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KNEE JOINT

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KNEE JOINT It is the largest and most complicated joint in the body. FUNCTIONS 1. Weight bearing. 2.Essential for daily activities: standing walking & climbing stairs ... – PowerPoint PPT presentation

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Title: KNEE JOINT


1
KNEE JOINT
  • It is the largest and most complicated joint in
    the body.

2
FUNCTIONS
  • 1. Weight bearing.
  • 2.Essential for daily activities standing
    walking climbing stairs.
  • 3.The main joint responsible for sports
    running, jumping , kicking etc.

3
ARTICULATING BONES
  • 1. Lateral and medial articulations between the
    tibial condyles and their cartilaginous menisci
    and the corresponding femoral condyles.

4
ARTICULATING BONES
  • 2. Intermediate articulation between the patella
    and femur.

5
THE FEMORAL CONDYLES
  • The medial extends further forwards .
  • The lateral is more oval.
  • The condyles are convex from front to back.

6
TIBIAL CONDYLES
  • (PLATEAUS) are flat .
  • The medial is oval The lateral is round.
  • The articular surfaces are covered with hyaline
    cartilage.

7
TYPE
  • A synovial joint of the hinge variety between
    the medial and lateral condyles of the femur and
    the corresponding tibial condyles with some
    degree of rotation.

8
TYPE
  • A synovial joint of the plane gliding variety
    between the patella and the patellar surface of
    the femur.

9
CAPSULE
  • It is absent Anteriorly.
  • It is
  • Replaced by
  • Quadriceps femoris tendon.
  • Patella.
  • Ligamentum patellae.

10
CAPSULE
  • Posteriorly
  • (a) Superior
  • Attached proximal to the articular margins of the
    femoral condyles and to the intercondylar fossa.
  • It is deficient above the lateral condyle for the
    passage of tendon of popliteus.

11
CAPSULE
  • (b) Inferior
  • Attached to the tibia EXCEPT when the tendon of
    Popliteus crosses the bone.

12
EXTRACAPSULAR LIGAMENTS
  • 1. Ligamentum Patellae
  • It is the inter mediate part of the tendon of
    quadriceps femoris .It is supported by the
    patellar retinaculi (expansions from the vasti)
  • They strengthen the capsule on each side.

13
2. TIBIAL (MEDIAL) COLLATERAL
  • A flat band.
  • Attachment
  • Above to the medial condyle of the femur.
  • Below to the medial surface of the shaft of the
    tibia.
  • Firmly attached to the medial meniscus.

14
3. LATERAL (FIBULAR) COLLATERA
  • Cord like.
  • Attachment
  • Above lateral condyle of the femur.
  • Below head of the fibula.
  • Separated from the lateral meniscus by the tendon
    of popliteus.

15
4. OBLIQUE POPLITEAL
  • An expansion of the Semimembranosus.
  • It strengthens the capsule posteriorly.

16
INTRA CAPSULAR STRUCTURES
  • 1. CRUCIATE LIGAMENTS.
  • 2. MENISCI.
  • 3. TENDON OF POPLITEUS.

17
CRUCIATE LIGAMENTS
  • They are the main bond between the femur and
    tibia throughout the joints movements.
  • They Cross each other within the joint cavity.
  • They are named Anterior and Posterior according
    to their tibial attachments.

18
ANTERIOR CRUCIATE
  • Tibial attachment
  • Anterior intercondylar area.
  • Course
  • Upward, backward and laterally.
  • Femoral attachment
  • Posterior part of medial surface of the lateral
    condyle.

19
ANTERIOR CRUCIATE
  • FUNCTION
  • Prevent posterior displacement of the femur on
    the tibia and the tibia from being pulled
    anteriorly when the knee joint is flexed.
  • It is taught in hyper extension.

20
POSTERIOR CRUCIATE
  • Tibial attachment
  • posterior inter condylar area.
  • Direction
  • upward, forward and medially.
  • Femoral attachment
  • Anterior part of the lateral surface of the
    medial condyle.

21
POSTERIOR CRUCIATE
  • Function
  • prevents anterior displacement of the femur on
    the tibia and the tibia from being pulled
    posteriorly when the knee joint is flexed.
  • It is taught in hyper flexion.

22
MENISCI
  • C shaped sheets of fibro cartilage.
  • The peripheral border is thick and attached to
    the capsule.
  • The inner border is thin and concave and forms a
    free edge.

23
MENISC
  • The upper concave surfaces are in contact with
    the femoral condyles.
  • The lower flat surfaces are in contact with the
    tibial condyles.

24
MENISCI
  • Functions
  • 1. Deepen the tibial articular surfaces.
  • 2. Act as cushions between the two bones.

25
MEDIAL MENISCUS
  • Crescentic in shape.
  • More liable to injury due to its attachment to
    the medial collateral ligament and to the
    capsule.
  • It is relatively immobile.

26
LATERAL MENISCUS
  • More rounded in shape.
  • Its anterior and posterior ends lie within the
    ends of the medial meniscus.
  • Posteriorly it is separated from the fibular
    collateral ligament by the tendon of popliteus.
  • Less liable to injury.

27
INJURY OF THE MENISCI
  • The menisci are frequently injured especially in
    footballers and cricketers.
  • The medial is torn three times more often than
    the lateral.
  • The injury is produced by the rotation of the
    femur on the tibia or the reverse with the knee
    joint partially flexed and carries the weight of
    the body.

28
INJURY OF THE MENISCI
  • The torn part of the meniscus is wedged between
    the tibial and femoral condyles.
  • No further movement is allowed and the joint is
    kept locked.

29
SYNOVIAL MEMBRANE
  • It lines the lateral and medial parts of the
    capsule.
  • Anteriorly
  • It forms the supra patellar bursa.
  • It is attached to the inter condylar area of the
    tibia and to the lateral and medial borders of
    the patella.

30
SYNOVIAL MEMBRANE
  • It is reflected backward from the posterior
    surface of the ligamentum patellae to form the
    Infrapatellar fold.
  • The free borders of the fold are the Alar folds.
  • The space between these folds contains fat
    (Infrapatellar pad of fat).

31
SYNOVIAL MEMBRANE
  • Posteriorly
  • It Passes out to surround the cruciate
    ligaments.
  • It is continuous with the surface layer of the
    menisci.
  • It covers the tendon of popliteus and forms a
    bursa around it (popliteal bursa).
  • It forms the semimembranosus bursa.

32
ANTERIOR BURSAE
  • They are four
  • 1. Suprapatellar
  • It is 3 fingerbreadths above the patella.
  • Always continuous with the joint cavity.
  • Held in position by the articularis genus muscle.
  • Accumulation of fluid in the joint causes excees
    fluid in the bursa leading to floating patella.

33
ANTERIOR BURSAE
  • 2. Prepatellar
  • If enlarged it causes (House Maids) bursa.

34
ANTERIOR BURSAE
  • 3.Superficial Infrapatellar. (PARSONS bursa
  • 4.Deep Infrapatellar.

35
POSTERIOR BURSAE (6)
  • 1. POPLITEAL
  • Always continuous with the joint cavity.
  • 2.SEMIMEMBRANOSU
  • Usually communicates with the joint cavity.
  • 3 4. GASTROCNEMIUS
  • Around sartorius,gracilis and semitendinosus.

36
MOVEMENTS
  • 1. FLEXION
  • Hamstrings( supplied by the sciatic nerve).
  • Assisted by sartorius, popliteus and gracilis.
  • Checked by back of calf in contact with the back
    of the thigh.

37
MOVEMENTS
  • 2. EXTENSION
  • Quadriceps Femoris (supplied by the femoral
    nerve.)
  • Limited by tension of the cruciate and collateral
    ligaments.

38
MOVEMENTS
  • 3. ROTATION
  • (A) MEDIAL Sartorius, gracilis and
    semitendinosus.
  • (B) LATERAL Biceps femoris

39
NERVE SUPPLY
  • Femoral.
  • Obturator.
  • Sciatic.
  • Common peroneal.
  • Tibial.

40
UNLOCKING
  • At the commencement of Flexion of the extended
    knee.
  • Aim
  • To slack the ligaments especially the cruciate.
  • FEMUR Lateral rotation (the foot is on the
    ground)
  • TIBIA Medial rotation.
  • Muscle POPLITEUS

41
LOCKING
  • The joint assumes the position of full extension.
  • It becomes a rigid structure.
  • The menisci are compressed between the tibial and
    femoral condyles.
  • Tightening of all the major ligaments.
  • The femur is medially rotated on the tibia.

42
RELATIONS
  • Anterior
  • Prepatellar bursa.

43
RELATIONS
  • Posterior
  • Boundaries and contents of Popliteal Fossa.
  • Medial
  • SGS muscles.
  • Lateral
  • Biceps femoris and common peroneal nerve.

44
STABILITY
  • 1. Muscles
  • QUADRICEPS particularly the inferior fibers of
    the vasti lateralis and medialis.
  • Many sport injuries can be preventable through
    appropriate training and conditioning of the
    muscle.

45
STABILITY
  • 2. Ligaments
  • The knee joint can function well following a
    ligamentous strain if the quadriceps is intact.

46
INJURY OF THE JOINT
  • TRIAD OF INJURY
  • 1. Medial collateral ligament.
  • 2. Medial meniscus.
  • 3. Anterior cruciate ligament.
  • The joint becomes swollen because it is filled
    with blood (hemarthrosis).

47
ANTERIOR CRUCIATE INJURY
  • Tear of the anterior cruciate ligament is more
    common than the posterior.
  • The tibia can be pulled excessively forward on
    the femur

48
POSTERIOR CRUCIATE INJURY
  • The tibia can be pulled excessively backward on
    the femur.

49
INJURY OF THE CRUCIATE LIGAMENTS
  • Management
  • Knee is kept immobilized in slight flexion.
  • Active physiotherapy of the quadriceps femoris at
    once.
  • Operative repair (incase of torn of the capsule
    and collateral ligaments).

50
ANKLE JOINT
  • TYPE
  • Hinge synovial
  • ARTICULATING BONES
  • 1. Lower end of the tibia
  • 2. Two malleoli.
  • 3. Body of the talus.
  • 4. The inferior transverse tibiofibular ligament
    deepens the socket for the body of the talus.

51
ANKLE JOINT CONTD
  • CAPSULE
  • Encloses the joint and attached near the
    articular margins except anteriorly where
    anteriorly it is attached to the neck of the
    talus in front of the articular edge.
  • It is thin in front and behind.
  • Posteriorly it fuses with the inferior
    transverse tibiofibular ligament.

52
SYNOVIAL MEMBRANE
  • Lines the capsule.
  • Reflected anteriorly on to the neck of the talus
    as far as the articular cartilage.
  • May extend a short distance between the tibia and
    fibula.

53
LIGAMENTS
  • MEDIAL( DELTOID)
  • Attached by its apex to the tip of the medial
    malleolus.
  • Composed of deep and superficial fibers.
  • DEEP FIBERS
  • Attached to the non articular area on the medial
    surface of the body of the talus.
  • SUPERFICIAL FIBERS
  • Attached to

54
LIGAMENTS CONTD
  • Sustentaculum tali.
  • Plantar calcaneonavicular ligament.
  • Medial side of talus.
  • Tuberosity of navicular bone.

55
  • LATERAL LIGAMENT
  • Weaker than the medial.
  • It consists of three bands
  • 1. ANTERIOR TALOFIBULAR
  • Between the lateral malleolus and the lateral
    surface of the talus.
  • 2. CALCANEOFIBULAR
  • From the tip of the lateral malleolus to the
    lateral surface of the calcaneum.

56
  • 3. POSTERIOR TALOFIBULAR
  • Between the lateral malleolus and the posterior
    tubercle of the talus.

57
STABILITY OF THE JOINT
  • 1. Shape of the articulating bones.
  • 2. Strength of the ligaments.
  • 3.The surrounding tendons.

58
RELATIONS
59
MOVEMENTS
  • DORSIFLEXION
  • Tibialis anterior, extensors of the digits and
    big toe, peroneus tertius.
  • LIMITED BY
  • Tension of tendo calcaneus.
  • Posterior fibers of the medial ligament.
  • Calcaneofibular ligament.

60
  • PLANTAR FLEXION
  • Tibialis posterior, peroneus (longus and brevis)
    gastrocnemius.
  • LIMITED BY
  • Tension of opposing muscles.
  • Anterior fibers of the medial ligament.
  • Anterior talofibular ligament.

61
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