Difference between revisions of "Limb Vasculature - Horse Anatomy"

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Thoracic Limb Arteries

Digit and Fetlock

The arterial supply to the digit and fetlock of the thoracic limb comes mainly from the median palmar artery. The median palmar artery divides in the distal fourth of the metacarpus, between the superficial and digital flexor tendons and the suspensory ligament, to become the medial and lateral digital arteries. Part of the deep palmar arch anastamoses with the lateral digital artery to form the superficial palmar arch, which supplies the fetlock joint.

The digital arteries run superficially in the proximal fetlock region, emerging palmar to their satellite vein and between the palmar digital nerve and its dorsal branch. The medial and lateral digital arteries run distally over the fetlock and each branches to supply the fetlock joint, digital extensor and flexor tendons, digital sheath, ligaments fascia and skin.

The short artery of the proximal phalanx arises from the medial and lateral digital arteries, immediately dividing into dorsal and palmar branches to form a circle around the middle of the proximal phalanx. This supplies the proximal phalanx and surrounding structures. The palmar branch of the short artery runs between the proximal phalanx and the digital flexor tendons to join the contralateral vessel between the sesamoidean ligaments. The dorsal branch joins the contralateral vessel deep to the common digital extensor tendon.

In the region of the proximal interphalangeal (pastern) joint, the bulbar artery (artery of the digital cushion) arises from each digital artery. This artery branches to supply the frog, digital cushion, palmar part of the cuneate corium, laminar corium of the heel and bar and palmar parts of the perioplic and coronary corium.

The coronal artery arises from the digital artery or the bulbar artery to supply the heel and perioplic corium. The coronal artery then anastamoses with branches from the dorsal artery of the middle phalanx. The dorsal artery of the middle phalanx arises from each digital artery in the mid-region of the middle phalanx, forming the coronary arterial circle; as the palmar and dorsal branches anastamose to form a complete arterial circle around the middle phalanx. This coronary arterial circle supplies the distal interphalangeal (coffin) joint, common digital extensor tenon, perioplic and coronary corium, fascia and skin.

Branches from the conjoined palmar branches of the middle phalanx anastamose to form the navicular plexus, providing several small arteries to foramina along the proximal border of the distal sesamoid (navicular) bone. This plexus provides approximately one third of the total blood supply to the navicular bone.

At the level of the palmar process of the distal phalanx, the digital artery forms a dorsal branch of the distal phalanx, then continues distally to the terminal arch. The dorsal branch gives off a small artery to supply the digital cushion and corium of the frog, before it passes through a foramen in the palmar process of the distal phalanx. It then bifurcates on the dorsal surface of the distal phalanx to form branches that supply the corium of the heels and quarters, laminar corium of the toe, and eventually joining branches of the coronal artery and the marginal artery of the sole. The termination of the dorsal branch of the distal phalanx joins with a vessel that comes from the terminal arch in the solar canal. It then branches into several small arteries which enter the distal border of the distal phalanx.

The medial and lateral digital arteries run in the solar groove of the distal phalanx. Each gives off branches to the navicular plexus in the distal sesamoidean (impar) ligament. The navicular plexus gives rise to the distal navicular arteries, which enter the distal sesamoid (navicular) bone at the distal border and anastamose within the foraminae of the bone. These distal navicular arteries supply the distal two thirds of the navicular bone.

The medial and lateral digital arteries enter the solar foramen and form the terminal arch within the solar canal of the distal phalanx. Branches from the terminal arch run through foraminae on the parietal surface of the distal phalanx to supply the laminar corium. Several of these branches emerge near the solar border and anastamose to form the marginal artery of the sole. This supplies the solar and cuneate corium.

The arterial supply to the digit in the pelvic limb is the same as in the thoracic limb, except for the supply to the navicular bone. In the pelvic limb of some horses, a collateral arch from the plantar branches of the middle phalanx supply the proximal navicular network.

Thoracic Limb Veins

Digit

Venous drainage from the laminar corium is via parietal veins from the laminar circulation to the parietal venous plexus and coronary venous plexus. The coronary venous plexus also receives veins from the perioplic and coronary corium. Veins from the solar and cuneate corium drain into the solar venous plexus.

Veins in the solar canal anastamose at the level of the distal sesamoid (navicular) bone, forming the medial and lateral terminal veins. The medial and lateral terminal veins join branches of the inner venous plexus to form the digital vein. This digital vein receives venous drainage from the navicular bone, coronary vein (coronary region), inner venous plexus and bulbar vein (heel).

Most of the venous drainage from the equine foot is via veins on the palmar aspect, which generally lack valves. Some small branches of the coronary, subcoronary and bulbar veins have valves. This means that bloodflow from the foot can take different routes and that weightbearing is essential for blood to flow proximally.

Pelvic Limb

Proximal

The internal iliac vessels branch to form the cranial and caudal gluteal vessels; which supply the croup and thigh regions. The cranial gluteal artery subsequently forms the obturator artery. The satellite obturator vein is a branch of the external iliac vein. The external iliac vessels become the femoral vessels in the thigh, giving rise to the pudendoepigastric trunks.

Femoral vessels form the lateral circumflex femoral vessels, which enter the quadriceps between the rectus femoris and vastus medialis, and the saphenous vessels. The saphenous vein is larger than the corresponding artery. The saphenous vessels divide in the proximal third of the leg to form cranial and caudal branches. The cranial branch of the saphenous vein passes through the tarsus to become the common digital vein in the region of the metatarsus. This vein runs across the third metatarsus (cannon bone) to unite with the medial plantar vein. The caudal branch of the medial saphenous vein and artery run distally in a groove cranial to the common calcaneal tendon. The medial saphenous vein anastamoses with the caudal tibial vein and lateral saphenous vein proximal to the hock, subsequently dividing into the medial and lateral plantar veins. The saphenous artery anastamoses with the caudal tibial artery, giving rise to the medial and lateral plantar arteries.

The femoral vessels give rise to the descending artery and vein of the stifle, as well as other small vessels to that joint, in the distal third of the thigh. Some of the smaller vessels to the stifle joint arise from the popliteal vessels which are continuations of the femoral vessels. The femoral vessels also branch to form the lateral saphenous vein. The lateral saphenous vein runs distally along the caudal border of the gastrocnemius and anastamoses with the caudal branch of the medial saphenous vein and caudal tibial vein proximal to the hock.

The popliteal vessels bifurcate to form cranial and caudal tibial vessels at the level of the fibular head. The cranial tibial vessels pass between the tibia and fibula, then follow the tibia to the level of the hock; at this point they become the short pedal vessels. The pedal artery continues to become the dorsal metatarsal artery. The dorsal metatarsal artery passes over the lateral surface of the third metatarsal (cannon bone) and fourth metatarsal (lateral splint) plantarodistally. It then receives the plantar metatarsal arteries which run on the plantar aspect of the third metatarsal.