Metabolic base production and mucosal vulnerability during acid inhibition in a mammalian stomach in vitro

被引：2

作者：

Glauser, M

Bauerfeind, P

Feil, W

Riegler, M

Fraser, R

Blum, AL

机构：

[1] CHU VAUDOIS,DEPT GASTROENTEROL,CH-1011 LAUSANNE,SWITZERLAND

[2] DONAUSPITAL SMZ OST,CHIRURG ABT,VIENNA,AUSTRIA

[3] UNIV VIENNA,VIENNA GEN HOSP,CLIN SURG 1,VIENNA,AUSTRIA

来源：

DIGESTIVE DISEASES AND SCIENCES | 1996年 / 41卷 / 05期

关键词：

acid injury; intracellular protection; carbon dioxide; gastric base production;

D O I：

10.1007/BF02091538

中图分类号：

R57 [消化系及腹部疾病];

学科分类号：

摘要：

Acid inhibition increases gastric mucosal susceptibility to damage by luminal acid, This might be due to reduced metabolic CO2 and bicarbonate whereas, during normal acid, secretion cytoprotective CO2/HCO3- production parallels acid production, Metabolic activity and mucosal damage caused by luminal acid perfusion was determined in an in vitro mouse stomach, with and without acid inhibition, and at 0%, 1%, or 5% serosal CO2 supply. Without acid inhibition there was no mucosal damage at any level of serosal CO2/HCO3- supply, Acid inhibition reduced metabolic CO2 production by 29% (P < 0.004) and resulted in microscopic damage to 55% of the mucosal area and perforation in four of five stomachs (P < 0.05), Although, 1% CO2 supply completely replaced the reduction in metabolic CO2, it did not protect against mucosal damage. Overreplacement by 5% serosal CO2/HCO3- was required mucosal damage. The protection by endogenous or exogenous CO2/HCO3- appears to act intracellularly rather than by intragastric or intercellular neutralization.

引用

页码：964 / 971

页数：8

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