Its fibres run perpendicular to the direction of the arm, running from the most distal quarter of the anteriorulna to the distal quarter of the radius. It has two heads: the superficial head originates from the anterior distal aspect of the diaphysis of the ulna and inserts into the anterior distal diaphysis of the radius, as well as its anterior metaphysis. The deep head has the same origin, but inserts proximal to the ulnar notch. It is the only muscle that attaches only to the ulna at one end and the radius at the other end.
Function
When pronator quadratus contracts, it pulls the lateral side of the radius towards the ulna, thus pronating the hand. Its deep fibers serve to keep the two bones in the forearm bound together. Moreover, this muscle can be absent in some humans, however, that does not affect the action of pronation very notably, as the pronator teres does the major role in that action.
Spinal Tracts
The lateral corticospinal tract is responsible for the motor pathway of the pronator quadratus. This tract begins in the precentral gyrus of the motor cortex where a signal is transmitted from the upper motor nerve through the progression tracts of the internal capsule and through the cerebral peduncles of the midbrain. It decussates in the medulla and travels down the lateral corticospinal tract in the lateral column of the spinal cord. It then decussates in the spinal cord and synapses at the anterior horn to the lower motor neurons of the skeletal muscles. The cuneate fasciculus tract is responsible for the sensation of the pronator quadratus position and movement, deep touch, visceral pain, and vibration. This tract begins in the dorsal nerve root where the signal is transmitted through the dorsal horn and up the posterior column of the spinal cord. It synapses with an interneuron in the gracile nucleus. It then decussates in the medial lemniscus of the medulla, travels through the cuneate nucleus and through the medial lemniscus of the midbrain to synapse in the thalamus. It synapses with a third order neuron and transmits the signal to the postcentral gyrus of the somesthetic cortex. This could apply to any muscle in the upper limb and not specific to this muscle.