Ulnar veins

Medically Reviewed by Anatomy Team

Ulnar veins are paired deep veins that accompany the ulnar artery along the medial (inner) side of the forearm. These veins begin near the wrist and ascend the forearm, collecting deoxygenated blood from the medial aspect of the hand and forearm. Similar to the radial veins, the ulnar veins are part of the deep venous system and run alongside their corresponding artery, usually as two veins connected by small anastomosing branches. They course along the ulnar side of the forearm, beneath the muscles and fascia, and eventually unite with the radial veins near the elbow to form the brachial veins.

Structure and Anatomy

Location

The ulnar veins are located on the medial (pinky) side of the forearm and run parallel to the ulnar artery. They are part of the deep venous system of the upper limb, situated beneath the deep fascia and muscles. The veins extend from the wrist to the elbow, draining blood from the medial side of the forearm and hand. Their course mirrors that of the ulnar artery, a key vessel in the arterial supply to the forearm and hand.

Origin

The ulnar veins originate from the deep venous palmar arch in the hand, a network of veins that collects deoxygenated blood from the deep tissues of the palm and fingers. Venous tributaries from the medial side of the hand converge to form the ulnar veins near the wrist, and the veins then ascend through the forearm.

Course

The ulnar veins typically run as paired vessels (venae comitantes) alongside the ulnar artery. These two veins flank the artery, and they are interconnected by small anastomotic branches throughout their course. The veins ascend the medial aspect of the forearm, traveling deep to muscles such as the flexor carpi ulnaris. As they approach the elbow, the ulnar veins remain in close proximity to the ulnar artery.

Relations

  • Superficial (anterior) relations: The ulnar veins are covered by skin, subcutaneous tissue, and deep fascia. Muscles such as the flexor carpi ulnaris and palmaris longus provide superficial muscular covering.
  • Deep (posterior) relations: The veins lie close to the ulna bone and are deep to the flexor muscles of the forearm, including the flexor digitorum profundus.
  • Medial relations: Medially, the veins are related to the ulna, which they follow closely along their course up the forearm.
  • Lateral relations: Laterally, the ulnar veins are closely associated with the ulnar artery, which runs parallel to them, and with neighboring flexor muscles of the forearm.

Tributaries

The ulnar veins receive several tributaries along their path, which contribute to their overall volume of blood. These include:

  • Venous branches from the flexor muscles of the forearm, which drain the deeper musculature involved in wrist and finger flexion.
  • Perforating veins that connect the ulnar veins to the superficial venous system, particularly veins from the dorsal venous network of the hand.
  • Anterior and posterior interosseous veins, which drain deeper structures of the forearm and join the ulnar veins near the elbow.

Termination

The ulnar veins ascend toward the elbow, where they converge with the radial veins in the cubital fossa, a triangular depression in the front of the elbow. This union of the radial and ulnar veins forms the brachial veins, which continue proximally toward the arm and shoulder, carrying blood toward the central venous system.

Surrounding Structures

  • Anteriorly: The ulnar veins are separated from the skin by layers of deep fascia and the flexor carpi ulnaris muscle, along with other superficial muscles of the forearm.
  • Posteriorly: The ulnar veins are in close relation to the ulna bone and the deep forearm muscles such as the flexor digitorum profundus.
  • Medially: The veins are closely related to the ulna, running alongside it throughout the forearm.
  • Laterally: The ulnar artery is the most significant lateral neighbor to the ulnar veins, and the two structures remain in close proximity as they travel through the forearm.

Function

Venous Return from the Medial Forearm and Hand

The primary function of the ulnar veins is to drain deoxygenated blood from the medial side of the hand, wrist, and forearm. They receive blood from deep structures in these areas, including bones, muscles, and connective tissues. Specifically, they drain the blood from the structures in the ulnar territory, such as the flexor muscles of the forearm and the medial side of the hand. These veins play a critical role in transporting blood back toward the heart, eventually joining the radial veins at the cubital fossa to form the brachial veins.

Drainage of the Deep Venous Palmar Arch

The ulnar veins collect blood from the deep venous palmar arch in the hand, which is a network of veins that drains the deep tissues of the palm and fingers. This system collects blood from the muscles, tendons, and bones of the hand. This deep venous drainage system ensures the removal of deoxygenated blood from the hand and fingers, maintaining circulation through the upper limb.

Connection to the Interosseous Veins

The ulnar veins are connected to the anterior and posterior interosseous veins, which drain the deeper structures of the forearm. These interosseous veins collect blood from the muscles between the radius and ulna (the interosseous membrane) and deeper flexor and extensor muscles. By providing an efficient drainage route for these areas, the ulnar veins contribute to the removal of waste products and carbon dioxide from the tissues, ensuring proper metabolic exchange.

Anastomosis with Superficial Veins

Though part of the deep venous system, the ulnar veins communicate with superficial veins through perforating veins. This communication ensures that there is a balance between deep and superficial venous drainage, preventing excess pressure build-up in either system. The superficial veins of the hand and forearm, such as the basilic vein, may transfer blood to the ulnar veins, helping to maintain efficient blood flow from both the surface and deeper tissues of the upper limb.

Aiding in Arterial Pulsation and Venous Return

The ulnar veins are closely associated with the ulnar artery, which enhances venous return through a phenomenon known as arteriovenous coupling. As the ulnar artery pulsates, it compresses the adjacent veins, helping to push the blood upward against gravity. This mechanism improves the efficiency of blood return from the hand and forearm to the heart, especially when muscles contract during movement or physical activity.

Supporting the Central Circulation

After collecting blood from the forearm, the ulnar veins, in conjunction with the radial veins, form the brachial veins near the elbow. The brachial veins carry this deoxygenated blood from the forearm to the upper arm and shoulder. Eventually, the blood from the ulnar veins reaches the superior vena cava and is returned to the heart for reoxygenation. This entire process is crucial for maintaining effective venous return from the upper limb, ensuring a continuous cycle of blood flow between the limbs and the heart.

Role in Pressure Regulation

The ulnar veins help regulate blood pressure in the venous system of the forearm and hand. By balancing blood flow between the deep and superficial veins, they contribute to preventing venous congestion or pooling. This pressure regulation ensures efficient circulation and prevents the accumulation of blood in the extremities, which can lead to swelling or other complications.

Role in Thermoregulation

Though primarily involved in venous return, the ulnar veins also indirectly participate in thermoregulation. When the body is exposed to heat, more blood is directed toward superficial veins for cooling at the skin surface. Conversely, in colder conditions, the ulnar veins, along with other deep veins, facilitate the conservation of heat by shunting blood away from the skin surface, helping to maintain core body temperature. This role is important for protecting the body from extreme temperature changes.

Clinical Significance

The ulnar veins, though less commonly accessed than superficial veins, hold clinical significance in several contexts:

  • Venous Access: While superficial veins like the basilic and cephalic veins are more commonly used, the ulnar veins can sometimes be accessed for deep venous catheterization, especially in cases where more superficial veins are unavailable or compromised.
  • Deep Vein Thrombosis (DVT): Although DVT is more common in the lower limbs, the ulnar veins can be affected by thrombosis, particularly in individuals with prolonged immobilization, trauma, or the presence of intravenous catheters. Upper limb DVT, involving the ulnar veins, can result in pain, swelling, and impaired blood flow.
  • Arteriovenous Fistula Formation: The ulnar veins can be used in the creation of an arteriovenous (AV) fistula for dialysis patients, though the radial veins and artery are more commonly utilized. In certain cases, ulnar vessels may be selected if the radial artery and vein are unsuitable.
  • Vascular Trauma or Compression: Due to their deep location, the ulnar veins can be involved in vascular injuries, such as trauma to the forearm or compressive syndromes. Damage to the ulnar veins can result in compromised venous return and may lead to complications like swelling, pain, or the formation of hematomas.

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