Functional Anatomy of the Knee

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Introduction[edit | edit source]

Anatomy Basic Vocabulary[edit | edit source]

Axes: lines around which an object rotates. The rotation axis is a line that passes through the centre of mass. There are three axes of rotation: sagittal passing from posterior to anterior, frontal passing from left to right, and vertical passing from inferior to superior. The rotation axes of the foot joints are perpendicular to the cardinal planes. Therefore, motion at these joints results in rotations within three planes. Example: supination involves inversion, internal rotation, and plantarflexion.

Bursae: reduces friction between the moving parts of the body joints. It is a fluid-filled sac. There are four types of bursae: adventitious, subcutaneous, synovial, and sub-muscular.

Capsule: one of the characteristics of the synovial joints. It is a fibrous connective tissue which forms a band that seals the joint space, provides passive and active stability and may even form articular surfaces for the joint. The capsular pattern is "the proportional motion restriction in range of motion during passive exercises due to tightness of the joint capsule."[1]

Closed pack position: the position where there is the most congruency of the joint surfaces. In this position, joint stability increases. The closed pack position for interphalangeal joints is at full extension.

Degrees of freedom: the direction of joint movement or rotation; there is a maximum of six, including three translations and three rotations.

Ligament: fibrous connective tissue that holds the bones together.

Open (loose) pack position: position with least amount of joint congruency where joint stability is reduced.

Planes of movement: describe how the body moves. Up and down movements (flexion/extension) occur in the sagittal plane. Sideway movements (abduction/adduction) occur in the frontal plane. Movements in the transverse plane are rotational (internal and external rotation).

Knee Structure[edit | edit source]

The knee joint include four bones: distal end of the femur, proximal end of the tibia, patella and the proximal part of the fibula. Only the fibula is indirectly involved in the knee joint.

  • Prominent lateral and medial condyles are found at the distal end of the femur. Projecting from each condyle is an epicondyle that act as attachment sites for the collateral ligaments. The lateral and medial condyles are separated by the intercondylar notch. [2]
  • The proximal end of the tibia terminates in a broad, flat region called the tibial plateau. The intercondylar eminence runs down the midline of the plateau, separating the medial and lateral condyles of the tibia. The two condyles form a flat, broad surface for articulation with the medial and lateral condyles of the femur. [3]
  • The patella articulates with the femur to form the patellofemoral joint. It functions as a fulcrum to increase extension power of the quadriceps and serves as a stabilising structure that reduces frictional forces placed on femoral condyles.
  • A enlarged pointed head and small neck form the proximal part of the fibula.

Bones and Articulations of the Knee[edit | edit source]

Bones Articulations Characteristic Key palpation
Tibia

Femur

Tibiofemoral joint Joint articulation occurs between the medial and lateral femoral and tibial condyles. The tibiofemoral joint has two crescent-shaped fibrocartilaginous structures, a lateral and a medial meniscus, attached to the tibial plateaus through coronary ligaments. Both menisci are concaved superiorly to accommodate the surfaces of the femoral condyles. Its role is to increase the contact area between the tibial and femoral articular surfaces, thus increasing the joint's stability. To palpate the femoral condyle, flex the knee and locate the knee joint line by grabbing and rotating the tibia. The rotation movement of the tibia helps to mark the joint line. Return the lower leg to full extension and keep the fingers on the joint line. The medial condyle can be palpated above the medial side of the joint line, and the lateral condyle is located above the lateral side of the joint line. The medial epicondyle is the most medial location on the medial condyle, similar to the lateral one on the lateral condyle, known as the lateral epicondyle.

To palpate the tibial tuberosity start with locating the patella. Move your finger down, pass the apex of the patella and keep moving untill you feel the bump on the anterior part of the tibia.

Femur

Patella

Patellofemoral joint Joint articulation is located between the anterior aspect of the distal femur and the posterior surface of the patella.
Tibia

Fibula

Superior (Proximal) Tibiofibular joint STFJ is made up of the tibial facet on the posterolateral aspect of the tibial condyle and the fibular facet on the medial upper surfaces of the head of the fibula. To palpate the the fibula, place the patient supine and find tibial tuberosity. Because the head of the fibula is in direct line with the tibial tuberosity, move your finger in a lateral direction until you reach a bony landmark located more posterior than anterior. To verify the location of the head of the fibula, place your finger on this landmark and ask the patient to evert the foot. Your finger should move up and down as the patinet activates the fibularis longus with its proximal attachement on the head of fibula.

Knee Kinematics[edit | edit source]

Joint Type of Joint Plane of Movement Motion Kinematics Closed pack position Open pack position
Tibiofemoral (TFJ) Modified hinge Saggital

Transverse

Flexion and Extension

Internal and External Rotation of the tibia in relation to the femur when the knee is flexed.

Normal range of motion:

Extension: 0 degree

Flexion: 140 degrees

Internal and External Rotation of the tibia in relation to the femur is possible only when the knee is flexed.

Full extension 25 degrees of flexion.
Patellofemoral Joint (PFJ) Saddle Superior/inferior glide

Medial and lateral glide

Medial and lateral tilt

Medial and lateral rotation.

At full knee extension patella is resting on the suprapatellar fat pad.

At 20-30 degrees of knee flexion, the patella moves inferiorly, lying in the shallow part of the intercondylar groove, the patella contacts the femur with its inferior pole.

The patella occupies the intercondylar groove at 60-90 degrees of knee flexionhere is maximum contact between the patella and the intercondylar groove (1/3 of the posterior surface area of the patella).

At 135 degrees of knee flexion (near full knee flexion), the patella contacts the femur with its superior pole and rests below the intercondylar groove.

Full extension with the medial rotation of the femoral condyle Flexion
Superior Talofibular Joint (STFJ) Plane synovial joint A small range of gliding movements following the ankle joint movement Tibia and fibula move anterior/posterior, superior/inferior, and rotates in relationship to each other. The proximal tibiofibular joint always moves together with the distal tibiofibular joint. The movement occurs during knee flexion and tibial internal and external rotation. The ankle dorsiflexion will produce few degrees of superior and posterior translation motion of the fibular head, vs ankle plantarflexion will lead to few degrees of inferior and anterior translation motion of the fibular head. Maximum ankle dorsiflexion Ankle plantarflexion

Knee Bursae[edit | edit source]

There are four bursae located in the knee joint:

  • Suprapatellar bursa between the quadriceps femoris and the femur.
  • Prepatellar bursa between the apex of the patella and the skin.
  • Deep and superficial infrapatellar bursa with deep bursa located between the tibia and the patella ligament, and the superficial found between the patella ligament and the skin.
  • Semimembranosus bursa between the semimembranosus muscle and the medial head of the gastrocnemius.

Knee Joint Capsule[edit | edit source]

The knee joint capsule connects the margins of the femoral and tibial articular surfaces. The anterior portion of the capsule attaches to the borders of the patella. The lateroposterior portion of the capsule gives passage to the tendon of the popliteus muscle.

Knee joint, like other joints in the body, presents with a specific capsular pattern. A combination of pain with or without limitation, points in the direction of a joint problem. Knee joint capsular pattern is characterised by limitation of extension, and more limitation of flexion. [4]

Ligaments of the Knee[edit | edit source]

The ligaments of the knee joint can be divided into two groups; extracapsular ligaments and intracapsular ligaments.

Clinical Relevance[edit | edit source]

  1. The most common pathology affecting the knee joint involves collateral ligaments due to force applied to the side of the knee with the foot pinned on the ground. You can learn more about this condition here.
  2. The anterior cruciate ligament (ACL) can be injured by hyperextension of the knee joint. Another cause of the ACL pathology is the application of a large force to the back of the knee when the knee joint is partly flexed. Study the rehabilitation of the ACL through completion of this programme.
  3. A housemaid’s knee (Prepatellar bursitis) is a condition involving the prepatellar bursa.[5] The signs include inflammation and swelling on the anterior side of the knee.
  4. The menisci are a common site of injuries in the knee.[6]
  5. A “high-riding” patella (patella alta) has been associated with patellofemoral pain, patellar instability, patellofemoral cartilage lesions, and patellofemoral osteoarthritis. [7]
  6. Patella baja refers to abnormally low-lying patella that remains distal in relation to the femoral trochlea affecting patellofemoral tracking.[8]

Resources[edit | edit source]

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References[edit | edit source]

  1. Lim W. Clinical Application and Limitations of the Capsular Pattern. Phys. Ther. Korea 2021; 28(1): 13-17
  2. Neumann DA, Kinesiology of the musculoskeletal system: Foundations for rehabilitation. 2nd ed. St. Louis, MO: Mosby Elsevier, 2010. p520-71.
  3. Neumann DA, Knee. In: Neumann DA, editor. Kinesiology of the musculoskeletal system: Foundations for rehabilitation. 2nd ed. St. Louis, MO: Mosby Elsevier, 2010. p520-71.
  4. de Coninck S. What is a capsular pattern? Available from https://cyriax.eu/orthopaedic-medicine-knowledge-bank/definitions-in-orthopaedic-medicine/what-is-a-capsular-pattern/ [last access 25.04.2023]
  5. Rishor-Olney CR, Pozun A. Prepatellar Bursitis. [Updated 2022 Sep 6]. In: StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2023 Jan-. Available from https://www.ncbi.nlm.nih.gov/books/NBK557508/ [last access 25.04.2023]
  6. Xuan D. Exploring anatomy of the knee. Plus Course 2023
  7. Wheatley MGA, Rainbow MJ, Clouthier AL. Patellofemoral Mechanics: a Review of Pathomechanics and Research Approaches. Curr Rev Musculoskelet Med. 2020 Jun;13(3):326-337.
  8. Perelli S, Ibañez M, Morales-Marin C, Acuña-Avila G, Espinoza-von Bischhoffshausen R, Masferrer-Pino A, Monllau JC. Patellar Tendon Lengthening: Rescue Procedure for Patella Baja. Arthroscopy Techniques 2020, 9(1):pages e1-e8.
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