Intestinal Microbial Diversity and Perioperative Complications

Ralls, Matthew W.; Miyasaka, Eiichi; Teitelbaum, Daniel H.

Intestinal Microbial Diversity and Perioperative Complications

dc.contributor.author	Ralls, Matthew W.
dc.contributor.author	Miyasaka, Eiichi
dc.contributor.author	Teitelbaum, Daniel H.
dc.date.accessioned	2018-02-05T16:26:10Z
dc.date.available	2018-02-05T16:26:10Z
dc.date.issued	2014-03
dc.identifier.citation	Ralls, Matthew W.; Miyasaka, Eiichi; Teitelbaum, Daniel H. (2014). "Intestinal Microbial Diversity and Perioperative Complications." Journal of Parenteral and Enteral Nutrition 38(3): 392-399.
dc.identifier.issn	0148-6071
dc.identifier.issn	1941-2444
dc.identifier.uri	https://hdl.handle.net/2027.42/141018
dc.publisher	SAGE Publications
dc.publisher	Wiley Periodicals, Inc.
dc.subject.other	microflora
dc.subject.other	intestine
dc.subject.other	microbiota
dc.subject.other	parenteral nutrition
dc.title	Intestinal Microbial Diversity and Perioperative Complications
dc.type	Article	en_US
dc.rights.robots	IndexNoFollow
dc.subject.hlbsecondlevel	Pediatrics
dc.subject.hlbsecondlevel	Medicine (General)
dc.subject.hlbtoplevel	Health Sciences
dc.description.peerreviewed	Peer Reviewed
dc.contributor.affiliationum	Section of Pediatric Surgery, Department of Surgery, University of Michigan, Ann Arbor, Michigan.
dc.description.bitstreamurl	https://deepblue.lib.umich.edu/bitstream/2027.42/141018/1/jpen0392-sup-0001.pdf
dc.description.bitstreamurl	https://deepblue.lib.umich.edu/bitstream/2027.42/141018/2/jpen0392.pdf
dc.identifier.doi	10.1177/0148607113486482
dc.identifier.source	Journal of Parenteral and Enteral Nutrition
dc.identifier.citedreference	Willyard C. Microbiome gut reaction. Nature. 2011; 479: S5 – S7.
dc.identifier.citedreference	Maslowski KM, Mackay CR. Diet, gut microbiota and immune responses. Nat Immunol. 2011; 12: 5 – 9.
dc.identifier.citedreference	Miyasaka EA, Erb‐Downward JR, Falkowski NR, Gillilland M, Huffnagle GB, Teitelbaum DH. Total parenteral nutrition (TPN) in a mouse model leads to major population shifts in the intestinal microbiome. Gastroenterology. 2011; 140: S103.
dc.identifier.citedreference	Buchman AL, Moukarzel AA, Bhuta S, et al. Parenteral nutrition is associated with intestinal morphologic and functional changes in humans. JPEN J Parenter Enteral Nutr. 1995; 19: 453 – 460.
dc.identifier.citedreference	Reynolds JV, Kanwar S, Welsh FK, et al. 1997 Harry M. Vars Research Award. Does the route of feeding modify gut barrier function and clinical outcome in patients after major upper gastrointestinal surgery? JPEN J Parenter Enteral Nutr. 1997; 21: 196 – 201.
dc.identifier.citedreference	Santos AA, Rodrick ML, Jacobs DO, et al. Does the route of feeding modify the inflammatory response? [see comments]. Ann Surg. 1994; 220: 155 – 163.
dc.identifier.citedreference	Buchman A, Mestecky J, Moukarzel A, Ament M. Intestinal immune function is unaffected by parenteral nutrition in man. J Am Coll Nutr. 1995; 14: 656 – 661.
dc.identifier.citedreference	Sedman PC, MacFie J, Palmer MD, Mitchell CJ, Sagar PM. Preoperative total parenteral nutrition is not associated with mucosal atrophy or bacterial translocation in humans [see comments]. Br J Surg. 1995; 82: 1663 – 1667.
dc.identifier.citedreference	De Filippo C, Cavalieri D, Di Paola M, et al. Impact of diet in shaping gut microbiota revealed by a comparative study in children from Europe and rural Africa. Proc Natl Acad Sci U S A. 2010; 107: 14691 – 14696.
dc.identifier.citedreference	Carlisle EM, Morowitz MJ. Pediatric surgery and the human microbiome. J Pediatr Surg. 2011; 46: 577 – 584.
dc.identifier.citedreference	Tilg H, Kaser A. Gut microbiome, obesity, and metabolic dysfunction. J Clin Invest. 2011; 121: 2126 – 2132.
dc.identifier.citedreference	Costello EK, Stagaman K, Dethlefsen L, Bohannan BJ, Relman DA. The application of ecological theory toward an understanding of the human microbiome. Science. 2012; 336: 1255 – 1262.
dc.identifier.citedreference	Dowd SE, Callaway TR, Wolcott RD, et al. Evaluation of the bacterial diversity in the feces of cattle using 16S rDNA bacterial tag‐encoded FLX amplicon pyrosequencing (bTEFAP). BMC Microbiol. 2008; 8: 125.
dc.identifier.citedreference	Bailey MT, Dowd SE, Parry NM, Galley JD, Schauer DB, Lyte M. Stressor exposure disrupts commensal microbial populations in the intestines and leads to increased colonization by Citrobacter rodentium. Infect Immun. 2010; 78: 1509 – 1519.
dc.identifier.citedreference	Schloss PD, Westcott SL, Ryabin T, et al. Introducing mothur: open‐source, platform‐independent, community‐supported software for describing and comparing microbial communities. Appl Environ Microbiol. 2009; 75: 7537 – 7541.
dc.identifier.citedreference	Turnbaugh PJ, Ley RE, Hamady M, Fraser‐Liggett CM, Knight R, Gordon JI. The human microbiome project. Nature. 2007; 449: 804 – 810.
dc.identifier.citedreference	Martin R, Nauta AJ, Ben Amor K, Knippels LM, Knol J, Garssen J. Early life: gut microbiota and immune development in infancy. Benef Microbes. 2010; 1: 367 – 382.
dc.identifier.citedreference	Penders J, Thijs C, Vink C, et al. Factors influencing the composition of the intestinal microbiota in early infancy. Pediatrics. 2006; 118: 511 – 521.
dc.identifier.citedreference	Weimann A, Braga M, Harsanyi L, et al. ESPEN guidelines on enteral nutrition: surgery including organ transplantation. Clin Nutr. 2006; 25: 224 – 244.
dc.identifier.citedreference	Ley RE, Lozupone CA, Hamady M, Knight R, Gordon JI. Worlds within worlds: evolution of the vertebrate gut microbiota. Nat Rev Microbiol. 2008; 6: 776 – 788.
dc.identifier.citedreference	Adlerberth I, Wold AE. Establishment of the gut microbiota in Western infants. Acta Paediatr. 2009; 98: 229 – 238.
dc.identifier.citedreference	Guarner F, Malagelada JR. Gut flora in health and disease. Lancet. 2003; 361: 512 – 519.
dc.identifier.citedreference	Braga M, Ljungqvist O, Soeters P, Fearon K, Weimann A, Bozzetti F. ESPEN guidelines on parenteral nutrition: surgery. Clin Nutr. 2009; 28: 378 – 386.
dc.identifier.citedreference	Duro D, Kamin D, Duggan C. Overview of pediatric short bowel syndrome. J Pediatr Gastroenterol Nutr. 2008; 47 ( suppl 1 ): S33 – S36.
dc.identifier.citedreference	Spencer AU, Neaga A, West B, et al. Pediatric short bowel syndrome: redefining predictors of success. Ann Surg. 2005; 242: 403 – 409, discussion 409–412.
dc.identifier.citedreference	Gogos CA, Kalfarentzos F. Total parenteral nutrition and immune system activity: a review. Nutrition. 1995; 11: 339 – 344.
dc.identifier.citedreference	Perioperative total parenteral nutrition in surgical patients. The Veterans Affairs Total Parenteral Nutrition Cooperative Study Group. N Engl J Med. 1991; 325: 525 – 532.
dc.identifier.citedreference	Minard G, Kudsk KA. Effect of route of feeding on the incidence of septic complications in critically ill patients. Semin Respir Infect. 1994; 9: 228 – 231.
dc.identifier.citedreference	Gramlich L, Kichian K, Pinilla J, Rodych NJ, Dhaliwal R, Heyland DK. Does enteral nutrition compared to parenteral nutrition result in better outcomes in critically ill adult patients? A systematic review of the literature. Nutrition. 2004; 20: 843 – 848.
dc.identifier.citedreference	Sigalet DL, Mackenzie SL, Hameed SM. Enteral nutrition and mucosal immunity: implications for feeding strategies in surgery and trauma. Can J Surg. 2004; 47: 109 – 116.
dc.identifier.citedreference	Li J, Kudsk KA, Gocinski B, Dent D, Glezer J, Langekamp‐Henken B. Effect of parenteral and enteral nutrition on gut‐associated lymphoid tissue. J Trauma. 1995; 39: 44 – 51.
dc.identifier.citedreference	Feng Y, McDunn JE, Teitelbaum DH. Decreased phospho‐Akt signaling in a mouse model of total parenteral nutrition: a potential mechanism for the development of intestinal mucosal atrophy. Am J Physiol Gastrointest Liver Physiol. 2010; 298: G833 – G841.
dc.identifier.citedreference	Sun X, Yang H, Nose K, et al. Decline in intestinal mucosal IL‐10 expression and decreased intestinal barrier function in a mouse model of total parenteral nutrition. Am J Physiol Gastrointest Liver Physiol. 2008; 294: G139 – G147.
dc.identifier.citedreference	Yang H, Teitelbaum DH. Intraepithelial lymphocyte‐derived interferon‐gamma evokes enterocyte apoptosis with parenteral nutrition in mice. Am J Physiol Gastrointest Liver Physiol. 2003; 284: G629 – G637.
dc.identifier.citedreference	Feng Y, Sun X, Yang H, Teitelbaum D. Dissociation of E‐cadherin and beta‐catenin in a mouse model of total parenteral nutrition: a mechanism for the loss of epithelial cell proliferation and villus atrophy. J Physiol (London). 2009; 587: 641 – 654.
dc.identifier.citedreference	Fukatsu K, Kudsk KA. Nutrition and gut immunity. Surg Clin North Am. 2011; 91: 755 – 770.
dc.identifier.citedreference	Jonker MA, Hermsen JL, Sano Y, Heneghan AF, Lan J, Kudsk KA. Small intestine mucosal immune system response to injury and the impact of parenteral nutrition. Surgery. 2012; 151: 278 – 286.
dc.identifier.citedreference	Fukatsu K, Kudsk KA, Zarzaur BL, Wu Y, Hanna MK, DeWitt RC. TPN decreases IL‐4 and IL‐10 mRNA expression in lipopolysaccharide stimulated intestinal lamina propria cells but glutamine supplementation preserves the expression. Shock. 2001; 15: 318 – 322.
dc.identifier.citedreference	Yang H, Feng Y, Sun X, Teitelbaum DH. Enteral versus parenteral nutrition: effect on intestinal barrier function. Ann N Y Acad Sci. 2009; 1165: 338 – 346.
dc.identifier.citedreference	Sun X, Yang H, Nose K, et al. Decline in intestinal mucosal IL‐10 expression and decreased intestinal barrier function in a mouse model of total parenteral nutrition. Am J Physiol Gastrointest Liver Physiol. 2008; 294: G139 – G147.
dc.identifier.citedreference	Yang H, Finaly R, Teitelbaum DH. Alteration in epithelial permeability and ion transport in a mouse model of total parenteral nutrition. Crit Care Med. 2003; 31: 1118 – 1125.
dc.identifier.citedreference	Kudsk KA, Croce MA, Fabian TC, et al. Enteral versus parenteral feeding: effects on septic morbidity after blunt and penetrating abdominal trauma. Ann Surg. 1992; 215: 503 – 511, discussion 511–513.
dc.identifier.citedreference	Kiristioglu I, Teitelbaum DH. Alteration of the intestinal intraepithelial lymphocytes during total parenteral nutrition. J Surg Res. 1998; 79: 91 – 96.
dc.identifier.citedreference	Kiristioglu I, Antony P, Fan YY, et al. Total parenteral nutrition–associated changes in mouse intestinal intraepithelial lymphocytes. Digest Dis Sci. 2002; 47: 1147 – 1157.
dc.identifier.citedreference	Morowitz MJ, Poroyko V, Caplan M, Alverdy J, Liu DC. Redefining the role of intestinal microbes in the pathogenesis of necrotizing enterocolitis. Pediatrics. 2010; 125: 777 – 785.
dc.owningcollname	Interdisciplinary and Peer-Reviewed

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