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Ankle Joint01:10

Ankle Joint

3.1K
The ankle is formed by the talocrural joint (crural = leg). It consists of the articulations between the talus bone of the foot and the distal ends of the tibia and fibula of the leg. The superior aspect of the talus bone is square-shaped and has three areas of articulation. The top of the talus articulates with the inferior tibia. This is the portion of the ankle joint that carries the body weight between the leg and foot. The sides of the talus are firmly held in position by the articulations...
3.1K
Knee Joint01:23

Knee Joint

3.4K
The knee joint is the most complicated joint in the body. It consists of three articulations– two tibiofemoral and one patellofemoral. As is characteristic of synovial joints, the knee joint has a thin articular capsule that partially surrounds this joint cavity. Additionally, several ligaments, muscles, and cartilaginous structures support the movement of the knee.
A total of seven ligaments support the knee joint. The patellar ligament, which is also attached to the quadriceps femoris...
3.4K
Structural Joints: Synovial Joints01:16

Structural Joints: Synovial Joints

7.4K
Synovial joints are the most common type of joint in the body. A key structural characteristic for a synovial joint is the presence of a joint cavity. This fluid-filled space is where the articulating surfaces of the bones contact each other. Also, unlike fibrous or cartilaginous joints, the articulating bone surfaces at a synovial joint are not directly connected to each other with fibrous connective tissue or cartilage. This gives the bones of a synovial joint the ability to move smoothly...
7.4K
Bones of the Lower Limb: Tibia and Fibula01:10

Bones of the Lower Limb: Tibia and Fibula

10.0K
The tibia is the main weight-bearing bone of the lower leg. It is larger than the fibula with which it is paired. The tibia is also the second longest bone in the body and is located right below the skin. The proximal end of the tibia forms the medial and the lateral condyle, which articulates with the condyles of the femur to form the knee joint. Between the articulating surfaces is the irregular elevated area known as the intercondylar eminence that serves as the inferior attachment point for...
10.0K
Functional Classification of Joints01:09

Functional Classification of Joints

7.2K
Functional Classification of Joints
The functional classification of joints is determined by the amount of mobility between the adjacent bones. Joints are functionally classified as a synarthrosis or immobile joint, an amphiarthrosis or slightly moveable joint, or as a diarthrosis, a freely moveable joint. Fibrous and cartilaginous joints can be functionally classified as either synarthroses  or amphiarthroses, whereas all synovial joints are classified as diarthroses.
Synarthrosis
An...
7.2K
Structural Joints: Fibrous Joints01:03

Structural Joints: Fibrous Joints

4.0K
Fibrous joints are a type of joint where the bones are connected by fibrous connective tissue. These joints provide stability and minimal to no movement between the articulating bones. There are three types of fibrous joints.
Suture
All the bones of the skull, except for the mandible, are joined to each other by a fibrous joint called a suture. The fibrous connective tissue found at a suture strongly unites the adjacent skull bones and thus helps to protect the brain and form the face. In...
4.0K

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Related Experiment Video

Updated: Feb 16, 2026

A Mouse Model of Ankle-Subtalar Complex Joint Instability
09:14

A Mouse Model of Ankle-Subtalar Complex Joint Instability

Published on: October 28, 2022

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Syndesmosis Ankle Sprains.

Dean C Taylor, Frank H Bassett

    The Physician and Sportsmedicine
    |December 21, 2017
    PubMed
    Summary
    This summary is machine-generated.

    Syndesmosis ankle sprains, often initially appearing minor, involve a specific injury mechanism and can lead to prolonged recovery and heterotopic ossification. Proper diagnosis and treatment are crucial for good long-term outcomes, preventing syndesmosis formation.

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    Area of Science:

    • Orthopedics
    • Sports Medicine
    • Anatomy

    Background:

    • Syndesmosis ankle sprains are often initially misdiagnosed as less severe injuries.
    • These injuries are associated with a rotational mechanism, prolonged recovery, and potential for heterotopic ossification.
    • Accurate diagnosis and grading are essential for effective management.

    Purpose of the Study:

    • To summarize the key characteristics of syndesmosis ankle sprains.
    • To outline diagnostic and treatment strategies.
    • To discuss factors influencing long-term prognosis.

    Main Methods:

    • Review of clinical presentation and injury mechanisms.
    • Emphasis on diagnostic physical examination findings.
    • Discussion of imaging modalities for diagnosis and grading.
    • Overview of treatment options, including conservative and surgical approaches.

    Main Results:

    • Syndesmosis sprains require careful evaluation due to potential for significant disability.
    • Heterotopic ossification is a common complication.
    • Successful outcomes depend on anatomical reduction of the ankle mortise.

    Conclusions:

    • Early and accurate diagnosis of syndesmosis ankle sprains is critical.
    • Treatment should be tailored to injury severity, ranging from rehabilitation to surgery.
    • Preventing syndesmosis (tibia-fibula fusion) is key to achieving good long-term ankle function.