Evidence of a dominant role for low osmolality in the efficacy of cereal based oral rehydration solutions: studies in a model of secretory diarrhoea

Clinical trials suggest that including naturally occurring complex carbohydrate in oral rehydration solutions (ORS) in place of glucose increases water absorption and reduces stool volume during acute diarrhoea. The mechanisms for this greater clinical efficacy has not been established. This study e...

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Bibliographic Details
Published in:Gut 1993-07, Vol.34 (7), p.920-925
Main Authors: Thillainayagam, A V, Carnaby, S, Dias, J A, Clark, M L, Farthing, M J
Format: Article
Language:English
Subjects:
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Animals
Biological and medical sciences
Chlorides - metabolism
Diarrhea - therapy
Disease Models, Animal
Emergency and intensive care: metabolism and nutrition disorders. Enteral and parenteral nutrition
Fluid Therapy
Glucose - metabolism
Glucose - therapeutic use
Intensive care medicine
Intestinal Absorption - physiology
Intestine, Small - metabolism
Male
Medical sciences
Oryza
Osmolar Concentration
Rats
Rats, Wistar
Rehydration Solutions - chemistry
Rehydration Solutions - therapeutic use
Sodium - metabolism
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Summary:Clinical trials suggest that including naturally occurring complex carbohydrate in oral rehydration solutions (ORS) in place of glucose increases water absorption and reduces stool volume during acute diarrhoea. The mechanisms for this greater clinical efficacy has not been established. This study examined the ability of two hypotonic rice based ORS, RS-ORS (137 mOsm/kg) and RP-ORS (143 mOsm/kg), and HYPO-ORS (240 mOsm/kg) a glucose equivalent ORS, to effect water absorption by in vivo perfusion of normal and secreting rat small intestine. The results were compared with those for two widely used conventional hypertonic ORS, WHO-ORS (331 mOsm/kg) and UK-ORS (310 mOsm/kg). In the normal intestine, water absorption was similar from WHO-ORS (87.4 (45.1-124.6) microliters/min/g; median and interquartile range) and UK-ORS (57.6 (41.5-87)) but less than from the hypotonic solutions (p < 0.02); water absorption from RS-ORS (181.8 (168.5-193.8)) and RP-ORS (195.7 (179.3-207.9)) was similar but less than from HYPO-ORS (241.3 (230.6-279.7); p < 0.005). In the secreting intestine, all ORS reversed net secretion of fluid to net absorption; the hypotonic solutions, HYPO-ORS (105.2 (95.2-111)), RS-ORS (127.7 (118.3-169.4)) and RP-ORS (133.7 (122.1-174.5)), produced more water absorption (p < 0.005) than the hypertonic solutions WHO-ORS (47.1 (29-75.9)) and UK-ORS (24.9 (18.4-29.4)). The rice based ions promoted most water absorption in secreting intestine (p < 0.007). These data indicate that low osmolality is of primary importance in mediating the increased water absorption from cereal based ORS.
ISSN:0017-5749
1468-3288
1458-3288
DOI:10.1136/gut.34.7.920