Mechanical transduction in the Golgi tendon organ: a hypothesis.

Morphological evidence, gained from light and electron microscopy, has shown that the unmyelinated terminal branches of the Ib afferent fiber innervating the Golgi tendon organ (GTO) lie within the spaces between braids of collagen. Based on empirical data it is proposed that force applied to a muscle's tendon will straighten these collagen braids and cause compressional deformation of the axon branches trapped between them. The mechanical events, which are presumed to occur within the GTO, appear to explain how it may function as a biological force transducer under static loading conditions. The mechanical principal described for the GTO may be a primitive and wide-spread biological mechanism employed by certain types of sensory receptors that function as position (and force) detectors.