Sensory nerve action potentials

A decrease in the amplitude of the sensory nerve action potential has also been observed in a group of 20 asymptomatic workers exposed to -hexanc (Pastore et al. 1994). The subjects of this study were selected on the basis of urinary levels of the n-hexane metabolite 2,5-hexanedione (See Sections 2.3 and 2.7) exceeding 5 mg/L and compared to a group of unexposed laboratory workers. Mean years worked was 8.13 (range, 1.5—23 years). Sensory and motor nerve conduction velocities and distal latencies were normal in all nerves tested. However, significant decreases were found in sensory nerve action potential amplitude in the median, sural, and ulnar nerves. Neither the level of 2,5-hexanedione in urine nor age correlated with the changes in amplitude however, there was a significant correlation between years worked and amplitude. 

Deterioration of the sensory nerve action potentials more than 40% from baseline may predict the development of neuropathy (51). 

Sensory nerve action potential (amplitude) Reduced Normal to reduced Normal Nramal... 

Both disodium cromoglycate and nedocromil sodium have antitussive effects in humans. In this instance, their activity occurs by increasing the depolarisation of sensory nerves, which increases the threshold for an action potential and therefore inhibits the activity of these neurons. 

The arrival of action potentials in the dorsal horn of the spinal cord, carrying the sensory information either from nociceptors in inflammation or generated both from nociceptors and intrinsically after nerve damage, produces a complex response to pain. Densely packed neurons, containing most of the channels, transmitters and receptors found anywhere in the CNS, are present in the zones where the C-fibres terminate... 

As discussed previously, the neurohypophysis has a direct anatomical connection to the hypothalamus. Therefore, the hypothalamus regulates the release of hormones from the neurohypophysis by way of neuronal signals. Action potentials generated by the neurosecretory cells originating in the hypothalamus are transmitted down the neuronal axons to the nerve terminals in the neurohypophysis and stimulate the release of the hormones into the blood. The tracts formed by these axons are referred to as hypothalamic-hypophyseal tracts (see Figure 10.2). The action potentials are initiated by various forms of sensory input to the hypothalamus. Specific forms of sensory input that regulate the release of ADH and oxytocin are described in subsequent sections in this chapter. 

In axonal neuropathies, the velocity of action potential propagation in surviving axons is well maintained but the number of axons capable of conducting action potentials is diminished. Transcutaneous nerve stimulation and recording, the method routinely used for studying nerve conduction in the clinic, does not permit evaluation of the function of autonomic or unmyelinated sensory axons. These smaller, slow-conducting axons can be analyzed, in research studies, by intraneural recording with needle electrodes. 

CVSF = conduction velocity of slow = motor fibers dSCV = distal sensory nerve conduction velocity MAP k/a = proximal to distal amplitude ratio of muscle action potentials MMCV = maximal motor nerve conduction velocity MNCV = mixed nerve conduction velocity RL = residual latency of motor nerve conduction... 

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