TY - JOUR
T1 - Total parenteral nutrition-associated alterations in hepatobiliary function and histology in rats
T2 - Is light exposure a clue?
AU - Bhatia, Jatinder
AU - Moslen, Mary Treinen
AU - Haque, Abida K.
AU - McCleery, Renee
AU - Rassin, David K.
PY - 1993/5
Y1 - 1993/5
N2 - Light exposure of amino acids, especially in the presence of photosensitizers such as riboflavin, has been shown to result in photoproducts that are toxic both in vivo and in vitro. Provision of photooxidized single amino acids has been shown to result in hepatic dysfunction in both gerbils and rats. However, studies of the effects of light exposure of complete nutrient mixtures (glucoseamino acid-vitamins) on hepatobiliary responses are limited. These are important because, in clinical practice, total parenteral nutrition (TPN) solutions are continually exposed to light and because hepatic dysfunction is the most common metabolic aberration associated with TPN. Studies were conducted to compare the effects of TPN that had been exposed to light (+L) or protected from light (-L) on hepatobiliary function of rats. TPN solutions were either exposed to light or protected from light for 24 h and then infused into rats for 10 d. Data for enterally fed rats are also shown for comparison with parenterally fed animals. +L animals lost more weight and had lower bile flow, higher taurocholate output in bile, higher biliary osmolarity, and higher inorganic phosphate in bile. Hepatic histology demonstrated scattered foci of necrosis in eight of the eight +L animals and in only one of eight -L animals. These data demonstrate that protection of TPN solutions from light minimizes TPN-associated alterations in hepatobiliary function and histology. These histologic changes observed in the +L animals are in contrast to previous reports of TPN-induced histologic changes, suggesting a different mechanism. Our observations suggest that consideration be given to the implications of exposing TPN solutions to light.
AB - Light exposure of amino acids, especially in the presence of photosensitizers such as riboflavin, has been shown to result in photoproducts that are toxic both in vivo and in vitro. Provision of photooxidized single amino acids has been shown to result in hepatic dysfunction in both gerbils and rats. However, studies of the effects of light exposure of complete nutrient mixtures (glucoseamino acid-vitamins) on hepatobiliary responses are limited. These are important because, in clinical practice, total parenteral nutrition (TPN) solutions are continually exposed to light and because hepatic dysfunction is the most common metabolic aberration associated with TPN. Studies were conducted to compare the effects of TPN that had been exposed to light (+L) or protected from light (-L) on hepatobiliary function of rats. TPN solutions were either exposed to light or protected from light for 24 h and then infused into rats for 10 d. Data for enterally fed rats are also shown for comparison with parenterally fed animals. +L animals lost more weight and had lower bile flow, higher taurocholate output in bile, higher biliary osmolarity, and higher inorganic phosphate in bile. Hepatic histology demonstrated scattered foci of necrosis in eight of the eight +L animals and in only one of eight -L animals. These data demonstrate that protection of TPN solutions from light minimizes TPN-associated alterations in hepatobiliary function and histology. These histologic changes observed in the +L animals are in contrast to previous reports of TPN-induced histologic changes, suggesting a different mechanism. Our observations suggest that consideration be given to the implications of exposing TPN solutions to light.
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U2 - 10.1203/00006450-199305000-00013
DO - 10.1203/00006450-199305000-00013
M3 - Article
C2 - 8511021
AN - SCOPUS:0027256072
SN - 0031-3998
VL - 33
SP - 487
EP - 492
JO - Pediatric Research
JF - Pediatric Research
IS - 5
ER -