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knee biomechanics

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Sudheer Kumar
Sudheer Kumar

knee biomechanics

Health & Medicine
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 The knee is a mechanism of three joints and Four bones - the femur, tibia, patella and fibula  Interact in separate joints - the tibiofemoral & patellofemoral  The function of these joints is to allow certain movements, restrict others, and to provide load transfer through the lower limb.
Tibiofemoral joint rotations translations screw home mechanism  Axial & rotational alignment of knee  Patello femoral joint  Joint forces 
 Rotations › Flexion/extension-0 to 1350 › varus valgus - 6-8o in extension › Int/ext rotation - 25 – 300 in flexion  Translations › AP 5 - 10mm › comp/dist 2 - 5mm › medio-lateral 1-2mm
 flexion axis varies in a helical fashion in a normal knee, with an average of 2 mm of posterior translation of the medial femoral condyle on the tibia during flexion compared with 21 mm of translation of the lateral femoral condyle.  Relevance :posterior rollback › as the knee flexes, the instant center of rotation on the femur moves posteriorly
 flexion axis as varying in a helical fashion
allows for increased knee flexion by avoiding impingement
   the external rotation of the tibia on the femur during extension and internal rotation of the tibia during knee flexion. cause › medial tibial plateau articular surface is longer than lateral tibial plateau(Medially based pivoting of the knee.) relevance › "locks" knee decreasing the work performed by the quadriceps while standing
 mechanical axis of the lower limb is defined as the line drawn on a standing long leg antero posterior radiograph from the center of the femoral head to the center of the talar dome  anatomical axes of the femur and the tibia form a valgus angle of 6 2 degrees.  the tibial articular surface is in approximately 3 0of varus with respect to the mechanical axis, and the femoral articular surface is in 90 of valgus.
"sliding" articulation › patella moves 7cm caudally during full flexion  maximum contact between femur and patella is at 45 degrees of flexion   The primary function of the patella is to increase the lever arm of the extensor mechanism around the knee, improving the efficiency of quadriceps contraction.
 The quadriceps and patellar tendons insert anteriorly on the patella, with the thickness of the patella displacing their respective force vectors away from the center of rotation of the knee .  This displacement or lengthening of the extensor lever arm changes throughout the arc of knee motion.  the extensor lever arm is greatest at 20 degrees of flexion, and the quadriceps force required for knee extension increases significantly in the last 20 degrees of extension
 The length of the lever arm varies as a function of the geometry of the trochlea, the varying patellofemoral contact areas, and the varying center of rotation of the knee.
passive restraints to lateral subluxation › medial patellofemoral ligament  primary passive restraint to lateral translation in 20 degrees of flexion  60% of total restraining force › medial patellomeniscal ligament  13% of total restraining force › lateral retinaculum  10% of total restraining force  dynamic restraint › quadriceps muscles 
  The angle between the extended anatomical axis of the femur & the line between the center of the patella & the tibial tubercle normal Q angle › in flexion  males  13 degrees  females  18 degrees › in extension  8 degrees
 Limbs with larger Q angles have a greater tendency for lateral patellar subluxation.  Because the patella does not contact the trochlea in early flexion, lateral subluxation of the patella in this range is resisted primarily by the vastus medialis obliquus fibers.
Position  Standing on both feet  Swing phase  u/l stance phase –  Jogging – force acting on joint equal to body wt 1/2 x b.wt 2-4 x b.wt 6x b.wt
 Walking › 0.3 x body weight  Ascending Stairs › 2.5 x body weight  Descending Stairs › 3.5 x body weight  Squatting › 7 x body weight
Prevent anterior tibial displacement on femur  Secondarily, prevents hyperextension, varus & valgus stresses  Least stress on ACL between 30-60 degrees of flexion  Anteromedial bundle tight in flexion & extension Posterior lateral bundle tight only in extension
Primary stabilizer of the knee against posterior movement of the tibia on the femur  resists rotation, esp.internal rotation of tibia on femur  Two bundles  Anterolateral, taut in flexion  Posteromedial, taut in extension
knee biomechanics

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knee biomechanics

  • 1.
  • 2.  The knee is a mechanism of three joints and Four bones - the femur, tibia, patella and fibula  Interact in separate joints - the tibiofemoral & patellofemoral  The function of these joints is to allow certain movements, restrict others, and to provide load transfer through the lower limb.
  • 3. Tibiofemoral joint rotations translations screw home mechanism  Axial & rotational alignment of knee  Patello femoral joint  Joint forces 
  • 4.  Rotations › Flexion/extension-0 to 1350 › varus valgus - 6-8o in extension › Int/ext rotation - 25 – 300 in flexion  Translations › AP 5 - 10mm › comp/dist 2 - 5mm › medio-lateral 1-2mm
  • 5.
  • 6.  flexion axis varies in a helical fashion in a normal knee, with an average of 2 mm of posterior translation of the medial femoral condyle on the tibia during flexion compared with 21 mm of translation of the lateral femoral condyle.  Relevance :posterior rollback › as the knee flexes, the instant center of rotation on the femur moves posteriorly
  • 7.  flexion axis as varying in a helical fashion
  • 8. allows for increased knee flexion by avoiding impingement
  • 9.    the external rotation of the tibia on the femur during extension and internal rotation of the tibia during knee flexion. cause › medial tibial plateau articular surface is longer than lateral tibial plateau(Medially based pivoting of the knee.) relevance › "locks" knee decreasing the work performed by the quadriceps while standing
  • 10.  mechanical axis of the lower limb is defined as the line drawn on a standing long leg antero posterior radiograph from the center of the femoral head to the center of the talar dome  anatomical axes of the femur and the tibia form a valgus angle of 6 2 degrees.  the tibial articular surface is in approximately 3 0of varus with respect to the mechanical axis, and the femoral articular surface is in 90 of valgus.
  • 11.
  • 12. "sliding" articulation › patella moves 7cm caudally during full flexion  maximum contact between femur and patella is at 45 degrees of flexion   The primary function of the patella is to increase the lever arm of the extensor mechanism around the knee, improving the efficiency of quadriceps contraction.
  • 13.  The quadriceps and patellar tendons insert anteriorly on the patella, with the thickness of the patella displacing their respective force vectors away from the center of rotation of the knee .  This displacement or lengthening of the extensor lever arm changes throughout the arc of knee motion.  the extensor lever arm is greatest at 20 degrees of flexion, and the quadriceps force required for knee extension increases significantly in the last 20 degrees of extension
  • 14.  The length of the lever arm varies as a function of the geometry of the trochlea, the varying patellofemoral contact areas, and the varying center of rotation of the knee.
  • 15. passive restraints to lateral subluxation › medial patellofemoral ligament  primary passive restraint to lateral translation in 20 degrees of flexion  60% of total restraining force › medial patellomeniscal ligament  13% of total restraining force › lateral retinaculum  10% of total restraining force  dynamic restraint › quadriceps muscles 
  • 16.   The angle between the extended anatomical axis of the femur & the line between the center of the patella & the tibial tubercle normal Q angle › in flexion  males  13 degrees  females  18 degrees › in extension  8 degrees
  • 17.  Limbs with larger Q angles have a greater tendency for lateral patellar subluxation.  Because the patella does not contact the trochlea in early flexion, lateral subluxation of the patella in this range is resisted primarily by the vastus medialis obliquus fibers.
  • 18. Position  Standing on both feet  Swing phase  u/l stance phase –  Jogging – force acting on joint equal to body wt 1/2 x b.wt 2-4 x b.wt 6x b.wt
  • 19.  Walking › 0.3 x body weight  Ascending Stairs › 2.5 x body weight  Descending Stairs › 3.5 x body weight  Squatting › 7 x body weight
  • 20. Prevent anterior tibial displacement on femur  Secondarily, prevents hyperextension, varus & valgus stresses  Least stress on ACL between 30-60 degrees of flexion  Anteromedial bundle tight in flexion & extension Posterior lateral bundle tight only in extension
  • 21. Primary stabilizer of the knee against posterior movement of the tibia on the femur  resists rotation, esp.internal rotation of tibia on femur  Two bundles  Anterolateral, taut in flexion  Posteromedial, taut in extension