ライフサイエンスコーパス: tissue sample

1 oduced to obtain the scattering pattern of a tissue sample.

2 d on autophagy organelles originating from a tissue sample.

3 atter typically requiring weeks for cm scale tissue samples.

4 ls derived from both fresh and cryopreserved tissue samples.

5 tiplexing, imaging shorter RNAs, and imaging tissue samples.

6 lling typically requires paired tumor-normal tissue samples.

7 c tumors using mice and human cell lines and tissue samples.

8 SUFU) was identified in all tumor and normal tissue samples.

9 investigate gene expression in 159 of these tissue samples.

10 ate the molecular distribution of biological tissue samples.

11 ndrial proteins were compared from harvested tissue samples.

12 :0, C20:0, C22:0, C24:1, and C24:0) in brain tissue samples.

13 igh throughput sequencing data from unpaired tissue samples.

14 sequencing (ChIP-seq) analysis from archived tissue samples.

15 beta, IL-17, TNF-alpha, and PAR2 in gingival tissue samples.

16 ERG and IL-6 correlated strongly in prostate tissue samples.

17 e is a lack of tools to detect active PKC in tissue samples.

18 ic profiles of HGSC, BOT, and normal ovarian tissue samples.

19 ctivity-based probes (qABPs) to fresh-frozen tissue samples.

20 iles of 195 PDAC and 41 non-tumor pancreatic tissue samples.

21 abolites, lipids, and proteins in biological tissue samples.

22 chemical imaging and real-time diagnosis of tissue samples.

23 iR-218 levels and Slug/ZEB2 levels in cancer tissue samples.

24 ed with DNA methylation levels isolated from tissue samples.

25 olipids, and ceramides among 154 human liver tissue samples.

26 played a methylation frequency of 26%-82% in tissue samples.

27 in the stroma of matched ectopic and eutopic tissue samples.

28 ution, and metabolite imaging on mouse brain tissue samples.

29 rm the hybridization of DNA probes and cells/tissue samples.

30 ions detected in RNAseq data from 364 normal tissue samples.

31 (72.7%), as well as subcutaneous and corneal tissue samples.

32 predominant paraben metabolite found in all tissue samples.

33 ive epigenomics to 25 human primary cell and tissue samples.

34 ies are limited by the availability of fresh tissue samples.

35 d ultrastructural analyses were performed on tissue samples.

36 ndings were compared with results from human tissue samples.

37 could be automated on a single chip by using tissue samples.

38 cts in histologically non-malignant prostate tissue samples.

39 MSI method to image protein targets in FFPE tissue samples.

40 a in vitro cultivation of collected blood or tissue samples.

41 piration and ATP levels were also studied in tissue samples.

42 eled pancreatic ductal adenocarcinoma (PDAC) tissue samples.

43 a large overlap with biomarkers detected in tissue samples.

44 tive or postoperative classification of bulk tissue samples.

45 ChIP-seq data for 20 DAPs in two human liver tissue samples.

46 technique can be applied on tooth and brain tissue samples.

47 -types, which enabled prediction of age from tissue samples.

48 could be confirmed in human ischemic cardiac tissue samples.

49 ution of immunotherapeutic T cells in intact tissue samples.

50 s of formalin-fixed paraffin-embedded (FFPE) tissue samples.

51 etecting these individual species in cell or tissue samples.

52 t and the ability to process archival frozen tissue samples.

53 ormed on 46 HPV-positive OPSCC and 25 normal tissue samples.

54 le of 39 human EC and 17 healthy endometrial tissue samples.

55 protocol on small paraffin-embedded cardiac-tissue samples.

56 a specimen, has not been applied to clinical tissue samples.

57 ulated in gel matrix in the aim of mimicking tissue samples.

58 lexible, which limits suitability for direct tissue sampling.

59 nd development without the need for invasive tissue sampling.

60 are cell populations from noninvasive serial tissue sampling.

61 Overall, after adding a cohort of tissue samples, 38/76 (50%) of histopathology malignant

62 F2, VIM, and ZSCAN18) was investigated in 93 tissue samples (39 CCAs and 54 nonmalignant controls) us

63 mistry on a large subset of human colorectal tissue samples--48 sessile serrated adenomas/polyps, 70

64 A subset of tissue samples (8 subjects and 8 controls) were analysed

65 Gene-expression profiles of 94 fresh breast tissue samples (84 cancerous/10 non-tumor adjacent sampl

66 Most patients are diagnosed with tissue sample (96.8%).

67 Although normal tissue samples adjacent to tumors are sometimes collecte

68 Both the pre- and postdosing tissue samples adjacent to tumors show no definitive evi

69 ere the result of altered cell ratios in the tissue samples, an underappreciated source of expression

70 djacent non-malignant, and 9 normal prostate tissue samples) analysed on Illumina 450 K methylation a

71 accessibility profiles from archival frozen tissue samples and 50-mum sections, revealing the activi

72 al regulatory elements in genomes from human tissue samples and cell lines.

73 Relevant tissue samples and follow-up data from 11 patients with

74 free method can be used to screen native HD tissue samples and for potential drug screening.

75 ed in HPV-positive tumors compared to normal tissue samples and HPV-negative cases, and thus constitu

76 on a large series of patients with adequate tissue samples and incorporate molecular analyses.

77 ements in vivo at subcellular resolutions in tissue samples and multicellular organisms.

78 or illegal drug preparations, post-metabolic tissue samples and natural product extracts.

79 he promoter methylation in early stage NSCLC tissue samples and noninvasive bronchial brushing specim

80 of all MCM family members in Grade IV (GBM) tissue samples and observed a significant upregulation i

81 iravir significantly reduced viral titers in tissue samples and reduced mortality rates when compared

82 structural characterization of GSLs in small tissue samples and takes a step forward in the emerging

83 to PSA detection in human serum and prostate tissue samples and the obtained result is well agreed wi

84 breast cancer cell proliferation using human tissue samples and tumor xenografts in mice.

85 ity and 100% specificity in pancreatobiliary tissue samples and were therefore included in the pancre

86 controlled experimental system that enables tissue sampling and imaging.

87 fications and assess their prevalence across tissues, samples and families.

88 Cells were isolated from the tissue samples, and APCs were isolated by flow cytometry

89 ations, including tissue imaging of clinical tissue samples, and in drug discovery and development.

90 tion, species found in concurrently obtained tissue samples, and prior antibiotics, was 85/97 (88%; 9

91 IHC for MED15 was performed on 324 tissue samples, and TGF-beta assessed the use of Ki-67 a

92 cations, including doping in sports, in vivo tissue sampling, and therapeutic drug monitoring.

93 alveolar lavage (BAL) fluid; sputum and lung tissue samples; and pleural and spinal fluids.

94 Both data and tissue samples are available to the research community f

95 screening, during which multiple esophageal tissue samples are removed for histological analysis.

96 used the pathogen's clearance from blood and tissue samples as assessed at the end of the study.

97 ween the degree of metabolism at the site of tissue-sampling aspiration in lung lesions and the accur

98 f South Asian origin were studied and foetal tissues sampled at term delivery.

99 set of 222 histologically normal pancreatic tissue samples (beta = 0.26, P = 0.004), with the insert

100 ined detection was able to identify not only tissue samples but noninvasive bronchial brushing specim

101 damaging p.Gly45Glu GJB2 mutation present in tissue samples but not in blood samples.

102 clones that will be missing from a blood or tissue sample by chance (the missing-species problem), i

103 ate for protein imaging mass spectrometry on tissue samples by MALDI-TOF MS.

104 igra region of a large cohort of human brain tissue samples by Western blotting, quantitative PCR, an

105 The results based on tissue sampling by quantitative antibody assays show tha

106 nscriptome profiling of cancerous and normal tissue samples can provide insights into the molecular m

107 robust detection of mRNA molecules in thick tissue samples can reveal gene expression patterns in si

108 tructure and quantity of aggregates in small tissue samples, circumventing the above problem.

109 stologic assessment of 150 frozen esophageal tissues samples collected from 4 centers in the United K

110 us (eQTL) data in human subcutaneous adipose tissue samples confirmed that alleles associated with in

111 R primers (Cyr-FP and Cyr-RP) could identify tissue sample containing 750 mug to 4.76 mg/100mg of Mus

112 ssociated phosphopeptides presented by human tissue samples containing as little as nanograms of pept

113 vel phosphopeptides from cell line and human tissue samples containing picograms of starting material

114 east cancer, breast tumor and matched normal tissue sample data (as of September 18, 2015) were obtai

115 urrently isolated and expanded from a single tissue sample derived from human heart failure patients.

116 Most of the excised tissue samples displayed histological characteristics of

117 cellular heterogeneity: starting with crude tissue samples dissected from the nose, proceeding to fl

118 dent intermittent T cell migration regulates tissue-sampling during acute lung injury.

119 ive and negative ion modes from 78 different tissue samples, enabled diagnosis and prediction of HGSC

120 Tissue samples enriched in calretinin and parvalbumin in

121 For all tissues sampled, expression analysis revealed 831, 674 a

122 e healthy and NAFLD liver in mouse and human tissue samples, finding several triacylglyceride (TAG) a

123 Adequacy of the tissue sample for diagnostic testing and rates of biopsy

124 from formalin-fixed paraffin-embedded (FFPE) tissue samples for accurate detection of histone marks.

125 dies and cancer studies that monitor various tissue samples for each subject.

126 ment of the lungs' topography and collecting tissue samples for external analysis.

127 ersistence of immunopathological patterns in tissue sampled from different time points.

128 l diagnostics, we examined paraffin-embedded tissue samples from 10 NSCLC patients for the presence o

129 analysed 66 malignant and 134 non-malignant tissue samples from 107 patients, who underwent ultrasou

130 elanoma tumor biopsies and matching germline tissue samples from 110 patients.

131 These specimens were compared with brain tissue samples from 12 controls and 6 patients with Inci

132 esonance (MR) images and postmortem neuronal tissue samples from 13 patients who underwent at least f

133 nd biallelic loss-of-expression (LOE) in 172 tissue samples from 144 surgically repaired CHD subjects

134 from allelic expression data in 1582 primary tissue samples from 178 individuals from the Genotype-Ti

135 yzed RNA-seq data in tumor and normal breast tissue samples from 18 breast cancer patients and 18 hea

136 On the basis of ssNMR data from 37 cortical tissue samples from 18 individuals, we find that a singl

137 Anonymized tissue samples from 18 patients with active EoE were ana

138 This assay was applied to tissue samples from 190 patients with diffuse gliomas, i

139 evels were analyzed in temporal cortex brain tissue samples from 26 PD patients who were divided into

140 une 19, 2015, through April 30, 2017, ocular tissue samples from 4 deceased fetuses with a diagnosis

141 ND We performed metabolic profiling on brain tissue samples from 43 individuals ranging in age from 5

142 oss-sectional and longitudinal) derived from tissue samples from 50 BE patients to identify and valid

143 than 20,000 lipid compounds, measured in 669 tissue samples from 6 tissues of 35 species representing

144 ne expression profile data set (313 gingival tissue samples from a cross-sectional study of 120 perio

145 p. A47, has been recovered from several soft tissue samples from a patient undergoing reconstructive

146 To this end, we examined tissue samples from AC patients with end-stage heart fai

147 Postmortem brain tissue samples from AD patients, transgenic mouse models

148 Notably, heregulin was upregulated in tissue samples from an NSCLC patient who had an activati

149 f BCAR4 and YAP are positively correlated in tissue samples from breast cancer patients, where high e

150 of lung microbiota in 165 non-malignant lung tissue samples from cancer patients.

151 remaining candidates in exosomes, plasma and tissue samples from CRC patients and healthy controls.

152 virus DNA was found in 75% of genitourinary tissue samples from donors (18 of 24) with high JCV anti

153 Tissue samples from eight different organs and from bloo

154 metabolites of parabens were measured in 121 tissue samples from eight species of marine mammals coll

155 ase series, formalin-fixed paraffin-embedded tissue samples from five cases, including two newborn ba

156 al, the authors compared postmortem neuronal tissue samples from five patients who had undergone four

157 We analyzed tissue samples from free-ranging Rocky Mountain elk (Cer

158 ofiled mRNA in over 600 brain and peripheral tissue samples from HD knock-in mice with increasing CAG

159 XR1 expression is significantly increased in tissue samples from human and mouse models of DCM via We

160 veloped to detectRickettsiaspp. in ticks and tissue samples from humans and laboratory animals.

161 We also obtained intestinal tissue samples from infants (2 and 7 months old) undergo

162 ysis of immunostaining were applied to liver tissue samples from infants with BA.

163 he difficulty of obtaining multiple clinical tissue samples from involved organs is an obstacle that

164 eterologous genera (all at 10(4) CFU/ml), or tissue samples from mice infected with MRSA, there was c

165 uencing, we observed that the salivary gland tissue samples from nine different macaques had distinct

166 HH genes downstream from SMO in four of four tissue samples from nonresponders and upstream of SMO in

167 White adipose tissue samples from P2-null mice contain larger reserves

168 pared the expression of DXME in breast tumor tissue samples from patients representing three ethnic g

169 Cardiac tissue samples from patients suffering from ischemic hea

170 The scientific community has avoided using tissue samples from patients that have been exposed to s

171 ssion was also increased in left ventricular tissue samples from patients with acute MI.

172 in knockout mice and analyses of intestinal tissue samples from patients with IBS-D, MIR29 targets a

173 esources, and examined expression using lung tissue samples from patients with IPF and controls.

174 rom wild-type mice by 1 week post-I/R and in tissue samples from patients with myocardial infarction,

175 secretions of adhesion molecules in gingival tissue samples from patients with periodontitis and heal

176 aluated mannose-binding lectin expression in tissue samples from six patients who underwent surgery f

177 Ocular tissue samples from the 4 deceased fetuses (2 female, 2

178 wo patients, Perls staining was performed on tissue samples from the LSIR.

179 demonstrated MERFISH measurements of complex tissue samples from the mouse brain using this matrix-im

180 We calculated GARD for 8271 tissue samples from the TCC cohort.

181 nested PCR detected herpesviral DNA in brain tissue samples from two striped dolphins.

182 rtantly, miR-210 expression was increased in tissue samples from ulcerative colitis patients.

183 Of 3,864 tissues sampled from 551 fish, 1 spleen and 1 kidney sam

184 ctron microscopy technique adapted for thick tissue samples further confirmed the location of S. flex

185 ot and immunohistochemical analyses of heart tissue samples further revealed the high efficiency of h

186 n obtained by DESI-MSI/Lasso from pancreatic tissue samples has the potential to transform the evalua

187 the quantitative analysis of PCB sulfates in tissue samples have not been previously available, we ha

188 Recent large-scale genome analyses of human tissue samples have uncovered a high degree of genetic a

189 le cellular composition of colon and adipose tissue samples, highlighting one use of these cell-speci

190 t locus (eQTL) analysis in 1,425 normal lung tissue samples highlights RNASET2, SECISBP2L and NRG1 as

191 no-Sugar Mixture, that rapidly renders fixed tissue samples highly transparent and reliably preserves

192 detect individual differences from a single tissue sample, i.e. a single snapshot.

193 s with the greatest variation among 133 lung tissue samples identified five distinct clusters of high

194 Seq data from matched normal and tumor colon tissue samples identified numerous circRNAs specifically

195 Immunohistochemistry (IHC) analysis of sow tissue samples identified PCV3 antigen in skin, kidney,

196 e glucose/citrate ratio can be recorded on a tissue sample in 1 min or less, which is in sharp contra

197 the SPRi instrument was modified to insert a tissue sample in the fluidics chamber to facilitate the

198 anoDESI) that allows us to image proteins in tissue samples in a label-free manner at atmospheric pre

199 s also remained positive for the organism in tissue samples in deer but not in dogs.

200 erent biologic compartments (e.g., blood and tissue samples) in a clinical context.

201 cell lines perturbed pathways and in primary tissues samples including The Cancer Genome Atlas breast

202 l microfluidics to extract steroids from CNB tissue samples (including a solid-phase extraction clean

203 e we analyse the DNA methylome of 569 breast tissue samples, including 50 from cancer-free women and

204 ct microscopically abnormal regions in large tissue samples, independent of visual examination or bio

205 ctioning, which reliably subdivides embedded tissue samples into chunks (20 mum thick) optimally size

206 Accurate quantitation of microRNA (miRNA) in tissue samples is required for validation and clinical u

207 Culture of multiple periprosthetic tissue samples is the current gold standard for microbio

208 xome sequencing of paired blood and affected tissue samples isolated from a PEODDN lesion of a primar

209 the high autofluorescence background of many tissue samples, it is difficult to detect single-molecul

210 omics, which allow analysis of breast cancer tissue samples, leading to the first large-scale breast

211 nd malondialdehyde) were not detected in any tissue sample (limits of detection: 0.02-7.1 adducts/10(

212 Tissue-sampling methods and materials (9-gauge needles)

213 GT2B17) genes were quantified in human liver tissue samples (n = 125) using real-time PCR.

214 histological data of human colorectal cancer tissue samples (n = 20) including tumor cells, lymphocyt

215 rch, one important problem is that the solid tissue sample obtained from clinical settings is always

216 In practice, solid tumor tissue samples obtained from clinical settings are alway

217 immature (im) and mature (m) DCs in gingival tissue samples obtained from patients diagnosed with agg

218 tion are recapitulated in endometrial cancer tissue samples obtained from patients treated with antid

219 , ex vivo metabolic profiles of image-guided tissue samples obtained from patients with newly diagnos

220 Gingival tissue samples obtained from patients with: 1) AgP (aged

221 (RXR-alpha, -beta, -gamma) was performed on tissue samples obtained from tumor excision.

222 vestigate the complexity of autophagy in any tissue sample of interest.

223 Formalin-fixed paraffin-embedded tissue samples of 22 patients receiving a lung retranspl

224 Medical histories, as well as serum and tissue samples of 60 patients with EoE (15 CS naive, 45

225 din in ex vivo skin wound healing models and tissue samples of acute and chronic human wounds and obs

226 ry tissues, JCV DNA was detected in 45.1% of tissue samples of donors (32 of 71) with high JCV, 2.2%

227 s study, we examined PPARalpha expression in tissue samples of pancreatic cancer patients.

228 Tissue samples of patients with eosinophilic skin diseas

229 tecting replication-derived WHVNY RNA in the tissue samples of the livers and HCCs collected from thr

230 computed tomography (CT)-guided percutaneous tissue sampling of lung nodules.

231 two for HER2 amplification, and two clinical tissue samples, one for non-HER2 amplification and anoth

232 Initially, total RNA from 4 tissues samples per group was employed in transcriptomic

233 Tissue samples (plasma, saliva, serum or urine) from 169

234 used for a spatially precise neuronavigated tissue-sampling procedure during tumor resection.

235 Host transcriptome analysis of tissue samples processed by laser capture microdissectio

236 Chemical maps of tissue samples provide important information on biologic

237 hput, nano-resolution imaging of macroscopic tissue samples, providing an unprecedented means for str

238 umina HumanMethylation450 array in 134 human tissue samples, publicly available reduced representatio

239 ma specimens, genital and rectal fluids, and tissue samples (rectal, cervical, and vaginal) before an

240 ions in protein-coding regions in 140 benign tissue samples representing nine tissue-types (bladder,

241 Biomarker analysis from sequential tissue samples revealed a decrease in CD8 expression (20

242 [SD] age, 55.0 [10.8] years), 614 had tumor tissue samples scored for H&E sTILs and 427 for CD8 biom

243 idated by immunohistochemical staining in 62 tissue samples, showed the best cutoff to be 3.15 (sensi

244 programs of tumor nuclei in frozen archival tissue samples.Single cell RNA sequencing is a powerful

245 work, DESI DM-MSI experiments on biological tissue samples such as sea algae and mouse brain tissue

246 tifying cellular and molecular biomarkers in tissue samples that reflect the nature and magnitude of

247 AC patients with end-stage heart failure and tissue samples that were collected at different disease

248 Further study of archived PDNS tissue samples that were negative for PCV2 by IHC analys

249 electrotransport to process large and dense tissue samples that were previously infeasible in time w

250 Within lung tissue samples the microbiome was compared with results

251 nscript and protein were up-regulated in GBM tissue samples through a spleen tyrosine kinase (SYK)-de

252 titis (GAgP) are investigated using gingival tissue samples through omics-based whole-genome transcri

253 em cell populations from a single myocardial tissue sample to develop new insights for achieving myoc

254 Here, we studied primary tissue samples to characterise human epicardium developm

255 m individually paired BE and normal squamous tissue samples to estimate patient-specific BE onset tim

256 ntire experimental procedure-from collecting tissue samples to generating sequencing libraries-can be

257 logy, we selected small fresh frozen uterine tissue samples to investigate how the tissue preparation

258 or the study of the complexity of biological tissue samples to overcome the limitations of a single M

259 Tissue sampling took about the same time for PS VAB and

260 ho had bone marrow, fat pad, and solid organ tissue samples typed by liquid chromatography tandem mas

261 Patterns were consistent across tissue sample types.

262 tachment level were measured, and a gingival tissue sample was collected.

263 Using patient tissue samples we further show that BIRC3 expression inc

264 Tissue samples were acquired after institutional ethics

265 Tissue samples were adjudicated for histopathology diagn

266 d up by cardiac magnetic resonance (CMR) and tissue samples were analyzed by multiplexed quantitative

267 The tissue samples were analyzed by reverse transcription qu

268 The tissue samples were analyzed for vascularity, inflammato

269 ads generated from 80 human and 66 rat brain tissue samples were analyzed.

270 Subcutaneous adipose tissue samples were collected and analyzed for gene expr

271 arthroplasty from whom 1,437 periprosthetic tissue samples were collected and processed.

272 Three weeks post infection, intestinal tissue samples were collected for RNA-sequencing, with s

273 Placental tissue samples were collected from both groups and analy

274 Fecal, serum, lung, and colon tissue samples were collected from mice and analyzed for

275 Pancreatic tissue samples were collected from the KC(Pdx1), KPC(Pdx

276 Autopsy tissue samples were evaluated by light microscopy, Warth

277 In 10 fresh human cadavers, tissue samples were harvested in the anterior and poster

278 Although tissue samples were not sufficient to enable protein qua

279 Tissue samples were obtained 1 or 4 days after injection

280 Blood or tissue samples were obtained before and weekly after HCT

281 Long-term follow-up data and tissue samples were obtained from 2,137 postmenopausal w

282 Postmortem human hippocampus tissue samples were obtained from 8 patients with schizo

283 ring surgery, abdominal subcutaneous adipose tissue samples were optimally collected, stored, and ana

284 LM-LEC populations and 12 of 15 archived LM tissue samples were shown to bear common PIK3CA variants

285 Healthy conjunctive tissue samples were taken during cataract surgery.

286 Pathological tissue samples were taken during surgery on patients wit

287 Tissue samples were taken from lesions during the colono

288 Tissue samples were taken from proximal and distal graft

289 Tissue samples were taken from the liver margin of 39 pa

290 d immunohistochemistry of human osteosarcoma tissue samples were used to further evaluate the potenti

291 Frozen cardiac tissue samples were used to isolate cardiac myocyte nucl

292 g and identification of proteins directly on tissue samples, where histological information is preser

293 ven greater when it comes to applications to tissue samples, where tissue lysis and metabolite extrac

294 e differences in PSA concentration in cancer tissue samples which holds great promise in clinical scr

295 ine was identified as a marker in the muscle tissue samples which may offer potential for the detecti

296 Less-studied reservoirs are anatomical tissue samples, which have unknown cART penetration, con

297 probe dynamics of melanin in human pigmented tissue samples, which treats the ensemble of individual

298 or the percentage of cancer cells in cancer tissue sample, will bias the clustering results if not p

299 ived tissue-specific progenitors or relevant tissue samples with endothelial cells and mesenchymal st

300 were present in both primary and metastatic tissue samples, with notable exceptions such as ARID1A m