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1 ll as influence on physiology outside of the alimentary tract.
2 cells of the kidney, respiratory tract, and alimentary tract.
3 long the vertical and horizontal axes of the alimentary tract.
4 g those found on the mucosal surfaces of the alimentary tract.
5 normal growth and development of the infant alimentary tract.
6 sed NGF content in the hyperplastic diabetic alimentary tract.
7 the epithelial cells of the rat and porcine alimentary tract.
8 ted into the dynamic microenvironment of the alimentary tract.
9 ze the urethra and partition the urinary and alimentary tracts.
10 as 398, distributed as follows: abdomen 102, alimentary tract 63, breast 54, endoscopic 51, vascular
11 ns is a component of the normal flora of the alimentary tract and also is found on the mucocutaneous
12 o organisms that abound and replicate in our alimentary tract and cover our skin and the mucosa linin
13 11 supports mucous membrane integrity of the alimentary tract and decreases the systemic inflammatory
14 ar more breast operations and fewer abdomen, alimentary tract and laparoscopic procedures compared to
15 ifying at 10 years performed more abdominal, alimentary tract and laparoscopic procedures compared to
16 cans, a component of the normal flora of the alimentary tract and mucocutaneous membranes, is the lea
17 olonizing the mucosa lining our orifices and alimentary tract and proliferating in fluids and cells w
18 ertain epithelial cells throughout the human alimentary tract and to have a unique localization in th
19 e endoscopic procedures and fewer abdominal, alimentary tract, and laparoscopic procedures than urban
20 nses, decreased number of C. albicans in the alimentary tract, and reduced numbers of orogastric infe
21 ompass all such connections that involve the alimentary tract, and they can be congenital or acquired
23 lysaccharide utilization loci in three human alimentary tract-associated Bacteroidetes, expansions th
24 2009 in the European Pan-European Trials in Alimentary Tract Cancer (PETACC)-8 randomized phase 3 cl
25 es from the PETACC-3 (Pan-European Trails in Alimentary Tract Cancers) clinical trial were used to as
26 in contrast to adult mice, were resistant to alimentary tract colonization by Candida albicans for 5-
28 versely, nontransgenic control rats survived alimentary tract colonization with the Hly+ strain, and
29 Surgical Oncology/Society for Surgery of the Alimentary Tract consensus guidelines defined LA and bor
32 sympathetic ganglia innervating the diabetic alimentary tract coupled with intact receptor expression
35 s wild-type and mutant strains colonized the alimentary tracts equally well and were able to transloc
36 ention of virions in regions of the vector's alimentary tract from which they subsequently can be ege
38 igestion process simulated in the artificial alimentary tract, including the stomach, small intestine
39 lity of poliovirus to replicate in the mouse alimentary tract is not solely due to the absence of vir
41 r (GC), an aggressive malignant tumor of the alimentary tract, is a leading cause of cancer-related d
42 sorders of eyes, skin, ears, respiratory and alimentary tracts, kidneys, bones, and joints, and traum
43 axenic cockroaches (no microorganisms in the alimentary tract) lacked 12 major fecal VCAs, and 24 of
45 nized and persisted, in pure culture, in the alimentary tracts of both mouse strains for the entire s
46 The numbers of C. albicans present in the alimentary tracts of euthymic bg/bg-nu/+ mice were signi
49 m the 1980s on, experience with this complex alimentary tract operation increased, and high-volume ce
51 indicate that absorption within the proximal alimentary tract precludes its delivery to the distal gu
52 ly regarded as benign dwellers of the insect alimentary tract, represent a relatively obscure group w
53 athologies including segmental distention of alimentary tract, retention of urine in renal pelvis, di
55 ated in various segments of canine abdominal alimentary tract (stomach, duodenum, small bowel, and co
58 ion of several organ responses including the alimentary tract, urinary bladder, heart and adrenal gla
59 breakdown during their transit in the human alimentary tract, which has been assumed to occur throug
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