R.E. Coggeshall scite author profile

Myelinated and unmyelinated axons were counted in sciatic nerves of newborn, 5-day-old, 14-day-old, and adult rats. Myelinated axons increase from essentially none at birth to approximately 8,000 in adulthood, but total axon numbers decrease steadily from 33,954 at birth to 22,872 in adulthood. Thus there is a significant postnatal loss of axons from rat sciatic nerve. This loss is, in our opinion, not associated with the death of the cells that give rise to these axons. This is thus an example of a regressive event that probably is of importance in normal neural development, namely the postnatal elimination of axons unaccompanied by death of the neurons that give rise to axons. These findings presumably imply a considerable amount of proximal peripheral axon branching, and the postnatal elimination of axons in the sciatic nerve presumably results from a reduction of this branching. Thus postnatal elimination of processes on, for example, somatic muscle cells may be at least partially the result of long axon elimination rather than local withdrawal of presynaptic processes, as is usually thought to be the case. In addition, an increased number of axons resulting from early postnatal manipulations may indicate cessation of axon loss rather than formation of new axons.

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Ureteral axon damage following subcutaneous administration of capsaicin in adult rats

Chung

Schwen

Coggeshall

1985

Neuroscience Letters

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Nociceptive role of the ventral root afferents

Chung¹,

Lee²,

Coggeshall³

1984

Pain

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R.E. Coggeshall

The receptive part of the primary afferent axon is most vulnerable to systemic capsaicin in adult rats

Postnatal loss of axons in normal rat sciatic nerve

Ureteral axon damage following subcutaneous administration of capsaicin in adult rats

Nociceptive role of the ventral root afferents

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