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1 cal testing of modifications to the standard oral rehydration solution.
2 the stimulation of net sodium absorption by oral rehydration solution.
3 tion and might contribute to the efficacy of oral rehydration solutions.
4 reviously, we found that an amino acid-based oral rehydration solution (AA-ORS) improved gastrointest
5 (ie, intravenous electrolyte support and/or oral rehydration solutions) and oral intake whenever pos
6 oportion of fully immunised children, use of oral rehydration solution, and sanitation index, assesse
7 e transport was the basis for development of oral rehydration solution, and was hailed as potentially
8 onals' physical examination, prescription of oral rehydration solutions, antibiotics and other medica
9 has been primarily attributed to the use of oral rehydration solutions, continuous feeding and zinc
10 o, oral Mg2+ supplementation, alone or in an oral rehydration solution, could be a potential therapy
12 ics for pneumonia and neonatal sepsis and of oral rehydration solution for diarrhoea would together a
17 till-water control (1337 +/- 330 g) after an oral rehydration solution (ORS) (1038 +/- 333 g, P < 0.0
19 GA) to a 90 mmol/L sodium-111 mmol/L glucose oral rehydration solution (ORS) enhances its effectivene
21 gestion [so-called resistant starch (RS)] to oral rehydration solution (RS-ORS) improves the efficacy
23 ference 1.3 [95% CI 0.6-1.9]), and increased oral rehydration solution use (RR 1.5 [1.0-2.2]) in the
24 nment's diarrhea patient standard message on oral rehydration solution use and a basic water, sanitat
25 ed to three arms: standard recommendation on oral rehydration solution use; health facility delivery
26 ck-randomized to 3 arms: standard message on oral rehydration solution use; health facility delivery
27 not enough" to ensure the appropriate use of oral rehydration solutions, zinc and antibiotics by heal