - at about 5 years outcomes become the same
- Earlier designs had a high failure rate, newer designs have longer survivorship
-
Technique
- Indicaitons to resurface
- maliagnmnet
- minimal wear
- inflammatory disease
- If you’re not resurfacing use a more anatomic design
- Patellar cut
- Use the caliper before and after
- Under resection leads to pain and a tight compartment
- Over resection leads to fracture - max thinness is 12mm
- Medial-superior placement is ideal
- Helps to restore Q angle with fewer tracking complications
- Lateral Release
- complications
- fracture
- component dislocation
- wear
- infection
- Indicaitons to resurface
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Diagnosis? Causes? Treatment considerations in TKA?
Patella Baja
-
Introduction
- A condition manifested by a shortened patellar tendon
- Leads to limited flexion due to patellar impingement on the tibia in extremes of flexion
-
Causes
- proximal tibial osteotomy
- tibial tubercle shift or transfer
- proximal tibia previous trauma
-
Presentation
- mechanical block to full flexion
-
Management
- Operative with TKA
-
lowering joint line
- distal femoral augmentation and cutting off more proximal tibia
- avoid bone cuts that raise the joint line (raising the joint line will effectively increase the patella baja deformity)
-
elevating patella
- use small patellar component and place superiorly
- trim bone or polyethylene to reduce impingement
-
lowering joint line
- one option in severe deformity is to cut the patella but not to resurface it (this will reduce patellar impingement allowing for more knee flexion)
- Operative with TKA
This patient comes into your clinic with a painful knee. What is your approach and general priniciples?
RULE OUT INFECTION!!!!!!!!!
- take a complete history around the pain, duration, time pain free, instability, PMHx, smoking
- assess for knee stability, contractures, neurological issues, vascular issues
- previous inctions
- patellar tracking
- Get all previous OR notes
- ESR, CRP, possible aspiration
- Bone scan - fracture, infection
- Imaging - AP, lateral WB views, full length standing
- compare to previous, assess for further lysis
- assess opposite knee
- Look at lysis around each component
- component alignment, shift
- posterior sag tibia = PCL
- full alignment of knee
-
Goals of revison surgery
- extraction of components with minimal bone loss and destruction
- restoration of bone deficiencies
- restoration of joint line
- balance knee ligaments
- stable revision implants
- address patellar malalignment
- soft tissue coverage
-
Exposure
- Use most lateral incision with multiple incisions
- Try to leave skin bridge 6cm if you can’t use old incision
- Release all adhesions and scar tissue
- do not pull off the patellar tendon
- If the patella cannot be everted safely
-
Quads snip - snip across the quads
- No need to protect WB
- 45 deg angle to arthrotomy
-
Patellar turndown - V-Y
- Associated with weakness
- Protect WB with extension brace for 6 weeks
-
Tubercle ostotomy
- Less weakness but can’t do if there is patellar baha
- 2cm wide, 1cm thick, 6 cm long
- start 1cm medial to tubercle with an osillating saw
- finish laterally with an osteotome
- stemed revision must bipass osteotomy
- WBAT with ROMAT
-
Quads snip - snip across the quads
- Prothesis Extraction
- Do with as little damage as possible
- Contact rep for specific implant removal
- ostotomes, punchs, slap hammer, clamps, saw, burr
- Take poly out
- Free femur with saw and osteotome
- don’t lever
- remove with punch or slaphammer
- Similar technique with the tibia
- may need to cut the stem
- osteotomy for exposure
- Patella
- can leave, or cut the pegs off and then drill them out
- Clear cement, if you are re-cementing you can leave the cement
- Bone Loss
-
Cause
- __abrasion, infection, osetolysis, extraction
- load sharing to the diaphysis (stem)
- stem is cement often, unless you have such sever bone loss you need to go up to the diaphysis (not like a hip)
- cavity defect filling
- cement
- for cavitary defect is < 1 cm
- structural bone grafts
- includes metal augments, or modular endoprosthetic devices
- indicated for segmental defect > 1cm
- cement
-
Cause
- Appropriate implants
- Tibia first, establish joint line
- use contralateral films
- 2cm above fibular head
-
hinged
- no ligamentous support
- multiply revised
- hyperextension seen in polio
- tumor, infection
- charcot (relative)
-
CCK/stem (constrained condylar knee)
- MCL/LCL laxity
- flexion gap
- CR to PS or CCK
- Tibia first, establish joint line
- Soft tissue
- Medial gastroc is the most reliable
- Do not delay closure, should be done at the same time as revision
Complications associated with Revision TKA?
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Pain
- pain scores less favorable than primary TKR
- activity related pain can be expected for 6 months
- Stiffness
-
Neurovascular problems
- peroneal nerve subject to injury with correction of valgus and flexion deformity
- Infection
-
Skin necrosis
- prior scars should be incorporated into skin incision whenever possible
- bloody supply to anterior knee is medially based, so lateral skin edge is more hypoxic
- if multiple previous incisions, use most lateral skin incision
- can use wound care, skin grafting, or muscle flap coverage (gastroc) for full thickness defects
-
Extensor mechanism disruption
- can use extensor mechanism allograft using achilles tendon
- Semi-T graft can be used to help augment
- Can use this intra-op if you loose the tendon
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Indicaitons, contraindications and optimal position
KNEE ARTHRODESIS
-
Indications
- painful ankylosis after infection or trauma
- neuropathic arthropathy
- tumor resection
- salvage for failed TKA (most common)
- loss of extensor mechanism
-
Contraindications
- absolute
- active infection
- relative
- bilateral knee arthrodesis
- contralateral leg amputation
- significant bone loss
- ipsilateral hip or ankle DJD
- absolute
-
Optimal Position
- 5-8° valgus
- 0-10° of external rotation (match other leg)
- 0-15° of flexion
- some limb shortening advantageous for patient self-care
Options for fixation for the following? Complications?
-
Fixation
-
Intramedullary rod fixation
- can be one long antegrade device or a two part device connected at the knee
- patella can be left alone or incorporated into arthrodesis
-
External fixation
- must allow compression of arthrodesis site
- done with unilateral external fixation, Ilizarov, or Taylor Spatial Frame
-
Plate fixation
- can be done alone in combination with intramedullary nailing
-
Intramedullary rod fixation
-
Complications
- Nonunion
- Infection
- Low back pain
- Ipsilateral hip degenerative changes
- Contralateral knee degenerative changes
- Fracture
- supracondylar femur or proximal tibial metaphysis fractures
Indications and contraindications; Advantages and disadvantages
-
Indications
- patients with advanced arthritis and good proximal femoral bone stock
- three types of patients for whom hip resurfacing is indicated (Amstutz, et al)
- patients with proximal femoral deformity making total hip arthroplasty difficult
- patients with high risk of sepsis due to prior infection or immunosuppression
- patients with a neuromuscular diagnosis
-
Contraindications
-
absolute
- bone stock deficiency of the femoral head or neck (e.g., cystic degeneration of the femoral head)
- >75% femoral head
- abnormal acetabular anatomy (small)
- Associated with acetabular loosening
- bone stock deficiency of the femoral head or neck (e.g., cystic degeneration of the femoral head)
-
relative
- coxa vara
- increased risk for neck fractures
- significant leg length discrepencies (resurfacing does not allow for leg length corrections)
- female gender (controversial)
-
absolute
-
Advantages
- preservation of femoral bone stock
- improved restoration of hip biomechanics with lower risk of limb length discrepancy
- lower dislocation rate
- rapid recovery
- revision is easier than an intremedullary THA
- better stability compared to standard small head (22- to 32-mm) THA
- ability to engage in high demand activities
-
Disadvantages
- lack of modularity with inability to adjust length or correct offset
- requires larger exposure than conventional THA
Outcomes of hip resurfacing
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- variable outcome findings in the literature (79% to 98% success rate)
- better results
- young
- larger males
- excellent bone stock treated
- osteoarthritis better than for dysplasia or osteonecrosis
- some case series have shown survival comparable to conventional THA, while others have reported higher rates of early revision
- some products have been removed from the market due to early failure
- more recent prospective trials have shown few differences between resurfacing and THA
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Patient comes in one year following hip resurfacing for OA. Differential for associated complications.
- RULE OUT INFECTION
-
Periprosthetic femoral neck fracture
- incidence of 0% to 4% (more common than in THA)
- frequent cause for revision in acute post-operative period (<20 weeks)
- mechanism thought to be related to osteonecrosis
-
risk factors:
- notching of the femoral neck
- osteoporotic bone
- large areas of pre-existing osteonecrosis
- femoral neck impingement (from malaligned acetabular component)
- female sex
- varus positioning of femoral component
- presents as groin pain
- treatment
- convert to a THA
-
Implant loosening (aseptic)
- early loosening of the cemented femoral resurfacing component
-
Heterotopic ossification
- higher incidence of heterotopic ossification (from wider exposure)
-
Elevated metal ion levels in blood and urine from metal debris (unknown significance)
- Metallosis
- pseudotumour
- ALVAL (Aseptic Lymphocytic Vasculitis Associated Lesions)
- Can see this on biopsy
- Treatment is to replace with a THA metal on poly
What are three ways to assess the rotation of your femoral component?
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- **anteroposterior axis **
- defined as a line running from the center of the trochlear groove to the top of the intercondylar notch
- a line perpendicular to this defines the neutral rotational axis
- **transepicondylar axis **
- defined as a line running from the medial and lateral epicondyles
- the epicondylar axis is parallel to the tibial surface
- A posterior femoral cut parallel to the epicondylar axis will create the appropriate rectangular flexion gap
- **posterior condylar axis **
- defined as a line running across the tips of the two posterior condyles
- this line is in ~ 3 degrees of internal rotation from the transepicondylar axis, the femoral prosthesis should be externally rotated 3 degrees from this axis to produce a rectangular flexion gap
- if the lateral femoral condyle is hypoplastic, use of the posterior condylar axis may lead to internal rotation of the femoral component
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Deformities associated with CAM (clinical/anatomical - not radiographic)
decreased head-to-neck ratio
aspherical femoral head
decreased femoral offset
femoral neck retroversion
Deformities associated with Pincer (clinical/anatomical - not radiographic)
anterosuperior acetabular rim overhang
acetabular retroversion
acetabular protrusio
coxa profunda (deep socket)
Radiological features of FAI
-
Technique
- Hips in 15 deg IR with beam centered between symphysis and ASIS
- Assess symmetry of obturator, tear drops; symphysis should be 1-2 cm from the coccyx
-
Findings
- Overall
- Tonnis grade - OA
- Joint space < 2mm is a poor prognostic factor
- Shenton’s line
- Acetabulum
- CEA > 40, Tonnis angle < 0
- Version; cross over sign, ischial spine sign
- Retroversion index > 33-50% are significant
- Assess protrusio, coxa profunda
- Posterior wall sign
- Femoral side
- Assess coxa vara
- Sphericity and contour of femoral head - ‘pistol grip deformity’
- Overall
-
Dunn view
- Alpha angle >50 (cam)
-
Cross-table lateral
- Head neck off-set >8mm (cam)
-
false profile view
- to assess anterior coverage of the femoral head
- standing position at an angle of 65° between the pelvis and the film