van Loon F P, Banik A K, Nath S K, Patra F C, Wahed M A, Darmaun D, Desjeux J F, Mahalanabis D
International Centre for Diarrhoeal Disease Research, Bangladesh.
Eur J Gastroenterol Hepatol. 1996 May;8(5):443-8.
To assess the efficacy of an L-glutamine solution on jejunal salt and water absorption in cholera patients.
A randomized double-blind jejunal perfusion study.
International Centre for Diarrhoeal Disease Research, Bangladesh.
Nineteen adults with acute cholera.
Perfusion of balanced salt solutions alternated with defined glucose salt solution and glutamine glucose salt or alanine glucose salt solutions.
Net jejunal water and sodium secretion.
Perfusion of glutamine in the presence of glucose significantly reduced net water secretion (JnetH2O = -2.6 +/- 1.3 ml/h/cm) and also reduced net sodium secretion (JnetNa = -213 +/- 153 mumol/h/cm). Similar results were observed during the perfusion of solutions that contained alanine in addition to glucose (JnetH2O = -4.2 +/- 1.1 ml/h/cm and JnetNa = -444 U +/- 142 mumol/h/cm, respectively) or glucose alone (JnetH2O = -4.3 +/- 1.7 ml/h/cm and JnetNa = -452 +/- 212 mumol/h/cm, respectively). In addition, a higher basal secretion was associated with a greater stimulation of water absorption (F = 17, P < 0.001).
Glutamine in the presence of glucose significantly reduces net water secretion and also reduces sodium secretion; higher basal secretion is associated with greater water absorption. As glutamine is able to stimulate water absorption to the same degree as glucose and alanine, and because it has the theoretical advantage of providing fuel for the mucosa, the inclusion of glutamine as the sole substrate in oral rehydration solution warrants further study.
评估L-谷氨酰胺溶液对霍乱患者空肠盐和水吸收的疗效。
一项随机双盲空肠灌注研究。
孟加拉国国际腹泻病研究中心。
19名成年急性霍乱患者。
平衡盐溶液灌注与特定葡萄糖盐溶液以及谷氨酰胺葡萄糖盐或丙氨酸葡萄糖盐溶液交替进行。
空肠净水和钠分泌。
在葡萄糖存在的情况下灌注谷氨酰胺可显著减少净水分泌(JnetH2O = -2.6 +/- 1.3 ml/h/cm),并减少净钠分泌(JnetNa = -213 +/- 153 μmol/h/cm)。在除葡萄糖外还含有丙氨酸的溶液灌注期间(分别为JnetH2O = -4.2 +/- 1.1 ml/h/cm和JnetNa = -444 U +/- 142 μmol/h/cm)或仅灌注葡萄糖时(分别为JnetH2O = -4.3 +/- 1.7 ml/h/cm和JnetNa = -452 +/- 212 μmol/h/cm)也观察到类似结果。此外,较高的基础分泌与更大的水吸收刺激相关(F = 17,P < 0.001)。
葡萄糖存在时谷氨酰胺可显著减少净水分泌,也可减少钠分泌;较高的基础分泌与更大的水吸收相关。由于谷氨酰胺能够在与葡萄糖和丙氨酸相同程度上刺激水吸收,并且因为它具有为黏膜提供能量的理论优势,在口服补液溶液中纳入谷氨酰胺作为唯一底物值得进一步研究。
