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1 ) layer and dissipated in deeper layers (ie, submucosa).
2 monolayer by an intracellular pathway to the submucosa.
3  of serovar Typhi invasion of the intestinal submucosa.
4 ocation of this microorganism to the gastric submucosa.
5 as injected in a tangential fashion into the submucosa.
6 onella enterica serovar Typhi to the gastric submucosa.
7 ll types (nerves, inflammatory cells) in the submucosa.
8 tubuloacinar glands, and occasionally in the submucosa.
9 rated a few eosinophils within the bronchial submucosa.
10 t affecting the number of eosinophils in the submucosa.
11  from the tips of the villus back toward the submucosa.
12 these cells and subsequent invasion into the submucosa.
13 ntly in the epithelial cells but also in the submucosa.
14 lergic inflammation of the airway mucosa and submucosa.
15 lity to recruit mast cells in the intestinal submucosa.
16 ajority of cells expressing RELM-beta in the submucosa.
17  is distributed primarily within the vaginal submucosa.
18 l tumor cells were seen in the mucosa and/or submucosa.
19  of pericardium, dermis, and small intestine submucosa.
20  of the submucosa, or the final third of the submucosa.
21 ficantly more likely to be invasive into the submucosa.
22  lamina propria, whereas Mf4 was enriched in submucosa.
23 here is no "safe" level of invasion into the submucosa.
24 epth of tumor infiltration of the mucosa and submucosa.
25 in 4 expression in the intestinal mucosa and submucosa.
26  that extended into the deeper layers of the submucosa.
27 c mucosal resection in gastric cancer to the submucosa.
28 sed in colonic muscularis externa and mucosa/submucosa.
29 of wound repair in a model of the intestinal submucosa.
30 etter represents the normal human mucosa and submucosa.
31 ction with macrophages within the intestinal submucosa.
32  in the intestinal epithelium but not in the submucosa.
33 ere largely absent around gland acini in the submucosa.
34 cells compared with 47% of mast cells in the submucosa.
35 d to smooth muscle and isolated cells in the submucosa.
36 Y1 R, P2Y2 R, P2Y4 R, P2Y6 R, and P2Y12 R in submucosa.
37 into the bowel wall layers, particularly the submucosa (29).
38 infected cells were detected in the cervical submucosa 3-4 days after exposure to a primary HIV isola
39              Collagen content of the gastric submucosa 5 mm below the anastomosis was quantified, and
40 ircumferential doughnut of rectal mucosa and submucosa above the dentate line excised and closed with
41 actic gradient to guide neutrophils from the submucosa across epithelia to the luminal site of an inf
42 r patient's resected tumor invaded only into submucosa and all lymph nodes were negative; in that sen
43 tivity within the gastric mucosa and gastric submucosa and also within the tuberomamillary nucleus of
44 stinal (GI) tissue revealed edema within the submucosa and altered mucous cell morphology.
45 responsiveness by infiltrating the bronchial submucosa and disrupting airway smooth muscle (ASM) cell
46 ric gp41; 2) produced by plasma cells in the submucosa and ectopic tertiary lymphoid follicles in the
47 onuclear cell inflammation of the mucosa and submucosa and epithelial cell proliferation and dediffer
48 ificantly more IL-17RA-positive cells in the submucosa and epithelium in children with STRA compared
49  cells develop after birth in the intestinal submucosa and expand around the crypts during the third
50 nfected mice, most jejunal MCs reside in the submucosa and express mMCP-6 and mMCP-7, but not mMCP-9
51 l intestines were processed as whole mounts (submucosa and mucosa removed) to examine CSMG efferent t
52 a conspicuous eosinophilic infiltrate in the submucosa and muscle layers, but the villi were unaffect
53  mRNA and the influx of neutrophils into the submucosa and muscularis propria.
54 ular and longitudinal muscles and within the submucosa and serosa.
55 9, essentially all of the MCs in the jejunal submucosa and spleen of T. spiralis-infected mice expres
56 b reduced eosinophil counts in airway mucosa/submucosa and sputum and suppressed eosinophil counts in
57 the carcinoid tumors of the gastrointestinal submucosa and the islet cell endocrine tumors of the pan
58 es mean+/-SD, lumen-negative with respect to submucosa) and was significantly more lumen-negative tha
59  around smooth muscle cells of the asthmatic submucosa, and (iii) around reserve cells of the asthmat
60 umors were confined to the mucosa, 16 to the submucosa, and 13 to the muscularis propria, and 55 were
61  large and small airways, airway epithelium, submucosa, and alveolar walls.
62 ies inhibited neutrophil infiltration in the submucosa, and cyclosporine A inhibited the tissue expre
63  gammadelta T cells in the thymus, the colon submucosa, and during early tumorigenesis.
64  and histological alterations in the mucosa, submucosa, and serosa.
65 lic inflammation was enumerated in bronchial submucosa, blood, and sputum and related to their body m
66 Vessels were larger and more numerous in the submucosa but not the mucosa.
67 e flow of nonself antigens in the intestinal submucosa can cause both intestinal and extraintestinal
68 umbers of chymase-positive mast cells in the submucosa compared to patients with nonpersistent obstru
69 nd TGF-beta3 in normal tongue and esophageal submucosa compared with gut mucosal tissues, as well as
70                    The intestinal mucosa and submucosa contain three types of lymphoid tissues rangin
71 anscriptase polymerase chain reaction of the submucosa demonstrated mRNA for P2Y1R, P2Y2, P2Y4, P2Y6,
72   Similar results were observed with porcine submucosa derived from urinary bladder.
73                             Small intestinal submucosa-derived extracellular matrix (SIS-ECM) has bee
74 of cells within the bronchial epithelium and submucosa expressing mRNA for TSLP, TARC/CCL17, MDC/CCL2
75 s in the mucosa and 100% of the cells in the submucosa expressing TNF-alpha mRNA were identified as m
76 pithelioid features involving the mucosa and submucosa (Fig 1A).
77                                      Bladder submucosa from cured mice contained residual populations
78 ere was widespread injury to tracheal mucosa/submucosa from the use of CASS.
79 ts without involvement of the mucosa and the submucosa had isolated remnants in the muscle layer (5/1
80 limited to the mucosa in 22 (88%) and to the submucosa in 3 (12%).
81 atients with asthma and are increased in the submucosa in a subgroup of obese patients with asthma (O
82 ion of this organism to the gastrointestinal submucosa in transgenic mice that are heterozygous carri
83                              Division of the submucosa into thirds did not show a layer with a signif
84               Macrophage accumulation in the submucosa is also an important feature in the pathogenes
85                              Invasion of the submucosa is associated with significant risk of LNM.
86 iral infection and chronic inflammation, the submucosa is susceptible to bacterial invasion by lung m
87 P-1 as the cells progressively appear in the submucosa, lamina propria, and epithelium, respectively.
88 The mucosa showed high signal intensity, the submucosa low signal intensity, and the muscularis propr
89 2 cm in diameter, localized to the mucosa or submucosa, may be safely and effectively removed via min
90 associated gastrinomas, which develop in the submucosa, might arise from enteric glial cells through
91 es and eight with gastric wall infiltration (submucosa, n = 4; muscularis propria, n = 3; serosa, n =
92 studies demonstrate that, in contrast to the submucosa, nerve fibers innervating the epithelium of th
93                            The proportion of submucosa occupied by ASM was higher in both asthma grou
94            DO11.10 T cells were found in the submucosa of C. parvum-infected, but not uninfected, BAL
95 aled that more CFTR bound to S. typhi in the submucosa of Cftr wild-type mice than in deltaF508 heter
96 ells were frequently observed in the gastric submucosa of Gal3-deficient mice.In vitro, peritoneal ma
97 ers within the smooth muscle, epithelium and submucosa of healthy subjects (n = 10) and well-characte
98 was significantly increased in the bronchial submucosa of human asthmatics compared with controls, an
99     Examination of the intestinal epithelial submucosa of mice after primary and secondary infections
100 t lead to excessive fibrin deposition in the submucosa of NP, which might contribute to the tissue re
101 te to the excessive fibrin deposition in the submucosa of NP, which might contribute to the tissue re
102 al vascular architecture was observed in the submucosa of the jejunum of human patients, cows, and sh
103 l-associated lymphoid organs embedded in the submucosa of the nasal passage, in the initial priming a
104 on-emitting molecular imaging agent into the submucosa of the porcine urinary bladder.
105 ctrodes in the submucosa of the stomach, the submucosa of the small bowel, and the abdominal wall mus
106 from a collagen biomaterial derived from the submucosa of the small intestine and type I bovine colla
107 resuscitation as pH measured directly in the submucosa of the stomach or small bowel.
108       pH was measured with electrodes in the submucosa of the stomach, the submucosa of the small bow
109 ipt and protein were observed in the jejunal submucosa of Trichinella spiralis-infected BALB/c mice.
110  framework of dual involvement of mucosa and submucosa on the one hand, and of the muscularis propria
111 rd of the submucosa, the middle third of the submucosa, or the final third of the submucosa.
112                 Not only infiltration of the submucosa (P=0.002) but also lymphatic vessel invasion (
113 subjects (mean [SEM]: 78 [5] vs 22 [3]/mm(2) submucosa, P < .001).
114            In the vas deferens and the ileal submucosa, P2X1 immunoreactivity (ir) was restricted to
115                   In Ussing chambered mucosa-submucosa preparations (including the submucosal plexus)
116 h stroking-evoked Isc response in mucosa and submucosa preparations (M-SMP) of rat colon was reduced
117  infiltration of eosinophils into the airway submucosa; proliferation of goblet cells in the airway e
118 , cytokines are released into the mucosa and submucosa propagating and sustaining the inflammatory re
119 iated with tumors confined to the mucosa and submucosa provides justification for more limited and le
120 ing NP retention of plasma proteins in their submucosa remain unclear.
121 lying NP retention of plasma proteins in the submucosa remain unclear.
122 of the villi, the base of the villi, and the submucosa, respectively.
123 btained by lavage or scraping, and the nasal submucosa, sampled by biopsy, are two distinct compartme
124 de metastases once the tumor infiltrates the submucosa seems to necessitate surgery in these cases.
125  rejection primarily involves vessels of the submucosa, serosa, and mesentery, some mucosal alteratio
126 r esophageal cancer, both the mucosa and the submucosa show frequent residual malignant involvement.
127                     Porcine small intestinal submucosa (SIS) has been widely used in tunica albuginea
128                             Small intestinal submucosa (SIS) is a cell-free collagen matrix derived f
129                     Porcine small intestinal submucosa (SIS) is an acellular, naturally derived extra
130 omaterials, such as porcine small-intestinal submucosa (SIS), have been successfully used clinically
131 e of a biologic prosthesis, small intestinal submucosa (SIS), in LPEHR.
132 irds of pT1a = mucosa (m1, m2, m3) or pT1b = submucosa (sm1, sm2, sm3) and number and infiltration of
133 ddle (m2), lower (m3) third of the mucosa or submucosa (sm1, sm2, sm3).
134 86% fewer S. typhi into the gastrointestinal submucosa than wild-type Cftr mice; no translocation occ
135 C populations were transitional forms in the submucosa that expressed mMCP-2 and mMCP-5 without mMCP-
136 e day 3 with lymphocytic infiltration of the submucosa that progressed to the epithelial surface-thes
137 nfined to the mucosa, the first third of the submucosa, the middle third of the submucosa, or the fin
138 polymorphonuclear leukocytes (PMNs) from the submucosa to the lumen of the intestine.
139 ammation, when the jejunal MCs move from the submucosa to the tips of the villus, the MCs briefly exp
140 ad LNM (4%), and 2 of 19 "final third of the submucosa" tumors had LNM (11%).
141 sion showed that 5 of 22 "first third of the submucosa" tumors had LNM (23%), 1 of 24 "middle third o
142  had LNM (23%), 1 of 24 "middle third of the submucosa" tumors had LNM (4%), and 2 of 19 "final third
143  expression for RANTES in the epithelium and submucosa was 26 +/- 9% and 26 +/- 10% in the asthmatic
144 .03), and the amount of smooth muscle in the submucosa was increased 50-83% (p < 0.005).
145  neutrophilic infiltration of the mucosa and submucosa was observed from day 1 until day 14 and was a
146 f the muscular layer, whereas the mucosa and submucosa were normal.
147           Eosinophils and neutrophils in the submucosa were quantified by means of immunohistochemica
148                               The mucosa and submucosa were removed and muscle strips were cut and pi
149                               The mucosa and submucosa were removed, and strips of longitudinal muscl
150  are key structural cells that reside in the submucosa where they are in contact with large numbers o
151 sed inflammation and bacterial access to the submucosa, which are fundamental aspects of S. flexneri
152 /54, 0%), 65 patients had tumor invading the submucosa with 8 patients having LNM (8/65, 12%).
153             Histology revealed a widening of submucosa, with an increase in inflammatory cells, diffu

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