Dammann H G
Klin Wochenschr. 1976 Sep 1;54(17):845-7. doi: 10.1007/BF01469307.
The results demonstrate the biliary reabsorption of 14C-cholate, 14C-glycocholate, and 14C-taurocholate from the rat biliary tree after retrograde intrabiliary injection. It could be shown that retrograde injection of these bile salts (20 nmol) in a total volume of 40 mul leads to significantly increased biliary reabsorption in contrast to the administration in a retrograde volume of only 20 mul. These differences in reabsorption may be explained by greater reabsorption at a more proximal site in the biliary tree. Furthermore 14C-glycocholate and 14C-taurocholate are reabsorbed to a lesser extent in contrast to 14C-cholate when bile flow was restarted at once after retrograde injection in a volume of 40 mul. It is speculated that conjugation of cholate to glycine and taurine has some effect on the extent of biliary reabsorption of this bile acid. Following the results presented in this paper one might hypothize that biliary reabsorption has an important influence on bile composition i.e. the biliary excretion of bile salts.
结果表明,逆行胆管内注射后,大鼠胆管树对14C-胆酸盐、14C-甘氨胆酸盐和14C-牛磺胆酸盐有胆汁重吸收。可以看出,与仅以20微升逆行体积给药相比,以40微升总体积逆行注射这些胆盐(20纳摩尔)会导致胆汁重吸收显著增加。重吸收的这些差异可能是由于在胆管树更靠近近端的部位重吸收更多。此外,当以40微升体积逆行注射后立即恢复胆汁流动时,与14C-胆酸盐相比,14C-甘氨胆酸盐和14C-牛磺胆酸盐的重吸收程度较低。据推测,胆酸盐与甘氨酸和牛磺酸的结合对这种胆汁酸的胆汁重吸收程度有一定影响。根据本文给出的结果,人们可能会推测胆汁重吸收对胆汁成分即胆盐的胆汁排泄有重要影响。