Carpus and tarsus of land vertebrates

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The carpus and tarsus are anatomical structures found in the limbs of land vertebrates. These structures are crucial for the movement and support of the limbs, playing a significant role in the locomotion of these animals.

Carpus[edit | edit source]

The carpus, commonly known as the wrist in humans, is a complex assembly of bones located between the forearm and the metacarpus. It consists of multiple small bones arranged in two rows. The carpus allows for a wide range of motion and flexibility in the forelimb.

Structure[edit | edit source]

The carpus is composed of eight bones in humans, which are organized into two rows:

These bones are connected by a series of ligaments and joints, which provide stability and facilitate movement.

Function[edit | edit source]

The primary function of the carpus is to facilitate the movement of the forelimb, allowing for actions such as flexion, extension, abduction, and adduction. It also serves as a transition point for the transmission of forces from the forearm to the hand.

Tarsus[edit | edit source]

The tarsus, commonly referred to as the ankle in humans, is a cluster of bones located between the lower leg and the metatarsus. It is essential for the stability and movement of the hindlimb.

Structure[edit | edit source]

The tarsus consists of seven bones in humans, which are:

These bones are interconnected by ligaments and joints, forming a robust structure that supports the weight of the body and allows for various movements.

Function[edit | edit source]

The tarsus plays a critical role in the movement and stability of the hindlimb. It enables actions such as plantarflexion, dorsiflexion, inversion, and eversion. Additionally, it acts as a shock absorber during activities such as walking, running, and jumping.

Evolutionary Significance[edit | edit source]

The carpus and tarsus have evolved to adapt to the specific locomotor needs of different land vertebrates. For instance, in quadrupeds, these structures are adapted for weight-bearing and stability, while in bipeds, they are optimized for balance and efficient movement.

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Contributors: Prab R. Tumpati, MD