Correlation between transmucosal potential difference and morphological damage during aspirin injury of gastric mucosa in rats

Abstract

The potential difference (PD) that is maintained across healthy gastric mucosa is thought to be due to asymmetric ion pumping combined with resistance to back-diffusion of the separated charge. However, the structures that are responsible for this have not been clearly defined. This study examined the temporal changes in PD in rat stomach after injury by a single dose of aspirin. Multiple linear regression was used to compare this with the time course of several parameters of histological damage: (i) the per cent mucosal length showing superficial (confined to surface and gastric pits), deep (involving the isthmus or deeper in oxyntic glands) and total damage; (ii) the number of discrete erosions; and (ii) the total area of erosions per cm sectioned. Mucosal PD fell during the first 30-60 min after aspirin. Superficial damage appeared early and was already recovering by this time. The time course of deep damage more closely matched the alterations in PD and stepwise regression analysis showed that this could be predicted by the amount of deep damage alone (P < 0.001). Changes in transmucosal PD after acute aspirin injury probably reflect damage to structures in the oxyntic glands and not just the breaking of the surface and pit cell 'barrier'.