1 / 25

Knee Conditions

Knee Conditions. Chapter 15. Anatomy. Large synovial joint Two condylar articulations Medial tibiofemoral joint Lateral tibiofemoral joint Gliding joint Patellofemoral joint. Bones. Femur Medial epicondyle Lateral epicondyle Linea aspera Tibia Medial tibial plateau

oshin
Download Presentation

Knee Conditions

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Knee Conditions Chapter 15

  2. Anatomy • Large synovial joint • Two condylar articulations • Medial tibiofemoral joint • Lateral tibiofemoral joint • Gliding joint • Patellofemoral joint

  3. Bones • Femur • Medial epicondyle • Lateral epicondyle • Linea aspera • Tibia • Medial tibial plateau • Lateral tibial plateau • Fibula

  4. Tibiofemoral Joint • Modified hinge joint allowing some lateral and rotational motions to occur as well. • Lateral epicondyle is larger than medial. • Because of size difference there is a screwing home mechanism to bring the knee into full extension.

  5. Menisci • Semilunar fibrocartilage (half moon shapes) • Attach to the superior plateaus of the tibia. • Absorption and dissipation of force • Lubrication • Medial meniscus is semicircular and attaches to the medial collateral ligament • Lateral meniscus is almost a complete circle and attaches to the posterior cruciate ligament

  6. Bursae • Suprapatellar bursa, lies between the femur and quadriceps femoris tendon • Subpopliteal bursa, lies between the femur and the popliteal muscle • Semimembranosus bursa, lies between the medial head of the gastrocnemius and the semimembranosus tendon. • Prepatellar bursa, lies between the skin and the anterior surface of the patella

  7. Bursae continued • Superficial infrapatellar bursa is located between the skin and the patellar tendon. • Deep infrapatellar bursa is located between the tibial tubercle and the infrapatellar tendon.

  8. Ligaments • Anterior Cruciate Ligament (ACL), attaches anteriorly on the tibia, and to the posterior surface of the lateral femoral condyle. • Prevents: • Anterior translation of the tibia on a fixed femur • Posterior translation of the femur on a fixed tibia • Internal and external rotation of the tibia on the femur • Hyperextension of the tibia

  9. Ligaments continued • Posterior Cruciate Ligament (PCL), attaches posteriorly to the tibia, and to the anterior surface of the lateral medial condyle of the femur. • Prevents: • Posterior displacement of the tibia on a fixed femur.

  10. Ligaments continued • Medial collateral ligament (MCL) connects from the medial condyle of the femur to the medial tibia through the medial meniscus. • Prevents: • Medially directed shear forces (valgus) • Rotational forces

  11. Ligaments continued • Lateral collateral ligament (LCL) connects from the lateral condyle of the femur to the head of the fibula. • Prevents: • Laterally directed shear forces (Varus) • External rotation of the tibia

  12. Ligaments continued • Arcuate-popliteal complex composed of the semimembranosus tendon and the popliteal ligament connects the lateral condyle of the femur to the head of the fibula. • Prevents: • Anterior displacement of the tibia relative to the femur. • Hyperextension of the knee • Hyperflexion of the knee

  13. Patellofemoral joint • Triangular bone (Patella) rests between the femoral condyle to form the patellofemoral joint. • Three distinct facets • Increases angle of pull on the patellar tendon • Glides between the femoral Trochlear groove

  14. Patellofemoral joint cont. • Greatest compressive forces occur when the knee is in 30 deg. Of flexion. • Patellar positioning is maintained by: • Lateral retinaculum • Medial retinaculum • Medial patellofemoral ligament • Lateral patellofemoral ligament

  15. Rectus femoris (ext) Vastus lateralis (ext) Vastus intermedius (ext) Vastus medialis (ext) Semitendinosis (flex) Semimembranosus (flx) Biceps femoris (flex) Sartorius (flex) Gracilis (flex) Popliteus (flex) Gastrocnemius (flex) Plantaris (flex) Muscles of the Knee

  16. Nerves • L4 • L5 • S1 • S2 • S3

  17. Kinematics • Flexion primarily carried out by the hamstrings assisted by gastroc, popliteus, gracilis, and sartorius. • Secondary responsibility of these muscles is to rotate the tibia • Extension primarily carried out by the quadriceps group.

  18. Contusions • Fat Pad Contusion • Peroneal Nerve Contusion

  19. Bursitis • Prepatellar • Deep infrapatellar bursitis • Pes anserine bursitis • Tibial collateral bursitis

  20. Ligamentous Injuries • Straight valgus • Straight varus • Straight anterior • Straight posterior • Anteromedial rotary • Anterolateral rotary • Posteromedial rotary • Posteroladeral rotary

  21. Knee Dislocations

  22. Meniscal Injuries • Longitudinal • Bucket-handle • Horizontal • Parrot-beak

  23. Patellar and Related injuries • Patellofemoral stress syndrome • Chondromalacia Patellae • Patellar Instability and Dislocations • Patella Plica Syndrome • Patellar Tendinitis • Osgood-Schlatter Disease • Sinding-Larsen-Johansson’s Disease • Extensor Tendon Rupture

  24. IT Band Friction Syndrome

  25. Fractures • Avulsion • Epiphyseal and Apophyseal • Tibial Tubercle • Distal Femoral Epiphyseal • Stress Fractures • Chondral and Osteochondral Fractures • Osteochondritis Dissecans • Patellar Fractures

More Related