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The Golgi tendon organ (GTO) (also called Golgi organ, tendon organ, neurotendinous organ or neurotendinous spindle) is a proprioceptor – a type of sensory receptor that senses changes in muscle tension. It lies at the interface between a muscle and its tendon known as the musculotendinous junction also known as the myotendinous junction. [1]
The Golgi tendon reflex operates as a protective feedback mechanism to control the tension of an active muscle by causing relaxation before the tendon tension becomes high enough to cause damage. [7] First, as a load is placed on the muscle, the afferent neuron from the Golgi tendon organ fires into the central nervous system.
Golgi tendon organ: II: Aβ: 6–12 μm: Yes: 33–75 m/s: All cutaneous mechanoreceptors including pacinian corpuscles: III Aδ: 1–5 μm: Thin: 3–30 m/s: Free nerve endings of touch and pressure Nociceptors of neospinothalamic tract Cold thermoreceptors: IV C: 0.2–1.5 μm: No: 0.5–2.0 m/s: Nociceptors of paleospinothalamic tract Warmth ...
There is a similar division of encoding in invertebrates; different subgroups of neurons of the chordotonal organ [6] encode limb position and velocity. To determine the load on a limb, vertebrates use sensory neurons in the Golgi tendon organs: [7] type Ib afferents. These proprioceptors are activated at given muscle forces, which indicate the ...
Muscle spindles relay information regarding muscle stretch, Golgi tendon organs relay information regarding tendon force, and gamma motoneurons modulate muscle spindle feedback. Afferent signals from spindles and tendon organs are integrated in the spinal cord, which then output muscle activation commands to muscle via alpha motoneurons.
The rostral spinocerebellar tract is a tract which transmits information from the golgi tendon organs of the cranial half of the body to the cerebellum. [8] It terminates bilaterally in the anterior lobe of the cerebellum (lower cerebellar peduncle) after travelling ipsilaterally from its origin in the cervical portion of the spinal cord.
In 1878, he also discovered a receptor organ that senses changes in muscle tension, and is now known as Golgi tendon organ or Golgi receptor; and Golgi-Mazzoni corpuscles (pressure transductors). [17] He further developed a stain specific for myelin (a specialised membrane which wraps around the axon) using potassium dichromate and mercuric ...
The Golgi tendon reflex is a response to extensive tension on a tendon. [7] It helps avoid strong muscle contractions which could tear the tendon from either the muscle or bone. [ 7 ] In sports, quick movements can damage the tendon before the reflex can occur. [ 7 ]