-
Hip fusion: gait efficiency
Oxygen expenditure
Position
- Reduced by 50%
- 30% more energy expenditure
- 20 flexion
- 0-5 addcution
- 5-10 ER
-
Contraindications to hip fusion 5
- Active infection
- Severe LLD
- Bilateral LLD
- Adjecent joint degeneration
- Contralateral THA
-
Indications for conversion of fusion to THA 3
- Back pain: most common
- Ipsilateral knee pain and instability
- Contralateral hip pain
-
Hip fusion: what to assess pre op and how
Abductor function with EMG >>may need constrained cup
-
THA iliopsoas impingement:
- Retained cement
- Malpositioned cup
- LLD
- Excessive lenght of screwzs
-
THA iliopsoas impingement: physical exam manouver
Amount of uncovered cup that is risk factor
- Resisted hip flexion or straight leg raise
- 8mm of anterior overhang
-
7 risk factors for TKA HO
- Hypertrophic arthritis
- male
- obesity
- notching femur
- Periosteal strippinf of anterior femur
- post op hematoma
- post op MUA
-
TKA heterotrophic ossification classification
- Class 1: suprapatellar soft tissues bony island
- Class 2: continuous with anterior distal femur
- Grade A: <5cm
- Grade B: >5cm
-
2 causes of patellar component loosening
- Infection
- Overstuffing/maltracking: leads to increased shear forces
-
TKA metal hypersensitivity: what metal
What type of reaction
- Nickel found on cobalt chromium alloys
- Type IV: mediated by T cells
-
Revision TKA what to use if: defect > 10 mm and young
Defect > 10 mm and old
- Bone graft
- Metal wedges/comes
-
TKA wound coverage (mention the pedicle): if anterior/medial defect
Lateral defect
- Medial gastrocs flap: medial sural artery
- Lateral gastrocs flap: Lateral sural artery
-
Popliteal artery: Location at the level of joint line
Proximal anchor
Distal anchor
3 branches above the knee
2 branches at the level of the joint
- Lateral: posterior to the posterior horn of the lateral meniscus
- Adductor hiatus of adductor magnus
- Soleus tendon
- Middle genicular A
- Medial sural A
- Lateral sural A
- Lateral genicular A
- Medial Genicular A
-
What is the downside of using drain post TKA
Increased rate of transfusion
-
What enzymes are responsible for cartilage degeneration
MMP: matrix metalloproteases
-
Hip OA: first line medications
Walking stick use
- Tramadol/NSAID's
- In contralateral side: reduces joint reactive forces
-
Normal range: dital femur valgus
Proximal tibia varus
-
4 alignment goals of TKA
- Restore mechanical alignment
- Restore joint line
- Balance ligamnets
- Maintain normal q angle: for patellar tracking
-
How to avoid patellar maltracking (4)
- Avoid excessive IR femoral component
- Avoid medialization femoral component
- Avoid IR tibial component
- Avoid medial positioning of patellar component
-
TKA joint line: 2 consequences of elevating > 8mm
2 consequences of lowering
- Mid flexion instability
- PF tracking problems (patella baja)
- Lack full extension
- Flexion intability
-
Driving recommendations after THA
- 3-4 weeks after R THA
- Reaction time returns to preop levels at 4-56 weeks
-
LLD post THA: most common problem short or long
Operative leg lengthening most common
-
Idiopathic transient osteoporosis: 2 groups at risk
Natural history
x ray findings
MRI
Treatment
- Middle aged men
- Women in third trimester of pregnancy
- Resolves within 6-8 months
- Diffuse osteopenia t head neck: appears 4-6 weeks after symptoms
- Diffuse edema but no focal defects or subchondral changes
- Treatment: protected weight bearing
-
Patellar clunk: type of prosthesis
Caused by
Treatement
- PS TKA
- Scar formation in posterior aspect of proximal patellar pole >>>catches on the box
- Arthroscopic debridement if symptomatic
-
Treatment of TKA extensor mechanism rupture: adequate patella
inadequate patella
Patella ok: primary repair + allograft/autograft augmentation
Patella not ok: extensor mechanism allograft
-
TKA/THA multimodal therapy components and mechanism of action 4
Opioids: Mu agonist > neuron hyperpolarization and reduced excitability
NSAID: Inhibit COX1 and COX 2 >>>inhibit inflammation
Selective COX-2 inhibitors >>inhibit transformation of AA to PG >>>>mininmize GI side effects, may inhibit bone healing
Gabapentin/pregabalin: reduce hyper-excitability of voltage dependent Ca2 channels in activated neurons
-
ROM of knee required for: stairs
Getting up from chair
Swing phase of walking
-
THA implant 3 types of fixation
- Cement
- Bone ingrowth: highly porous
- Bone ongrowth: grit blasted/plasma sprayed
-
Describe the 3 generations of cementig
1st Gen
hand mixed - Finger packed
- No canal preparation
- 2nd GenCement restrictor
- Cement gun
- Femoral canal preparation with brush
- 3rd genVacum mixing
- cement pressurization
- Femoral canal preparation with jet lavage
-
7 ways to optimize femoral stem cement fixation
- Limit porosity of the cement: 3rd generation mixing technique
- Cement mantle >2mm: increased risk of fracture if mantle < 2mm
- Stiff femoral stem
- Stem centralization
- Smooth femoral stem
- Absence of cement mantle defects
- No varus or valgus malalignment
-
4 ways to optimize biological fixation of femoral stem
- Pore size 50-300 micrometers
- Porosity 40-50%
- Gaps <50 micrometers
- Micromotion <150 micrometers: more micromotion leads to fibrous ingrowth
-
Hydtoxiapatite coating of femoral stems: Mechanism
animal studies
Clinical studies
- Osteoconductive agent that allows more rapid closing of gaps btw bone and prosthesis
- Decreased time to ingrowth
- No difference
-
4 signs of a well fixed cementless component
- Spot welds
- Absence of radiolucent lines around porous part of stem
- Proximal stress shielding if extensively porous coated
- Absence of stem subsidence on serial radiographs
-
TKA steps of medial release for varus knee (7)
- Deep MCL to midcoronal plane
- Osteophyste removal
- Rlease Posteromedial corner: posterior oblique ligament
- Medial tibial reduction osteotomy
- PCL release
- Release Semi membranosus: especially if flexion contracture
- Pie crust MCL
-
TKA steps of lateral release
- Osteophyte
- Posterolateral capsule
- IT band: if tight in extension
- POpliteus: if tight in flexion
- LCL: IF tight in flexion and extension
-
Describe how to draw the 4 quadrants of acetabular screw placement and associated dangers
Line from ASIS to center acetabulum and a second line perpendicular through it
Postero superior: Safe zone >>iseal spot for screw placement
Posteo inferior: If > 20 mm sciatic nerve/inf gluteal nerve and vessels at risk
Antero superior: Danger zone >>obturator nerve artery and vein
Antero inferior: death zone >>external iliac vessels at risk
-
What happens to joint reactive forces if: medialize cup
Increase offset
Varus alignment
Valgus alignment
Cane in contralateral side
Shifting body over affected hip
- Decrease
- Decrease
- Decrease
- Increase
- Decrease: decreases abductor pull
- Decrease: leads to trendelenburg gait
-
TKA incision: if multiple surgical scars
Choose the most lateral bc blood supply comes from medial side
-
TKA 3 ways to increase exposure
Quads snip: snip at the apex of quads tendon oblique at 45 degrees into vastus lateralis
V-Y turndown: Medial parapatellar approach with a second incision leading for the vastus lateralis towards lateral retinaculum
TT osteotomy
-
Use antibiotic cement in TKA in what setting
shown to reduce rates of infection in revision TKA
-
3 systemic conditions that increase risk of TKA instability
- Connective tissue disorders
- Inflammatory disease
- Diabetes or charcot arthropathy
-
TKA what to do if intraoperative MCL tear
- Use unlinked constrained prosthesis
- Repair and place in hinged knee brace for 6 weeks
-
What is the function of the patella (biomechanically
Increases lever arm of extensor mechanism
-
Passive restraints to patellar subluxation 3
- MPFL: at 20 degrees of flexion
- Medial patellomeniscal ligament
- Lateral retinaculum
-
Describe the COR of the knee as it goes from extension to flexion
As the knee flexes the COR moves posteriorly as the femur rolls back >>allows for increased knee flexion by avoiding impingement
-
Describe screw home mechanism of knee
Tibia ER 5 degrees in the last 15 degrees of extension > locks the knee: Due to the fact that the medial plateau is longer than lateral plateau
-
4 patient risk factors for stiffness post TKA
- Pre op ROM: most important
- Patella baja
- Increased comorbidities
- Low pain tolerance
-
Limit to do MUA after TKA
12 weeks: risk of fracture and extensor mechanism disruption
-
TKA peroneal nerve palsy: 5 risk factors
- Pre op valgus or fixed flexion deformity
- Tourniquet time >120 min
- Post op use of epidural analgesia
- Aberrant retractor position
- Pre-op neuropathy
-
TKA post op peroneal nerve palsy: outcome
treatment of post op palsy
50% recover wit no additional rx
- Remove dressing and place knee in flexion
- AFO
- Nerve transfer or decompression: no recovery after 3 months ...use tib post transfer tolateral cuneiform
-
5 disadvantages of direct anterior approach
- Steep learning curve: complication rate decrease after 100 procedures
- SSI increased in obese patients
- Challenging femoral exposure
- LFCN palsy
- Intra op # may be higher
-
How to measure patella baja on x ray
- Lateral x ray
- Use insall salvati ratio: if <0.8 its baja
- Its ratio of patellar tendon lenght to patellar bone lenght
-
What causes patella baja in: HTO
TKA
- Medial opening wedge
- Elevation of the joint line from excessive distal femoral cut
-
Describe crowe classification of dysplasia
- Grade 1Proximal displacement <10% of pelvis height
- Proximal migration of head neck from teardrop junction <50% of femoral head vertical diameter
-
Describe hartofilakidis classification
Type A: Dysplasia>>>head in acetabulum with some dysplasia
Type B: Low dislocation>>> false acetabulum superior to true acetabulum
Type 3: High dislocation
-
Dysplasia: CEA
Tonnis angle
-
Limit of lengthening during THA for dysplasia
3.5 cm or 10% of the length of femur
-
HTO: success rate at 10 years
Goal of correction
- 87%
- Overcorrect to 10 degrees of valgus
-
8 contraindications to HTO
- Inflammatory arthritis
- BMI >35
- flexion contracture >15 degrees
- Knee flexio <90
- >20 degrees of correction
- PF OA
- Ligament instabilit
- Varus thrust
-
Most common early complication of hip resufacing
Periprosthetic neck #
-
6 risk factors for sciatic nerve palsy post THA
- DDH
- Revision surgery
- Female
- Limb lengthening
- Post traumatic
- Surgeon reported as difficult procedure
-
Foot drop post THA what to do
- Remove compressive bandages
- Place hip in extension with knee flexed
- Assess for hematoma
- Prescribe AFO
- Shorten if excessive lengthening
-
Ideal acetabular position
recommended combined versio
- 15 degrees anteversion
- 40 degrees abduction
Combined version: 37 degrees
-
Femoral anteversion position
10-15 degrees of anteversion
-
Knee osteoarthritis JAAOS guidelines: strong-moderate evidence intervention (3)
Interventions with moderate-severe evidence against (5)
- NSAID's
- Exercise, education, wellness
- Weight loss
- Acupuncture
- Viscoelastic joint injection
- Glucosamine
- Needle lavage
- Lateral wedge insoles
-
Most common intra-op TKA fracture
Medial femoral condyle
-
Describe classification for distal femur periprosthetic #
SU
Type 1: # line proximal to femoral component
Type 2: # line originates at proximal end of component
Type 3: # line distal to anterior flange of femoral component
-
Describe periprosthetic TKA of tibia classification
Felix
Type 1: tibial plateau
Type 2: Adjacent to tibial stem
Type 3: distal to tibial component
Type 4: tibial tubercle #
-
Most common cause of TKA failure
Aseptic loosening: tibial more common than femoral
Followed by Infection, instability, fracture
-
Normal location of knee joint line
1.5-2cm above head of fibula
-
TKA: cavitary defect <1cm
Cavitary defect > 1cm
- Cement if small, may need allograft
- Metaphyseal sleeves
-
How to determine femoral component rotation 3
Whiteside line: draw line perpendicular to it
Transepicondylar axis: cut parallel to this
Posterior condylar axis: normal is 3 degrees of internal rotation >>need to ER femoral component 3 degrees
-
How to determine rotation of tibial prosthesis
Center it over medial third of the tibial tubercle
-
Absolute indication for patellar resurfacing 3
- Inflammatory arthritis
- Patella maltracking
- PF arthitis as the main indicatior for TKA
-
UKA compared to TKA 6 advantages
- Faster rehab and quicker recovery
- Less blood loss
- Less morbidity
- Less expensive
- Preserves normal knee kinematic
- Smaller incision: less pain
-
8 contraindications to UKA
- Inflammatory arthritis
- ACL deficiency
- Fixed varus > 10 degrees
- FIxed valgus > 5 degrees
- Flexion < 90
- Flexion contracture > 5-10
- Tricompartmental OA
- Young active patient
- Overweight
-
UKA: Correction of alignment
Survivorship
- Undercorrect by 2-3 degrees: avoid stressing other compartment
- 93% at 15 years
-
Causes of hip AVN 12
- Radiation
- Trauma
- Hematologic: leukemia/lymphoma
- Caissons
- Gaucher
- Sickle cell
- ETOH
- hypercoagulble
- Steroids
- SLE
- Virus: HIV/hepatitis
- Idiopathic
-
How to assess risk of femoral head collapse based on MRI
Kerboul angle
Low risk: combined AP and lateral <190
Mod risk: combined 190-240
High risk: combined > 240
-
What is the x ray classification of AVN hip
- Stage 0: normal x ray and MRI
- Stage 1: normal x ray abnormal MRI
- Stage 2: cystic or sclerotic changes
- Stage 3: Crescent sign
- Stage 4: flattening of femoral head
- Stage 5: narrowing joint
- Stage 6: Advanced degenerative changes
-
Non optreatment of AVN
Bisphosphonates: precollapse FICAT 0-2
-
2 bone grafting techniques for AVN
Lightbulb: through cortex of femoral head neck junction
Mont trap door: through articular surface
-
Vascularized fibular free graft: what vessel to attach it to
4 complications
Lateral femoral circumflex
Sensory deficit
- Motor weakness
- FHL contracture
- Tibial stress fracture
-
TKA balancing, what is affected with: distal femoral cut
Posterior femoral cut
Tibial cut
- Extension gap
- Flexion gap: increasing size of femoral component only changes flexion gap
- Both gaps
-
TKA balancing what to do in the following scenarios: Tight in flex/ext
Tight in flexion only
Tight in extension only
Loose in extension
Loose in flex/ext
- Did not cut enough tibia: cut more tibia
- Did not cut enough posterior femur: decrease femoral component size (will need more resection
- Did not cut enough distal femur: cut distal femur
- Cut too much distal femur: augment distal femur
- Cut too much tibia: use bigger poly or metal augments
-
TKA thickness that leads to early failure
<8mm
-
How does polyethylene become crosslinked
If during sterilization (radiation)
-
Indiction for revision after dislocation
2 or more indications and evidence of implant malalignment, implant failure or poly wear
-
4 risk factors for posterior dislocation post THA
- Age >70
- Female gender
- AVN
- Inflammatory arthritis
From paper from mayo
-
Classification of acetabular bone loss
Paprosky
Type 1: minimal deformity, intact rim
Type 2a: Superior bone lysis with intact superior rim
Type 2B: Absent superior rim, superolateral migration
Type 2C: Localized destruction of medial wall
Type 3A: bone loss 10am to 2pm around rim, superolateral cup migration
Type 3B: Bone loss from 9AM to 5pm, superomedial cup migration
-
Classification of femoral bone loss + treatment for each
Paprosky
Type 1: minimal metaphyseal bone loss >>Primary THA
Type 2: Extensive metaphyseal bone loss with intact diaphysis >>>extensive porous coated long stem
Type 3A: Extensive metadiaphyseal bone loss, minimum of 4 cm intact bone>>>>>extensive porous coated long stem
Type 3B: Extensive metadiaphyseal boe loss, less than 4 cm of intact bone in diaphysis>>> impaction allograft/APC/Oncology stem
Type 4: Extensive metadiaphyseal bone loss and a non supportive diaphysis>>>>> impaction allograft/APC/Oncology stem
-
THA start up pain is a sign of
Component loosening
-
4 risk factors for HO in primary THA
- Prolonged surgical time
- Excessive soft tissue handling
- Hypertrophic arthritis
- Male gender
-
THA HO prophylaxis 2
Indomethacin 75mg qd x 14-42 dys
600-800cGy within 48 hrs of procedure
-
Most accurate technique for assessing poly wear
Radiostereometric analysis
-
5 types of wear
Adhesive: Polyethelene sticks to prosthesis and debris gets pulled off
Abrasive wear: cheese grater effect of prosthesis scraping off particles
Third body: loose bodies in joint scraping off particles
Volumetric wear: related to the square of the radius of the head
-
Mechanism of metal on metal osteolysis
Wear particles > macrophage activation > release of osteolytic factors >>>TNF alpha >>> RANKL activation
-
Vancouver classification post op fractures + treatement
Type A: GT#..usually associated with osteolysis..Treat non op if displaced <2cm...ORIF is displaced >2cm
Type B1: fracture around or just below stem with stable implant>>>>ORIF
Type B2: Fracture around stem or just below with unstable implant but good bone stock>>>revision with wagner and cerclage wires
Type B3: Fracture around stem or just below with unstable implant but poor bone stock>>> Allograft or tumor prosthesis
Type C: Fracture well below prosthesis >>>>ORID with plate
-
Prosthetic joint infection: timing of acute
Within 3-6 weeks from surgery
-
MSIS criteria for PJI
Major
Sinus tract communicating with prosthesis - Pathogen isolated by culture from 2 separate tissue/fluid samples
Minor
Elevated ESR >30 or CRP>10 - Elevated WBC: >1100 knee, >3000 hip
- Elevated PMN: >64% for knee, > 80% for hip)
- Purulence of affected joint
- Pathogen isolation of one culture
- > 5 PMN per hpf in 5 HPF at 400X
-
How to make antibiotic cement
40g bag = 3g of vanco and 4g of tobramycin
|
|