Anatomy

The elbow is a complex joint formed by the articulation of three bones – the lower end of the humerus, and the upper ends of the radius and ulna. The elbow joint helps in bending or straightening of the arm to 180 degrees to assist with the lifting or moving of objects. It also provides for forearm rotation.

The elbow joint is formed at the junction of three bones:

  • The humerus (upper arm bone) forms the upper portion of the joint. The lower end of the humerus divides into two bony protrusions known as the medial and lateral epicondyles, which can be felt on either side of the elbow joint.
  • The ulna is the larger bone of the forearm located on the inner surface of the joint. It articulates with the humerus.
  • The radius is the smaller bone of the forearm situated on the outer surface of the joint. The head of the radius is circular and hollow, which allows movement with the humerus. The articulation between the ulna and radius helps the forearm to rotate.

The elbow consists of three joints, namely:

  • The humeroulnar joint is formed between the humerus and ulna and allows flexion and extension of the arm.
  • The humeroradial joint is formed between the radius and humerus and allows movements like flexion, extension, supination, and pronation.
  • The radioulnar joint is formed between the ulna and radius bones and allows rotation of the lower arm.

Articular cartilage lines the articulating regions of the humerus, radius, and ulna. It is a thin, tough, flexible and slippery surface that acts as a shock absorber and cushion to reduce friction between the bones. The cartilage is lubricated with synovial fluid, which further enables the smooth movement of the bones.

Muscles of the Elbow Joint

There are several muscles extending across the elbow joint that help in various movements. These include the following:

  • Biceps brachii: Upper arm muscle, enabling flexion (bending) and supination (rotation to place the palm upwards) of the arm
  • Triceps brachii: Muscle in the back of the upper arm that extends the arm and fixes the elbow during fine movements
  • Brachialis: Upper arm muscle beneath the biceps, which flexes the elbow towards the body
  • Brachioradialis: Forearm muscle that flexes, straightens and pulls the arm at the elbow
  • Pronator teres: Muscle that extends from the humeral head, across the elbow, and towards the ulna, and helps to turn the palm facing backwards
  • Extensor carpi radialis brevis and longus: Forearm muscles that help in movement of the wrist
  • Extensor digitorum longus: Forearm muscle that helps in movement of the fingers

Ligaments and Tendons of the Elbow

The elbow joint is supported by ligaments and tendons, which provide stability to the joint.

Ligaments are a group of firm tissues that connect bones to other bones. The most important ligaments of the elbow joint are the:

  • Medial or ulnar collateral ligament: Comprised of triangular bands of tissue on the inner side of the elbow joint
  • Lateral or radial collateral ligament: A thin band of tissue on the outer side of the elbow joint
  • Annular ligament: Group of fibres that surround the radial head, and hold the ulna and radius tightly in place during movement of the arm

Together, the medial and lateral ligaments are the main source of stability and hold the humerus and ulna tightly in place during movement of the arm.

The ligaments around a joint combine to form a joint capsule that contains synovial fluid.

Any injury to these ligaments can lead to instability of the elbow joint.

Tendons are bands of connective tissue fibres that connect muscle to bone. The various tendons that surround the elbow joint include:

  • Biceps tendon: attaches the biceps muscle to the radius, allowing the elbow to bend and the forearm to rotate
  • Triceps tendon: attaches the triceps muscle to the ulna, allowing the elbow to straighten

Nerves of the Elbow

The main nerves of the elbow joint are the ulnar, radial and median nerves. These nerves transfer signals from the brain to the muscles that aid in elbow movements. They also carry sensory signals such as touch, pain, and temperature back to the brain.

Any injury or damage to these nerves can cause pain, numbness, or weakness of the involved muscles.