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1 t the time of colonoscopy than those without adenoma.
2 eded the formation of aberrant crypt foci or adenoma.
3 for the two main tissue types of healthy and adenoma.
4 enefits most patients with intermediate-risk adenomas.
5 the 18 patients with 21 to approximately 100 adenomas.
6 etection of 2483 cancers and 12,030 advanced adenomas.
7 ND1 regulatory genes in sporadic parathyroid adenomas.
8 as/polyps (SSA/Ps), and traditional serrated adenomas.
9 compared with corresponding benign precursor adenomas.
10 promising new approaches to treat pituitary adenomas.
11 y macrophages) in human and mouse intestinal adenomas.
12 tivation of an oncogene in established colon adenomas.
13 SAs, and 2.3% for patients with conventional adenomas.
14 e primary outcome was prevalence of advanced adenomas.
15 nic mice developing autochthonous intestinal adenomas.
16 d 0.98 (0.96-1.0) between CRC and colorectal adenomas.
17 gher than that of patients with conventional adenomas.
18 Most patients (59.9 %) had adenomas.
19 nondiminutive serrated lesions and advanced adenomas.
20 d the prevalence of any adenomas or advanced adenomas.
21 ase regulator, is upregulated in parathyroid adenomas.
22 ent hemoglobin in detecting CRC and advanced adenomas.
23 rapid progression of some polyps to advanced adenomas.
24 d inactivation of these genes in parathyroid adenomas.
25 ions such as aseptic meningitis or pituitary adenomas.
26 2 adenomas at the index examination (RR vs 1 adenoma, 1.47; 95% CI, 1.27-1.71), more than 3 serrated
27 l, 3340 participants (20.4%) had nonadvanced adenomas, 1643 participants (10.0%) had advanced adenoma
28 portions of subjects found to have 1 or more adenomas (38.8% vs 41.7% respectively; P = .27), advance
29 CI: 2.02-19.53; P = .001) and all colorectal adenomas (39.0% vs 19.0% in unexposed; mOR = 3.29; 95% C
30 P < .001), as was the prevalence of villous adenomas (5.5% vs 1.3% in unexposed; mOR = 6.28; 95% CI:
32 with Lynch syndrome--78 low-grade dysplastic adenomas, 57 high-grade dysplastic adenomas, and 31 colo
33 person sensitivity and specificity to detect adenomas 6 mm and larger comparable with colonoscopy (se
34 8% vs 41.7% respectively; P = .27), advanced adenomas (7.7% vs 8.2%; P = .73) or clinically significa
35 g allowed correct localization of nine of 10 adenomas (90% sensitivity), without any false-positive r
36 757 cases vs 1698 controls with conventional adenomas (95% CI, 2.25-2.80), and 1.30 in the 55 cases v
38 ells' associations with synchronous advanced adenoma (AA) and colorectal carcinoma (CRC) is currently
39 cellular vesicle samples of 6 adrenocortical adenomas (ACA) and 6 histologically verified adrenocorti
44 xpressed by intestinal stem cells [ISCs] and adenomas) affects intestinal homeostasis, regeneration,
45 y drug sulindac decreases size and number of adenomas after 4-6 months of treatment for familial aden
46 iminate chief cell adenoma from oxyphil cell adenoma allowed us to correctly classify >99% of the spe
47 g in both types of adenomas, with Apc-mutant adenomas also exhibiting unique changes in pathways rela
48 each group: 1.3% [95% CI, -0.1% to 2.8%] for adenoma and 0.7% [95% CI, -0.2% to 1.6%] for advanced ne
49 each group: 9.0% [95% CI, 7.3% to 10.7%] for adenoma and 2.4% [95% CI, 1.3% to 3.3%] for advanced neo
50 ach group: 10.3% [95% CI, 9.5% to 12.1%] for adenoma and 3.1% [95% CI, 2.0% to 4.1%] for advanced neo
51 usual care, the between-group differences in adenoma and advanced neoplasia detection rates were high
52 novel driver mutations that developed during adenoma and cancer evolution, particularly in OR1B1 (GPC
54 r adenomatous polyps, we found that both the adenoma and cancer were of monoclonal origin, and both s
55 ummary, we demonstrated that both colorectal adenoma and CRC are monoclonal in origin, and the CRCs f
56 emoglobin/g), positive predictive values for adenoma and CRC, and FIT sensitivity for detecting CRC o
57 Moreover, mixed tumors with hepatocellular adenoma and hepatoblastoma (HB) were also frequently obs
58 apping fashion in parathyroid chief cells in adenoma and hyperplastic glands, and also in normal para
60 ility criteria included a recently diagnosed adenoma and no remaining colorectal polyps after complet
63 TH)-secreting tumors account for 2% to 6% of adenomas and are associated with obesity, hypertension,
64 Large polyps, advanced neoplasia (advanced adenomas and cancer), and invasive cancer were seen in 3
65 rmance of CTC in the detection of colorectal adenomas and cancers using endoscopy as the reference st
66 rence of parathyroid tumours, often atypical adenomas and carcinomas, ossifying jaw fibromas, renal t
69 as in the siblings of patients with advanced adenomas and compared it with that of siblings of indivi
72 clinically relevant parameters on pituitary adenomas and may represent a valuable therapeutic tool.
74 ge-related cells are often dispersed in lung adenomas and PanINs, contrasting with more contiguous gr
76 nctioning adenomas account for 15% to 54% of adenomas and present with mass effects; surgery is gener
81 ontralateral side of the neck, missed double adenoma, and absence of any abnormal lesion detected on
82 ells from patients with IBD, IBD-cancer, FAP-adenoma, and colorectal cancer, but not in patients with
84 es of 14 patients with CRC, 16 with advanced adenomas, and 18 with nonadvanced adenomas, as well as 2
85 omas, 1643 participants (10.0%) had advanced adenomas, and 189 participants (1.2%) had colorectal can
86 as/polyps, 70 sporadic high-grade dysplastic adenomas, and 19 hyperplastic polyps--and tissue derived
88 es of 81 patients with CRC, 40 with advanced adenomas, and 43 with nonadvanced adenomas, as well as 1
90 and serrated or hyperplastic, and polyps or adenomas, and colorectal (or synonymous terms), publishe
93 and its main subtypes, aldosterone-producing adenoma (APA) and bilateral adrenal hyperplasia (BAH), r
100 h advanced adenomas, and 43 with nonadvanced adenomas, as well as 129 persons without colorectal neop
101 h advanced adenomas, and 18 with nonadvanced adenomas, as well as 24 persons without colorectal neopl
102 ite, 1.7; 95% CI, 1.22-2.43), detection of 2 adenomas at the index examination (RR vs 1 adenoma, 1.47
106 ct of vitamin D3 supplementation on advanced adenomas, but not on adenoma risk overall, significantly
107 orectal cancer (CRC) and colorectal advanced adenoma (CAA)] frequently develop in individuals at ages
108 nosed at >/=60 years with CRC or an advanced adenoma can be offered average-risk screening options be
113 pt cells, differentiated surface epithelium, adenomas, carcinomas and metastases, and used gene expre
114 ur persons comprised colorectal and duodenal adenomas, colorectal cancer, gastric cancer, and an earl
115 noma had a 6-fold increased odds of advanced adenoma compared with subjects who had a sibling with a
116 (R990H) identified in aldosterone-producing adenomas conducts omega-currents in resting state, but n
117 ecorded Paneth cell status in the colorectal adenomas consecutively collected between February 2014 a
118 in hypercortisolemia with cortisol-producing adenoma (CPA), and to investigate a possible relationshi
119 oid expansion stimulated by HGF or EGF using adenomas derived from Lgr5(Creert2)/Met(fl/fl)/Apc(fl/fl
120 Participants in the trial had at least 1 adenoma, detected at their index colonoscopy, and were r
123 cyclooxygenase (COX)-2 abrogates intestinal adenoma development at early stages of colorectal carcin
124 ted in gastric metaplasia, inflammation, and adenoma development, characterized by excessive STAT3 ac
125 nificance: These findings suggest that colon adenomas driven by APC mutations are distinct from those
128 occurrence of 1 or more adenomas or advanced adenomas (estimated diameter, >/=1 cm; or with villous h
129 ularly in OR1B1 (GPCR signaling pathway) for adenoma evolution, and LAMA1 (PI3K-Akt signaling pathway
130 rs, restores host tissue growth and contains adenoma expansion, indicating that cell competition is e
131 gh the dysregulated mucosal barrier in colon adenomas, facilitates the adenoma to adenocarcinomas tra
134 ion results in lung hyperplasia, followed by adenoma formation and later adenocarcinoma development.
137 proliferative zone observed in crypts before adenoma formation, also found in irradiated crypts.
138 f ETBF clearance profoundly influences colon adenoma formation, defining a period during which the co
141 , cells explanted from miR-34a/b/c-deficient adenomas formed tumor organoids at an increased rate.
146 LS-DA model built to discriminate chief cell adenoma from oxyphil cell adenoma allowed us to correctl
148 We identified mosaic variants in APC in adenomas from 9 of the 18 patients with 21 to approximat
149 x-2 in colorectal (but not small intestinal) adenomas from cLys-Cox-2 x Apc (Min/+) mice was associat
152 upregulated upon detachment via pleomorphic adenoma gene 1 (PLAG1), provides anti-anoikis and pro-me
153 regulation of the proto-oncogene pleomorphic adenoma gene 1 (PLAG1), suggesting that HMGA2 promotes t
155 -mediated signalling from macrophages drives adenoma growth and progression in vivo in the Apc (Min/+
158 A/P), traditional serrated adenomas, tubular adenomas >/=10 mm or with high-grade dysplasia, and conv
159 /=6 mm was 90.7% (95% CI, 86.7-94.5) and for adenomas >/=10 mm the negative predictive value was 98.6
161 The negative predictive value of CTC for adenomas >/=6 mm was 90.7% (95% CI, 86.7-94.5) and for a
162 y, proximal polyps, or a high-grade or large adenoma (>/=20 mm) at baseline (8865 [74%] patients) was
163 ings of individuals with at least 1 advanced adenoma had a 6-fold increased odds of advanced adenoma
164 , premalignant potential of sessile serrated adenomas has been described and screening utilization of
166 events in hepatocellular carcinoma (HCC) and adenoma (HCA), particularly associated with a risk of ma
172 d the prevalence of any adenomas or advanced adenomas [highest compared with lowest: red meat, PR: 1.
173 ified patients who has aldosterone producing adenoma (HR = 0.50, p = 0.005) also confirmed adrenalect
174 s effects of index SPs (n = 1016), high-risk adenomas (HRA, n = 817), low-risk adenomas (n = 1418), a
175 cells, normal mouse intestinal epithelia and adenomas, human cancer cell lines with or without drug t
176 lonoscopy examinations at 3 or 5 years after adenoma identification, as recommended by the endoscopis
177 in Apc-mutant and Ctnnb1-mutant mouse colon adenomas identified candidate genes for subsequent evalu
178 ctomy for iris melanoma in 15 cases and iris adenoma in 1 case underwent prosthetic iris device impla
179 lyps) were found in 98 cases (7 %), low risk adenoma in 158 cases (11.3 %), and hyperplastic polyps i
180 mily history of CRC or a documented advanced adenoma in a first-degree relative age <60 years or 2 fi
183 ed to participate in the formation of benign adenomas in autophagy-deficient livers, its role in HCC
184 TAT3 to the spontaneously developing gastric adenomas in gp130(F/F) mice, which carry a knockin mutat
187 been shown to be associated with colorectal adenomas in many, but not all, studies, and the associat
188 A) showed significantly decreased binding to adenomas in the mouse tissue and in sections of human co
190 ence, a >/=90% negative predictive value for adenomas in the rectosigmoid and a >/=90% agreement in s
191 y associated with the prevalence of advanced adenomas in the rectum only (multiple times per day comp
192 y associated with the prevalence of advanced adenomas in the rectum, but prospective cohort studies a
193 We determined the prevalence of advanced adenomas in the siblings of patients with advanced adeno
194 ve case-control study using 1,900 colorectal adenomas including 785 from females, and 1,115 from male
196 saic c.4666dupA APC variant in only 10 of 16 adenomas, indicating the importance of screening 2 or mo
200 of segments with BBPS scores of 1 had missed adenomas larger than 5 mm (15.9%) than segments with BBP
201 quate bowel preparation for the detection of adenomas larger than 5 mm and should return for screenin
202 me was the proportion of colon segments with adenomas larger than 5 mm that were missed in the first
203 d show that forced upregulation of CBS in an adenoma-like colonic epithelial cell line is sufficient
204 mice initially formed hyperplastic and early adenoma-like lesions that later completely regressed, th
205 and progression of Apc (Min/+) mouse colonic adenomas, linked to increased epithelial cell beta-caten
206 idelines to survey individuals with low-risk adenomas (LRAs; 1-2 small tubular adenomas, < 1 cm) ever
207 h low-risk adenomas (LRAs; 1-2 small tubular adenomas, < 1 cm) every 5-10 years for colorectal cancer
209 on for the prevention of advanced colorectal adenomas may vary according to vitamin D receptor genoty
210 ctomy, were diagnosed with intermediate-risk adenomas mostly (>99%) between Jan 1, 1990, and Dec 31,
211 high-risk adenomas (HRA, n = 817), low-risk adenomas (n = 1418), and no adenomas (n = 3198) on subse
212 = 817), low-risk adenomas (n = 1418), and no adenomas (n = 3198) on subsequent HRA or large SPs (>1 c
214 , cell viability and apoptosis) in pituitary adenomas (n = 74), and to compare with the responses of
215 ma with high grade dysplasia, n = 3; villous adenoma, n = 3), and 20 cases with newly diagnosed prima
216 lonic lesions diagnosed in 56 cases (tubular adenoma, n = 36; tubulovillous adenoma with low grade dy
217 ow grade dysplasia, n = 27; sessile serrated adenoma, n = 4; tubulovillous adenoma with high grade dy
221 pe CaV 1.3 channels in aldosterone-producing adenomas of patients with primary hyperaldosteronism.
222 discordance, including incorrectly localized adenoma on the contralateral side of the neck, missed do
223 ons was uncommon when compared with advanced adenomas (one of 372 lesions vs 22 of 395 lesions, respe
224 Secondary outcomes included detection of any adenoma or advanced neoplasia (including CRC) and screen
225 ociation according to the type of colorectal adenoma or the location in the colorectum is unclear.We
226 elicited for their etiology, including being adenomas or adenocarcinomas [4, 5], virally transformed
227 es assessed were the occurrence of 1 or more adenomas or advanced adenomas (estimated diameter, >/=1
228 d meat consumption and the prevalence of any adenomas or advanced adenomas [highest compared with low
231 at were ultimately resected were neoplastic (adenomas or serrated lesions), of which 43% (nine of 21)
233 ost common cause in adulthood is a pituitary adenoma, or treatment with pituitary surgery or radiothe
242 imH mutation patterns of fecal isolates from adenoma patients (n= 59), colorectal cancer patients (n=
243 recursor lesions (including sessile serrated adenoma/polyps (SSA/P), traditional serrated adenomas, t
244 mprise hyperplastic polyps, sessile serrated adenomas/polyps (SSA/Ps), and traditional serrated adeno
247 lorectal tissue samples--48 sessile serrated adenomas/polyps, 70 sporadic high-grade dysplastic adeno
253 se model, which forms spontaneous intestinal adenomas, reductions in Gpr182 led to more adenomas and
255 ely 65% of the cases of hypercortisolism) is adenoma resection and medical therapies including ketoco
257 f 80% and 45% for detecting CRC and advanced adenomas, respectively, at 95% specificity, which was hi
258 lementation on advanced adenomas, but not on adenoma risk overall, significantly varied according to
259 cluded 1107 patients with 1 or more sporadic adenoma(s) removed from the colon or rectum at centers i
265 nsion of organoids generated from crypts and adenomas, stimulated by HGF or EGF, that were derived fr
267 of inflammation related to multiple hepatic adenomas that completely resolved after cessation of the
268 ere the proportion of patients with advanced adenomas, the total number of colorectal adenomas, and a
270 n of ODC in normal intestinal epithelial and adenoma tissue, and therefore PA reduction might be a po
275 ted adenomas (SSAs) and traditional serrated adenomas (TSAs) constituted 36.8% (137 of 372) and 4.3%
276 adenoma/polyps (SSA/P), traditional serrated adenomas, tubular adenomas >/=10 mm or with high-grade d
280 revalence of colorectal cancer and high-risk adenoma was found in the Thai population aged 50-65 year
283 SUVmax of the nine preoperatively identified adenomas was 4.9 (interquartile range, 2.45-7.35), which
284 In a mouse lung model of KRas(G12D)-driven adenomas, we find that co-activation of Myc drives the i
292 ed precancerous colon polyps and soft tissue adenomas, whereas short-stature humans harboring an inac
293 ease (hypercortisolism due to ACTH-producing adenomas, which is the cause in approximately 65% of the
294 ated Apc (R850X/+) (Min), develop intestinal adenomas, while the bulk of the disease is in the small
295 ssile serrated adenoma, n = 4; tubulovillous adenoma with high grade dysplasia, n = 3; villous adenom
296 ases (tubular adenoma, n = 36; tubulovillous adenoma with low grade dysplasia, n = 27; sessile serrat
297 n FCH PET/MR imaging allowed localization of adenomas with high accuracy when conventional imaging re
298 ysis, only 7 participants (26.9%) identified adenomas with sufficient sensitivity such that further a
299 with high-grade dysplasia, and conventional adenomas with villous histology) were seen in 4.3% of pa
300 ted canonical Wnt signaling in both types of adenomas, with Apc-mutant adenomas also exhibiting uniqu
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