1. Frank R. Ebert, MD Union Memorial Hospital Baltimore, Maryland
TOTAL KNEE ARTHROPLASTY
Frank R. Ebert, MD Union Memorial Hospital Baltimore, Maryland

2. Total Knee Arthroplasty
Goal
Restore mechanical alignment
Restore joint line

3. Normal Knee Anatomy Position in single leg stance
Mechanical axis valgus 3º
Femoral shaft axis valgus 6º
Proximal tibia varus 3º

5. Total Knee Arthroplasty
Radiographic Evaluation
Standing full length – AP
Standing AP
Extension/Flexion laterals
Tunnel view
Sunrise view

7. Total Knee Arthroplasty
Radiographic Evaluation
Weight Bearing X-rays
Extent of joint space narrowing
Ligament stretch out
Subluxation of femus on tibia

9. Total Knee Arthroplasty
Radiographic Analysis
Anatomic Axis – Femur
Line that bisects the medullary canal of the femur
Determines the entry point of the femoral medullary guide rod

11. Total Knee Arthroplasty
Radiographic Analysis
Mechanical Axis – Femur (MAF)
A line from center of femoral head to center of distal femur

13. Total Knee Arthroplasty
Radiographic Analysis
Anatomic Axis Tibia (AAT)
A line that bisects the medullary canal of the tibia
Determines the entry point of the guide rod

15. Total Knee Arthroplasty
Radiographic Evaluation
Mechanical Axis – Tibia (MAT)
Line from center of proximal tibia to center of ankle
Proximal tibia is cut perpendicular to (MAT)

17. Issues with Surgical Techniques
Traditional Joint Line Orientation
Tibial cut perpendicular to the MAT
Femoral shaft at a valgus angle 5º to 8º valgus based off the ong standing x-ray

19. Surgical Technique Incision — straight longitudinal incision
Tissue handling key
Avoid flaps
Preserve soft tissue flap about the patella

21. Surgical Technique
Remember 7cm Rule between incisions

23. Issues with Surgical Techniques
Exposure options
— Subvastus / midvastus
u Routine knee replacements
z Quicker rehab
— Medial parapatellar / midline
u Difficult total knee — obese patients
u Revisions

26. MIS vs MINI TKA
Capsulotomy only?
Mid vastus?
Sub vastus?
MIS

27. MIS vs MINI TKA
Mid vastus?
Sub vastus?
Quad sparing?
MIS

28. Anatomic Variations of VMO Insertion
Type I-High Insertion
Area of Variation
Type II-Pole Insertion
Type III-Low Insertion

29. Type I- High VMO Insertion
Area of extended retinaculum
Muscle Insertion
Retinacular Incision

30. Type II-Pole Insertion
Capsular or Retinacular Incision
Muscle Insertion

31. Type III-Low VMO Insertion
Area of Extended VM
Muscle Insertion

32. Issues with Surgical Techniques
Alignment
Extramedullary vs Intramedullary
 Accuracy vs increased PE risk
 Femur – Intramedullary
z Overdrill opening and insert slowly IM guide
z Caution with bilateral Total Knee Arthroplasty
 Tibia – Extramedullary

34. Issues with Surgical Techniques
Femoral Rotation
Landmarks
Posterior femoral condyles
Epicondyles 5º external rotation to the posterior condyles

38. Issues with Surgical Techniques
Femur
Measured resections: equal bone distally and posteriorly
Tensioning devices & ligament releases
Do not alter bone resection for ligament tightness

40. Issues with Surgical Techniques
Tibial Component Rotation
Transmalleolar axis
Posterior tibial plateau
Tibial tubercle — lies lateral

44. Malalignment
Tibial Component
Internally Rotated
Tubercle Too Lateral

46. Management of Deformity
1. Release the tight side of the deformity
2. Tighten the loose side
3. Accept some residual soft tissue imbalance
4. Combination

48. Surgical Techniques Varus Knee 1. Pes anserinus 2. Joint Capsule
3. Deep Tibial Collateral
4. Semimembranosus
5. Posterior Medial Capsule

52. Varus Knee

53. Varus Knee

54. Varus Knee

55. Varus Knee

56. Surgical Techniques Valgus Knee 1. Iliotibial Band 2. Popliteus Tendon
3. Posterior Lateral Capsule
4. Lateral Head of Gastroc
5. Biceps Femoris

60. Surgical Techniques Valgus Knee
Peroneal nerve palsy – valgus / flexion deformity
Treatment
Release dressings or flex the knee

62. Surgical Techniques: Flexion Contracture 1. Posterior capsule
2. Gastroc origins
3. Posterior cruciate
4. Distal femur

63. Fixed Flexion Deformity in TKA
Complex Combinations:
— musculotendinous contracture
— ligamentous contracture
— capsular contracture
— osteophytes of posterior condyle

64. Fixed Flexion Deformity in TKA
Biomechanics
— increased quadriceps force for knee stabilization during weight bearing
— increased forces transmitted to the patellofemoral joint

65. Fixed Flexion Deformity in TKA
Biomechanics
— increased forces are placed on posterior tibial plateau
— femoral condyles sink into the tibial plateau
— contact between intercondylar notch and tibial eminence form a boney block

66. Fixed Flexion Deformity in TKA
Associated deformity
— varus deformity 40% - > 5º range 5 to 30º varus
— valgus deformity 30% - > 5º range 5 to 22º valgus
Firestone et al COOR ‘92

67. Fixed Flexion Deformity in TKA
Incidence of Problem – Review of 700 TKA & Revision TKA’s
— 60% before primary TKA
— 21% before revision TKA
Tew & Forster JBJS (B) 87

68. Fixed Flexion Deformity in TKA
Soft tissue release
— Varies with angular deformity
Firestone et al COOR ‘92

69. Fixed Flexion Deformity in TKA
Surgical Treatment
Soft tissue release
Additional bone resection
Combination

70. Fixed Flexion Deformity in TKA
Postoperative Correction
— the more severe the deformity must consider the pros and cons of additional bone resection and/or soft tissue release
Volz COOR ‘89

71. Fixed Flexion Deformity in TKA
Additional bone resection – pros
— joint line is positioned slightly more proximal
— functionally lengthens the collaterals and posterior capsule forward extension
— doesn’t compromise flexion stability
Firestone et al COOR ‘92

72. Fixed Flexion Deformity in TKA
Additional bone resection — cons (excessive)
Collateral ligament laxity
Quadriceps redundancy
Hyperextension
Bone quality can be compromised
McPherson et al ‘94

73. Additional Femoral Resection

75. Fixed Flexion Deformity in TKA
Surgical Treatment for Deformity < 10º FFC
Soft tissue release – only necessary
— posterior capsule
— possibly PCL
— posterior osteophytes

76. Fixed Flexion Deformity in TKA
Surgical Treatment for Deformity º FFC
— consider distal femoral resection to 5 mm
— Posterior capsule
— PCL resection posterior osteophytes
Firestone et al COOR ‘92

77. Fixed Flexion Deformity in TKA
Surgical Treatment for Deformity º FFC
— distal femoral resection 3 to 5 mm
— posterior capsule
— PCL resection posterior osteophytes
Firestone et al COOR ‘92

78. Fixed Flexion Deformity in TKA
Surgical Treatment for Deformity > 30º FFC
— consider pre-op casting ≠
— distal femoral resection 5 mm
— proximal tibial resection
— PCL resection
— posterior osteophytes
Firestone et al COOR ‘92 et al J of Arthro ‘99

79. Fixed Flexion Deformity in TKA
Peroneal Nerve Palsy
Vascular Insufficiency
Anterior Pressure Ulcers
Manipulation

83. Fixed Flexion Deformity in TKA
No formula is exact for treatment of the problem
Consider a balance between soft tissue release vs bone resection

84. Issues with Surgical Techniques
Stiff Knee
Remove osteophytes
Insall Turn Down
Osteotomize the tibial tubercle
Rectus snip

89. Issues with Surgical Techniques
Stiff Knee
Epicondylar osteotomy for large flexion / contracture
Lateral release to evert the patella

93. Issues with Surgical Techniques
Patellar resurfacing
Recommended for all RA patients
Without resurfacing 4% to 6% incidence of anterior knee pain
With resurfacing increased incidence of fracture

95. Issues with Surgical Techniques
Patellar resurfacing
Thickness shouldn’t exceed 25 mm
For every 1 mm thicker reduces flexion by 3º

99. Issues with Surgical Techniques
Patellar Baja
Proximal tibial osteotomy
Tibial tubercle shift
Prior fracture

100. Issues with Surgical Techniques
Patellar Baja
Don’t raise joint line
Consider lowering joint line
— Distal femoral alignment
Trim anterior tibial poly to avoid impingement of patella

101. Issues with Surgical Techniques
Patellar Clunk Syndrome
— Seen at 35º-40º knee flexion
— Treatment is arthroscopic or open resection

102. Issues with Surgical Techniques Sagittal Plane Balancing
Situation Problem Solution
Cut Tight Symmetrical – cut more in extension gap proximal tibia Cut Tight in flexion
Cut Tight Asymmetrical – Release PCL; in extension gap Posterior capsule Cut Loose Consider PCL in flexion substituting prosthesis
– Resection distal femur AVOID recurvatum

103. Issues with Surgical Techniques Sagittal Plane Balancing
Situation Problem Solution
Cut Good Asymmetrical – Resection additional in extension gap tibia
Cut Tight in flexion – May need to release PCL – Ensure posterior slope of tibia
Cut Good Asymmetrical – Need femoral in extension gap augmentation
Cut Loose – Adjust to larger in flexion femoral component

104. Complications in Total Knee Arthroplasty
Periprosthetic Fractures
Infected Total Knee Arthroplasty

105. After Total Knee Arthroplasty
Supracondylar Fractures of the Femur
After Total Knee Arthroplasty

106. Supracondylar Fractures After TKR
Notching of the femoral cortex
Osteoporosis
Prolonged steroid use
Preexisting neurologic disorders

108. Supracondylar Fractures After TKR
OSTEOPOROSIS
Bogoch, et al, CORR 1986

110. Supracondylar Fractures After TKR
Major trauma is not required to produce fractures in many TKA patients
Alignment not correlated with fracture
Weight not a significant factor

111. Fractures After TKA Neer Classification of Supracondylar Fractures
Type I - Minimal displacement
Type IIA - Medial displacement of condyles
Type IIB - Lateral displacement of condyles
Type III - Supracondylar and shaft fractures

112. Supracondylar Fractures After TKR
TREATMENT
Type 1 – Nondisplaced

113. Supracondylar Fractures After TKR
Type 1 fractures 83% success rate
Chen, et al, 1994

115. Supracondylar Fractures After TKR
Type 2 fractures 69% success rate
Chen, et al, 1994

116. Supracondylar Fractures After TKR
Non Operative Method
Casting
Traction followed by rest

117. Supracondylar Fractures After TKR
Type 2 fractures 67% success rate
Chen, et al, 1994

118. Supracondylar Fractures After TKR
Operative Method
Plates / Screw fixation
Intramedullary rods
Rush pins
External fixation
Primary arthrodesis
Revision arthroplasty

119. Supracondylar Fractures After TKR
Type 2 Considerations
Patients’ ability to tolerate traction
Ability of bone to hold screws
Ability of the surgeon

122. Intercondylar Distances of Commonly Used Femoral Prostheses
Intercondylar Distance (Smallest Size) (mm)
Manufacturer
Model
Biomet, (Warsaw, IN) AGC Universal 18
DePuy, (Warsaw, IN) AMK 20
Dow Corning Wright, (Arlington, TN) Whitesides modular 20 Howmedica, (Rutherford, NJ) PCA 18.5 Intermedics, (Austin, TX) Natural 14 Johnson and Johnson, (New Brunswick, NJ) Press-fit condylar 20 Insall-Burstein* (posterior stabilized)
Kirschner, (Timonium, MD) Performance 14 Zimmer, (Warsaw, IN) Insall-Burstein I* 16 Insall-Burstein II (posterior stabilized* or constrained condylar†) Miller-Galante I Small / small + ‡ Regular / regular Large / large Large Miller-Galante II 13

124. Supracondylar Fractures After TKR
No one form of treatment gives uniformly good results

125. Infection in Total Knee Arthroplasty

126. Complications in Arthroplasty
Infection – Risk Factors
Skin ulcerations / necrosis
Rheumatoid Arthritis
Previous hip/knee operation
Recurrent UTI
Oral corticosteroids

127. Complications in Arthroplasty
Infection – Risk Factors
Chronic renal insufficiency
Diabetes
Neoplasm requiring chemo
Tooth extraction

128. Complications in Arthroplasty
Infection – Clinical Course
Pain #1
Swelling
Fever
Wound breakdown drainage
Windsor et al JBJS; 1990

129. Early < 3 months Lab Value Infections About TKR
 Mayo Series  Mean 7,500
Differential 67 PMN’s
Sed rate 71 mm/hr
Arthrocentesis

130. Late > 3 months Symptoms: 52 patients
Infections About TKR
Late > 3 months
Symptoms: 52 patients
 Pain 96%  swelling 77%  Debride 27%  Active drainage 27%  Sed rate 63 mm/hr  WBC
Windsor et al JBJS; 1990

131. Complications in Arthroplasty
Infection – Surgical Techniques
Avoid skin bridges
Avoid creation of skin flaps
Hemostasis
Prolonged operating time

133. Complications in Arthroplasty
Infection – Work-Up
Wound History
Physical Exam
Serial Radiographs
Lab/sed rate/CRP
Bone scan / Indium scan

135. Complications in Arthroplasty
Infection
Arthrocentesis
Cell count
Diff > 25,000 pmn
Protein – high
Glucose – low

136. Complications in Arthroplasty
Infection
Host Response
Glycocalyx
Gristina JBJS; 1983

138. Micro Organisms

139. Organisms Isolated from 71 Patients With Infected Knee Replacement
Percent
Staphylococcus 64
S. aureus, penicillin sensitive S. aureus, penicillin resistant 28 S. epidermis 22
Gram negative 12 Pseudomonas 7 Escherichia coli 5
Anærobic 6
Other 17

140. Complications in Arthroplasty
Treatment Options
Antibiotic suppression
Aggressive wound debridement

141. Complications in Arthroplasty
Treatment Options
Antibiotic suppression
Indicated in med compromised
Organism - gram+ strep staphepi

142. Complications in Arthroplasty
Treatment Options
Resection arthroplasty
2 Stage re-implant
Arthrodesis
Amputation

143. Complications in Arthroplasty
Treatment Options
Debridement with antibiotic suppression therapy
Strep/staphepi -- best
Avoid repeated attempts
Frozen tissue section
Suction drains

144. Complications in Arthroplasty
Two-Stage Reimplantation
Most successful treatment
Procedure of choice

145. Complications in Arthroplasty
Two-Stage Reimplantation Procedure
Remove components, cement, I&D
Fabricate and place spacer
6 weeks of antibiotics
Reimplantation

146. Complications in Arthroplasty
Two-Stage Reimplantation Stage I
create antibiotic spacer impregnated with antibiotics
wound closure

148. Complications in Arthroplasty
Two-Stage Reimplantation
Spacer Antibiotic Regimen
Tobramycin 2.4 gm/3.6 gm per gms of PMMA
Vancomycin > gm to 1 gm per gms of PMMA

149. Complications in Arthroplasty
Intra-operative Frozen Section
< 5 PMN’s per HPF – no infection
> 10 PMN’s per HPF – infection
Mirra; JBJS

150. Complications in Arthroplasty
Results — Gm positive
Windsor et al 92 % JBJS 1990
Insall et al 97% JBJS 1983

151. Complications in Arthroplasty
Resection Arthroplasty
Removal all components
Remove all cement
Effective in medically compromised patient

152. Complications in Arthroplasty
Arthrodesis Indications
Extensor mechanism disruption
Resistant bacteria
Inadequate bonestock
Inadequate soft tissues
Young patient

153. Advantages  Definitive treatment  Little chance of recurrence
Arthrodesis
Advantages
 Definitive treatment
 Little chance of recurrence

154. Disadvantages  Difficulty with transfers / small spaces
Arthrodesis
Disadvantages
 Difficulty with transfers / small spaces
 Increase energy requirements

155. Algorithm TKA Clinical Sepsis (GRAM + Organism) < 3 wks > 3 wks
Infections About TKR
Algorithm
(GRAM + Organism)
TKA Clinical Sepsis
< 3 wks
> 3 wks
Debridement Antibiotics (6 wks)
2-Stage Replant

156. Debridement Antibiotics
Infections About TKR
Algorithm
Debridement Antibiotics
2-stage Replant
No Success
No Success
Success
Success
Arthrodesis
2-stage Replant
Resection Arthroplasty

157. Thank You