Somatostatin (Som) administered intrathecally to humans has been shown to exert potent analgesic effects on somatic pain, and anecdotal evidence suggests that Som may also relieve visceral pain. In the current study, we used rectal balloon distension in seven healthy volunteers to evaluate the effect of the Som analogue octreotide (Oct; 1.25 microgram/kg sc) on four pathways mediated by different visceral afferents that originate in the rectum: conscious perception, receptive relaxation, reflex inhibition of internal anal sphincter, and a viscerosomatic reflex. Rectal mechanoreceptors were stimulated either by distending the rectum tonically (volume ramp at 20-40 and 400 ml/min) or phasically (intermittent pressure steps of 60 s duration). Pressure thresholds for nonnoxious and noxious sensations in response to slow tonic distension were increased in the presence of rectal lidocaine (20 ml of 2% solution), whereas those to phasic distension were unaffected. Oct significantly increased pressure and volume thresholds for nonnoxious and noxious sensations in response to slow tonic distension but did not further increase thresholds in the presence of intrarectal lidocaine. In contrast, no effect of Oct on rectal sensations was observed during rapid tonic or phasic distension. Oct had no effect on any of the monitored reflex responses. The effect of Oct on rectal sensation in the concentration used in this study was not associated with changes in the rectal wall pressure-volume relationship during any distension protocol. These findings indicate that the inhibitory effect of Oct on rectal sensation is likely to represent a direct effect on a subset of extrinsic primary afferent neurons, with receptive fields in the mucosa.
Corticotropin-releasing factor (CRF) released in the gastrointestinal mucosa from immune cells or enterochromaffin cells may play a role in the modulation of rectal afferent function. In the current study we evaluated the effects of peripherally administered CRF on afferent mechanisms in the human rectum. We used rectal balloon distention in seven healthy volunteers to evaluate the effect of CRF (1 microgram/kg) on visceral afferents originating in the rectum which are involved in the following functions: thresholds and intensity of conscious perception, receptive relaxation, reflex inhibition of internal anal sphincter and a viscerosomatic reflex. Rectal mechanoreceptors were stimulated either by distending the rectum using a volume ramp (40 and 400 mL/min), or by intermittent phasic distention. CRF decreased the thresholds and increased the intensity for the sensation of discomfort in response to both ramp and phasic distention. During slow ramp distention, CRF also lowered the stool threshold. CRF increased rectal compliance during slow ramp distention without affecting the rate of receptive relaxation or the inflection point of the compliance curve. CRF had no effect on viscerosomatic referral patterns, or on the rectoanal inhibitory reflex. These findings are consistent with a dual effect of CRF on afferent pathways mediating perception of aversive rectal sensations, and on rectal smooth muscle.
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