ライフサイエンスコーパス: tissue section

1 ebrosides, and triglycerides directly from a tissue section.

2 pace using mass spectra collected across the tissue section.

3 ation of lipid isomers in a metastatic mouse tissue section.

4 analysis of sub regions of a rat cerebellum tissue section.

5 toxylin and eosin (H&E) staining on the same tissue section.

6 e Opal 7 color Kit (PerkinElmer) in the same tissue section.

7 inding and tau antibody staining on the same tissue section.

8 p the 3D fibre orientation across the entire tissue section.

9 nked glycans and proteins from the same FFPE tissue section.

10 different proteins transferred from a single tissue section.

11 s the local concentration of RIF in the thin tissue section.

12 proteins from spatially defined regions of a tissue section.

13 ggests the presence of GdPO4 deposits in the tissue section.

14 diagnosis in minutes using a routine frozen tissue section.

15 ing ToF-SIMS imaging data from a mouse tumor tissue section.

16 urate representation of TIL burden in a full tissue section.

17 identified from a FFPE mouse ovarian cancer tissue section.

18 ns, developing embryos, and centimeter-scale tissue sections.

19 for capturing distributions of molecules in tissue sections.

20 ial correlations of gene expression in fixed tissue sections.

21 ixed paraffin-embedded (FFPE) cell block and tissue sections.

22 atial mapping of hundreds of biomolecules in tissue sections.

23 s of samples, bacteria cocultures, and brain tissue sections.

24 e kinase signaling in cancer cells and tumor tissue sections.

25 A species simultaneously in cells and entire tissue sections.

26 from formalin-fixed paraffin-embedded (FFPE) tissue sections.

27 tions of elements and proteins in biological tissue sections.

28 lipid species with subcellular resolution in tissue sections.

29 ive spatially resolved analysis of lipids in tissue sections.

30 maging several lipid classes from biological tissue sections.

31 e potential molecular targets in human tumor tissue sections.

32 bundant analyte identification directly from tissue sections.

33 rence to visualize the lipid distribution in tissue sections.

34 toradiographic images obtained from adjacent tissue sections.

35 ith decreased numbers of osteoclasts in bone tissue sections.

36 oncomitant Abeta plaques in human AD Braak V tissue sections.

37 on milling is performed on a series of thick tissue sections.

38 with immunostaining of human and mouse HNSCC tissue sections.

39 or detecting amyloid fibrils in solution and tissue sections.

40 rnative to MALDI MS for imaging of TAGs from tissue sections.

41 ) elucidates molecular distributions in thin tissue sections.

42 ts of ECM are usually performed on cryotomed tissue sections.

43 lar spatial resolution in vivo or in situ in tissue sections.

44 emical detection of glycogen on the adjacent tissue sections.

45 tween surrogate tissue sections and incurred tissue sections.

46 glycogen and lactate, in situ within ex vivo tissue sections.

47 ward derivatization of unsaturated lipids in tissue sections.

48 tively coupled plasma MSI on adjacent serial tissue sections.

49 nd mass spectrometry from fixed histological tissue sections.

50 olor reproduction of DCFM by imaging stained tissue sections.

51 ulfonate group in taurine in situ in ex vivo tissue sections.

52 and the number of SIV RNA-positive cells in tissue sections.

53 r-quantitatively degrade PCs in fresh-frozen tissue sections.

54 e and when applied to fixed human colorectal tissue sections.

55 ained from the direct analysis of biological tissue sections.

56 r global proteomics analysis from ten 10 mum tissue sections.

57 ng activity in fixed paraffin-embedded (FPE) tissue sections.

58 s and formalin-fixed paraffin-embedded human tissue sections.

59 ribution images of an analyte or analytes in tissue sections.

60 ervations made from the analysis of very few tissue sections.

61 rom formalin-fixed, paraffin-embedded (FFPE) tissue sections.

62 ify automatically tumor viability on unknown tissue sections.

63 f myocardial caspase 3 and TUNEL staining of tissue sections.

64 tissue observations and histomorphometry of tissue sections.

65 for analysis of N-glycans from FFPE treated tissue sections.

66 trace amounts of cocaine in mouse brain thin tissue sections.

67 to profile discrete spots on the surface of tissue sections.

68 s and is applicable for detection in primary tissue sections.

69 ecular lipid species extracted directly from tissue sections.

70 for lipid distributions in mouse brain thin tissue sections.

71 dissected, formalin-fixed, paraffin-embedded tissue sections.

72 uantification of phospholipids in thin brain tissue sections.

73 edding media greatly improved the quality of tissue sections.

74 on hematoxylin and eosin stained pancreatic tissue sections.

75 tional haematoxylin and eosin stained tumour tissue sections.

76 serotonin reuptake inhibitor, in mouse brain tissue sections.

77 n (DESI) MS imaging of FA isomers from human tissue sections.

78 MS of protein assemblies directly from thin tissue sections.

79 al fat delocalization after thaw-mounting of tissue sections.

80 ter, and histopathological analysis of joint tissue sections.

81 as MS imaging of N-glycans from human cancer tissue sections.

82 binding to both human and mouse BBB in brain tissue sections.

83 lved analysis of a wide range of analytes in tissue sections.

84 of these antibodies on epithelial cells and tissue sections.

85 ysis was demonstrated with a variety of FFPE tissue sections.

86 omolecules such as metabolites and lipids in tissue sections.

87 ultiorgan IgG(4)-RD stained human pancreatic tissue sections.

88 robust nuclear marker for identifying MCs in tissue sections.

89 s well as to image lipids and metabolites in tissue sections.

90 pared to LC-MS/MS quantification of adjacent tissue sections.

91 from defined morphological regions of solid tissue sections.

92 eed for chemical stains or the use of serial tissue sections.

93 and formalin-fixed paraffin-embedded (FFPE) tissue sections.

94 ructure and spatial distribution within thin tissue sections.

95 es more information about ENS structure than tissue sectioning.

96 In an additional 14 whole-tissue sections, 1 HPV type was found in each lesion sam

97 MS ion images of planarian tissue sections allow changes in peptides and unknown co

98 The combination of sodium salt doping of a tissue section along with the sublimation of the matrix

99 ements on acutely isolated mouse spinal cord tissue sectioned along the three major anatomical planes

100 yloid structures can coexist within a single tissue section and (iii) within individual plaques there

101 filing to allow multiple targets in the same tissue section and we provide that is accurate and repro

102 dependent verification using standard serial tissue sectioning and quantification methods.

103 ates the identification workflow by avoiding tissue sectioning and slide preparation.

104 sue sections, taking <4 h with immunostained tissue sections and <8 h with unstained specimens.

105 can be completed in ~1 d with immunostained tissue sections and 2 d with unstained specimens.

106 bit monoclonal antibodies, in 49 NSCLC whole-tissue sections and a corresponding tissue microarray wi

107 f antibodies, raised in the same species, in tissue sections and cultured cells.

108 rains, imaged haloperidol abundance in brain tissue sections and directly measured haloperidol (and i

109 yses of viral nucleoprotein staining of lung tissue sections and dissociated lung cells.

110 antitatively identifies particles in ex vivo tissue sections and enables detailed observations of acc

111 diography studies of [(18)F]-9 with AD brain tissue sections and ex vivo autoradiography studies in t

112 Small airways were identified on serial tissue sections and examined for epithelial morphology,

113 , we modified a proximity ligation assay for tissue sections and found that Ascl1-Gsx2 interactions a

114 Immunohistochemical analysis of cSCC tissue sections and functional assays of cSCC cells in c

115 cherichia coli lipid extracts on mouse brain tissue sections and imaged by MOLI MSI.

116 yl peptidyl receptor (ALX/FPR) in KS patient tissue sections and in vitro KS and PEL cell models offe

117 the analysis of cell cultures, fresh-frozen tissue sections and in vivo experiments on skin.

118 on efficiency was observed between surrogate tissue sections and incurred tissue sections.

119 Rat tissue sections and myocardial autopsy samples from 6 pa

120 on, we detected OBSL1 expression in cervical tissue sections and noted the involvement of OBSL1 durin

121 o) statistical method to diagnose pancreatic tissue sections and prospectively evaluate surgical rese

122 results open the door for matrix-free MSI of tissue sections and small cell populations by nanophoton

123 We apply muMAPPS to fixed tissue sections and to the study of the collagen microsc

124 FISSEQ is compatible with tissue sections and whole-mount embryos and reduces the

125 smFISH has been developed for culture cells, tissue sections and whole-mount invertebrate organisms,

126 cells at the single-organelle, single-cell, tissue section, and whole organism levels.

127 In this method, fresh-frozen tissue sections are fixed, incubated with the probe and

128 Large brain tissue sections are imaged with nanoscale resolution usi

129 th variable speciation, were detected in all tissue sections associated with titanium implants.

130 tected and imaged in 20 mum-thick whole-body tissue sections at a spatial resolution of 12 mum per im

131 cules, including phospho- and glycolipids in tissue sections at high lateral resolution.

132 gional I2BS densities as determined by human tissue section autoradiography and preclinical in vivo P

133 architecture mapping (nanoNAM) of unstained tissue sections based on the intrinsic density alteratio

134 spatially correlated N-glycan profiling from tissue sections becomes possible.

135 the context of single cells, laser tweezers, tissue sections, biopsies and whole animals.

136 teins, peptides and metabolites in different tissue sections, but its application to environmental re

137 l distribution of different lipid classes in tissue sections, but the applicability of the method to

138 neous domains at different elastic moduli in tissue sections by AFM has remained elusive so far, due

139 rnea have been restricted to examinations of tissue sections by conventional light or electron micros

140 the analysis of triacylglycerols (TAGs) from tissue sections by laser desorption ionization (LDI) ima

141 ved quantitation of chemical species in thin tissue sections by mass spectrometric methods has been c

142 Analysis of remineralized tissue sections by transmission electron microscopy (TEM

143 isomers of unsaturated phospholipids (PL) in tissue sections by use of refined matrix-assisted laser

144 bstrates, such as dried blood spots and thin tissue sections, by use of native-like extraction/ioniza

145 Regions-of-interest in a tissue section can be analyzed based on a number of quan

146 operative histopathologic analysis of frozen tissue sections can be time-consuming and present logist

147 but not CXCL1 was significantly increased in tissue sections close to the interdental region, consist

148 Histological examinations of tissue sections confirm the ability of the NR system to

149 etection of pimonidazole adducts on adjacent tissue sections confirmed that this metabolite is locali

150 Ex vivo autoradiography of tissue sections confirmed uptake of (18)F-FOL in myocard

151 Historically, tissue sectioning, confocal microscopy, and manual scori

152 r (TfR) colocalization in ex vivo intestinal tissue sections, despite blocking of the receptor with t

153 enzyme-laced hydrogel discs are applied to a tissue section, directing enzymatic digestion to a spati

154 he deposition of internal standards onto the tissue section during sample preparation can be used to

155 own to give the same chemical information as tissue sections, eliminating the need for sectioning bef

156 MSI analysis of tissue sections exposed to phospholipid substrates produ

157 stimating a fast initial alignment using the tissue sections' external boundaries, followed by an eff

158 d surface is then ablated to reveal the next tissue section for imaging.

159 aking it ideal for rapid sampling of thicker tissue sections for electrophysiological and other neuro

160 e obtained, thereby enabling the scanning of tissue sections for gene expression utilizing lower magn

161 Prefrontal cortex tissue sections from 20 matched pairs of schizophrenia a

162 PFC tissue sections from 20 matched pairs of schizophrenia a

163 Experiments were performed on tissue sections from 20 patients undergoing surgery for

164 easy-to-follow procedure for the analysis of tissue sections from 3D cell cultures (spheroids) by mat

165 ng radioligands (3H-PK11195 and 3H-PBR28) in tissue sections from 42 multiple sclerosis cases and 12

166 Tissue sections from 99 patients with IBC-ST and 21 of i

167 t spatial distributions were performed using tissue sections from a whole-body mouse pup.

168 Similar defects are evident in tissue sections from AKAP220-KO mice.

169 entify and quantify CHI3L1-positive cells in tissue sections from ALS, DCs and non-neurological DCs.

170 for creating standard curves using surrogate tissue sections from blank tissue homogenate spiked with

171 drug metabolites at spatial localizations in tissue sections from different organs.

172 stochemistry for HER2 was performed on whole-tissue sections from each tumor.

173 cores of beta-amyloid plaques in postmortem tissue sections from frontal, temporal, and occipital ne

174 hese studies are that they were performed on tissue sections from immunocompromised or germ-free host

175 Liver tissue sections from mice with and without abdominal sep

176 whole organs such us mouse oocytes, of thick tissue sections from mouse brain and kidney as well as o

177 an be used for the detection of microRNAs in tissue sections from mouse retinas.

178 and dense fibro-fatty infiltrates in atrial tissue sections from patients aged over 70 years who had

179 s II-restricted antigen in paraffin-embedded tissue sections from patients with brain tumors.

180 ctrometry imaging of intact proteins in thin tissue sections from rat testes, kidney, and brain.

181 rial peptidoglycan was demonstrated in brain tissue sections from several MS subjects.

182 ich we incubated H pylori with free-floating tissue sections from the gastric corpora of mice; we ass

183 Tissue sections from the root associated mesial (anterio

184 Over 26,500 ultrathin tissue sections from the same block were imaged, yieldin

185 Primary distal PAVSMCs, lung tissue sections from unused donor (control) and idiopath

186 paration method ensures safe handling of the tissue sections guarantees the preservation of their mic

187 ctrometry imaging of intact proteins in thin tissue sections have been demonstrated previously.

188 to formalin-fixed, paraffin-embedded (FFPE) tissue sections have been described, the majority of whi

189 s spectrometry (IMS) of muscle and abdominal tissue sections identified the drug content primarily wi

190 of multiparametric information by creating a tissue section imprint on an SPRi sensor surface.

191 u probes that can be applied to fresh-frozen tissue sections in a manner analogous to immunofluoresce

192 Our unsupervised method for thin lung tissue sections in murine fungal pneumonia achieved sens

193 s spectrometry imaging of proteins from thin tissue sections in raster mode and discuss advantages (a

194 f LINC00346 was noted in tumor cells in cSCC tissue sections in vivo, as compared with cSCC in situ,

195 -field autofluorescence images of unlabelled tissue sections into images that are equivalent to the b

196 The histology tissue section is annotated and then automatically regis

197 Because tissue sectioning is not required, this protocol enables

198 solved molecular profiling by immunostaining tissue sections is a key feature in cancer diagnosis, su

199 h tissue section the histology from adjacent tissue sections is used to focus the analysis on the are

200 Immunohistochemistry (IHC) on tissue sections is widely used for quantifying the expre

201 ral circuit, typically employ thick, ex vivo tissue sections maintained under near-physiological cond

202 -MS) can image hundreds of molecules in a 2D tissue section, making it an ideal tool for mapping tumo

203 imensional single-cell multiplex analysis in tissue sections (MILAN technique) followed by image anal

204 top-down protein analysis directly from thin tissue sections (mouse liver, mouse brain) and from bact

205 ltures, transfected Neuro2a cells, and brain tissue sections Nrg3 protein was localized to the soma,

206 ssment of hematoxylin and eosin stained thin tissue sections obtained from the Raman measurement loca

207 pparent elastic moduli of living spinal cord tissue sections obtained from uninjured zebrafish and at

208 DNA was isolated from whole-tissue sections of 31 high-grade AIN that were recovered

209 Binding of tritiated compounds to brain tissue sections of AD patients and healthy controls was

210 Da (DARPP32) or tyrosine hydroxylase (TH) in tissue sections of adult mouse striatum.

211 Formalin-fixed paraffin-embedded tissue sections of brain were obtained retrospectively f

212 aled twelve times higher iron levels in lung tissue sections of COPD patients when compared to health

213 elatively quantify iron accumulation in lung tissue sections of healthy donors versus severe COPD pat

214 roblast markers was determined in myocardial tissue sections of hearts from these mice after MI.

215 tative autoradiography studies on postmortem tissue sections of human Alzheimer's disease brains show

216 ans was moreover obtained directly from thin tissue sections of human cerebellum and upon use of low-

217 actin or collagen 1alpha in left ventricular tissue sections of IL10KO chimeric mice suggests that my

218 nolol in mouse brain, kidney, and liver thin tissue sections of mice administered with the drug at a

219 in complex can be sampled directly from thin tissue sections of mouse liver and correlated to a visib

220 ients with inflammatory bowel disease and in tissue sections of patients with CDI.

221 We examined lung tissue sections of persons with chronic obstructive pulm

222 Applied to tissue sections of rat pituitary, the platform demonstra

223 or metabolite 2-hydroxyglutarate (2-HG) from tissue sections of surgically resected gliomas, under am

224 microdissection to isolate the decidua from tissue sections of the maternal-fetal interface in sPE.

225 l staining using microscopic images of human tissue sections of the salivary gland, thyroid, kidney,

226 sed to spatially resolve gene transcripts in tissue sections of various origins.

227 tomics, which captures RNA from histological tissue sections on a dense, spatially barcoded bead arra

228 ) direct labelling of DSBs in fixed cells or tissue sections on a solid surface; (2) low-input requir

229 frared absorption images of unstained breast tissue sections on a visible microscope platform.

230 lide-seq, a method for transferring RNA from tissue sections onto a surface covered in DNA-barcoded b

231 to quantify sub-micron features within large tissue sections.Optical clearing of tissue has enabled o

232 ities can then be visualized within a single tissue section or compared in between sections, acquired

233 HSCs are rare and few can be found in thin tissue sections or upon live imaging, making it difficul

234 ness in stenotic as compared to non-stenotic tissue sections (p < 0.001).

235 arious materials including urine, biological tissue sections, paper, and plant material on a low pump

236 We used tissue sections, plasma, and lung fibroblasts from patie

237 0-um spatial resolution across mouse uterine tissue sections preparing for blastocyst implantation.

238 Over 90% of sieve elements in tissue sections processed for microscopy by standard met

239 similar morphological features in histologic tissue sections, recent molecular analyses have revealed

240 he standard and subsequently the matrix onto tissue sections resulted in quantitation that was not st

241 med by immunohistochemical staining of brain tissue sections revealing the upregulation of HDACs 4, 5

242 s, was performed: analyses were made on FFPE tissues sections routinary used for histological investi

243 on of calibration curves to quantify unknown tissue section samples.

244 of infection, immunohistological analysis of tissue sections show that thrombi contain very low numbe

245 sed formalin-fixed, paraffin-embedded (FFPE) tissue section soaked in a polyethylene glycol solution.

246 ded visual signs of tissue damage in cardiac tissue sections stained with hematoxylin and eosin.

247 multiclass segmentation of digitized kidney tissue sections stained with periodic acid-Schiff (PAS).

248 arkedly reduced NADPH diaphorase staining in tissue sections subsequently subjected to paraformaldehy

249 hology, that can be performed on <5-um-thick tissue sections, taking <4 h with immunostained tissue s

250 pression of the GluN2B subunits in ALS brain tissue sections than in healthy controls, in line with i

251 on tract orientation in prenatal human brain tissue sections that are not visible using brightfield i

252 polyclonal antibodies were performed on all tissue sections that contained inflammation.

253 nstrate, on examples of rat brain and testis tissue sections, that the combination of MALDI-2 with th

254 SI; instead of analyzing large parts of each tissue section the histology from adjacent tissue sectio

255 In mouse brain and kidney tissue sections, the distributions of over 80 putatively

256 automatically registered to the MSI-prepared tissue section; the registration transformation is then

257 er proteins was performed on a breast cancer tissue section to illustrate the potential of this metho

258 ing points at 1 mm spatial resolution across tissue sections to build an image of xenobiotic and endo

259 ly labeled internal standards are applied to tissue sections to maximize quantitative reproducibility

260 ed in formalin-fixed paraffin embedded brain tissue sections, uncovering correlated increase in abund

261 tau aggregates and Abeta plaques on the same tissue section using specific antibodies.

262 Subsequent analysis of adjacent tissue sections using DESI-MSI is also reported.

263 Examination of tissue sections using desorption electrospray ionization

264 sue on formalin-fixed, paraffin-embedded HCA tissue sections using laser capture methodology, we perf

265 dividual cell populations isolated from FFPE tissue sections using laser capture microdissection.

266 uronide phase II metabolites from a rat thin tissue section was also illustrated.

267 omparisons by first testing if each animal's tissue section was sampled at a similar location and ena

268 al differences in ionization response across tissue sections was also investigated.

269 Using the same tissue section, we performed laser microdissection and s

270 s were performed by blinded researchers, and tissue sections were analyzed by local and blinded refer

271 Serial tissue sections were analyzed with anti-glial fibrillary

272 ue samples such as sea algae and mouse brain tissue sections were conducted using fixed DMS compensat

273 Ten-mum-thick tissue sections were floated onto Low-E (IR-reflective)

274 r underlining the airway cysts in these CPAM tissue sections were significantly decreased compared wi

275 Tissue sections were stained for C5b-9, C4d, and laminin

276 Tissue sections were stained with haematoxylin and eosin

277 Ex-vivo mouse ileal tissue sections were treated with either EcN or the huma

278 Tissue sections were triple-labeled for the 65 kD isofor

279 arental cells, and human term placenta whole tissue sections were used as controls and for antibody v

280 ion of diverse classes of compounds in brain tissue sections, whereas simultaneously mapping their sp

281 ditionally carried out using two-dimensional tissue sections, which allows for rapid staining, but th

282 ed by the nesting of cells within tissues or tissue sections, which themselves are nested within anim

283 of mRNA localization in vivo and in ex-vivo tissue sections, which will facilitate mRNA trafficking

284 digestion can be performed on a single thin tissue section while preserving the relationship between

285 we describe a protocol for robust imaging of tissue sections with a high (better than 10-mum) spatial

286 frozen mouse liver and rabbit adrenal gland tissue sections with a range of higher spatial resolutio

287 Imaging tissue sections with DESI MS shows that the 2-HG signal

288 g of lipids and metabolites in heterogeneous tissue sections with high spatial resolution, which is c

289 nano-DESI) has enabled the robust imaging of tissue sections with high spatial resolution.

290 way of imaging biomolecular distributions in tissue sections with high spectral and spatial resolutio

291 to ensure fast transfer of proteins from the tissue sections with minimal lateral diffusion to achiev

292 orates liquid extraction from the surface of tissue sections with nanoelectrospray mass spectrometry.

293 bling technology for spatial metabolomics of tissue sections with rapidly growing areas of applicatio

294 in a single formalin-fixed paraffin-embedded tissue section, with accurate cell discrimination and sp

295 lution imaging of >65 parameters in the same tissue section without physical degradation.

296 n situ assessment of metabolomic profiles on tissue sections without tissue pretreatment or labeling.

297 both brain glycogen and lactate in the same tissue section would benefit this research field.

298 PV type of anal HSIL was determined in whole tissue sections (WTS) and by laser capture micro-dissect

299 for normalization and a matrix on top of the tissue section yielded similar results to those from the

300 of FA isomers from heterogeneous biological tissue sections, yielding spatially resolved information