The stomach is rich in endocrine cells, most of which are still unidentified with respect to the peptide hormones they produce. The endocrine cell populations in the antrum usually differ from those in the oxyntic mucosa. Gastrin cells are found in the antrum and respond readily to stimuli from the gastric lumen, such as changes in the pH and the presence of food. In order to study the functional control of the antral gastrin cell, rats were subjected to different kinds of surgery. The serum gastrin concentrations in the various experimental groups were measured 8–10 weeks after the operations. Elevated antral pH raised the serum gastrin concentration. The combination of elevated antral pH and the passage of food over the pyloric glands produced gastrin cell hyperplasia. The operation that was most effective in inducing gastrin cell hyperplasia was removal of the acid-producing part of the stomach. Interestingly, gastrin cell hyperplasia was seen also after bilateral truncal vagotomy, indicating that an intact vagal innervation is not essential for the development of gastrin cell hyperplasia. Enterochromaffin-like (ECL) cells are endocrine/paracrine cells that are numerous in the acid-producing part of the stomach in many species. In the rat, they occur predominantly in the basal half of the oxyntic mucosa and produce and store histamine. The ECL cells have an unknown function and do not seem to respond to stimuli from the gastric lumen. They are activated by circulating gastrin and by vagal excitation. Gastrin mobilises histamine from these cells and activates the histamine-forming enzyme, histidine decarboxylase. Long-term hypergastrinaemia produces diffuse ECL cell hyperplasia, whereas hypogastrinaemia (following removal of the endogenous stores of gastrin by antrectomy) reduces the ECL cell number. Portacaval shunt brings about a marked increase in the number of ECL cells through an unknown mechanism. Also neuronal stimuli are important for the trophic control of the ECL cells. Studies of unilaterally vagotomised rats showed reduced weight and thickness of the oxyntic mucosa as well as a markedly reduced number of ECL cells on the denervated side.
A prospective, randomized trial was undertaken to compare the nutritional efficacy in surgical stress of a standard amino acid solution and two branched chain-enriched amino acid solutions: one enriched primarily with valine, the other with leucine. The study comprised 37 patients in the surgical intensive care unit who received isocaloric, isonitrogenous parenteral nutrition started within 24 hours of the onset of major operation, injury, or sepsis. Nitrogen retention was marginally but statistically significantly better on days 5, 7, and 10 in both groups of patients receiving the branched chain-enriched solutions, but differences in cumulative nitrogen balance were not statistically significant. Amino acid composition appeared to be important in that the group receiving the leucine-enriched solution appeared to maintain hepatic protein synthesis better (as manifest by higher short-turnover plasma protein concentrations) and required less exogenous insulin to maintain euglycemia. Improved outcome was not seen in the groups receiving the branched chain-enriched solutions.
SUMMARY1. The effect of vagotomy on gastric acid secretion was studied in chronic gastric fistula rats at various times after denervation. In these rats basal and pentagastrininduced acid output was permanently reduced. Thus, the magnitude of the acid response to pentagastrin in the conscious fistula rat is dependent upon an intact vagus.2. The acid response to pylorus ligation in vagally intact rats was unaffected by drainage of the stomach and therefore not caused by distension. Bilateral vagotomy, performed simultaneously with the ligation, completely abolished acid secretion, while unilateral vagotomy reduced the acid output by half. Hence, in innervated rats, an intact vagal impulse flow appears to be essential for the acid response to pylorus ligation. When the pylorus ligation was performed 2-8 weeks after truncal vagotomy, the acid output showed a progressive return towards pre-denervation values. In the denervated rats the acid response to pylorus ligation was blocked by drainage of the stomach and therefore probably caused by distension, a mechanism which is independent of the vagal impulse flow.3. The response to pylorus ligation in innervated rats was blocked by atropine and chlorisondamine but not by metiamide. In the denervated rats, the response to pylorus ligation was blocked by all three drugs.4. Following ligation of both the pylorus and the oesophagus the acid response was poor. With drainage of the oesophagus the acid response was much enhanced, suggesting that oesophageal distension inhibits acid secretion. In the vagotomized rat the poor acid response to oesophageal + pyloric ligation could not be overcome by drainage of the oesophagus. In the innervated rat gastric distension could overcome the inhibition induced by oesophageal ligation. Also in chronically, but not in acutely vagotomized rats, gastric distension brought about a good acid response. Conceivably, gastric reflex mechanisms can activate acid secretion through vagal and/or intramural pathways. Both in innervated and denervated rats the response to gastric distension was inhibited by atropine, chlorisondamine and metiamide.5. The results suggest that in the innervated rat vago-vagal reflexes are important for the gastric hypersecretion following ligation of the pylorus, and for the acid response to gastric distension following ligation of the pylorus and oesophagus. In the 0022-3751/80/1170-0502 $07.50
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