ライフサイエンスコーパス: thin section

1 n was compared by electron microscopy (thick/thin sections).

2 allel to the trace of the foliation plane in thin section.

3 her sauropodomorphs that we were not able to thin section.

4 1, as quantified in flat-mounted retinas and thin sections.

5 aging on highly heterogenous and rough paint thin sections.

6 ), after epoxy resin embedding and preparing thin sections.

7 g for label-free tissue annotation of tissue thin sections.

8 f sheets were relatively more effective than thin sections.

9 processes which are difficult to identify in thin sections.

10 stology which is based on typically 5 microm thin sections.

11 orthern blotting, and electron microscopy of thin sections.

12 copy (SEM) and of identifiable hair cells in thin sections.

13 responded with that derived from analysis of thin sections.

14 of endothelial cell overlap was measured on thin sections.

15 rozen thin sections or embedding for plastic thin sections.

16 ification protocols are necessary to achieve thin sections.

17 onal laser abrasion directly in petrographic thin sections.

18 ally using the transmission spectra from the thin sections.

19 rived from the attenuation of each stone and thin sections.

20 in swabs and for HPV45, HPV58, and HPV59 in thin sections.

21 ement rates were >90% for swabs and >95% for thin sections.

22 rom serial, transmission electron microscopy thin sections.

23 Figure 6: Unenhanced axial thin-section (0.7-mm section thickness) CT image of the

24 Figure 5: Unenhanced axial thin-section (0.7-mm section thickness) CT image of the

25 r CT imaging with thick-section (5.0 mm) and thin-section (1.25-1.50 mm) axial images obtained betwee

26 Thin-section (2.5-mm collimation) contrast material-enha

27 r technical quality than those obtained with thin-section 2D SSFSE (P < .02 for both readers).

28 Thin-section 3D contrast-enhanced dynamic fat-suppressed

29 Thin sections (5 microm) were stained with hematoxylin a

30 (30 images collected every 1.8 seconds), and thin-section (6 mm) images were acquired.

31 Post-processing with thin sections allows for a generation of good quality im

32 raphy, immunoelectron microscopy, and serial thin section analysis of entire cells.

33 anodine, immunolabeling of RyR and DHPR, and thin section and freeze-fracture electron microscopy.

34 We have used thin sectioning and conical electron tomography to deter

35 We have applied serial-thin sectioning and stereology to quantitatively charact

36 eader 2 had six false-positive findings with thin sections and 11 with thick sections.

37 h thick sections for reader 1 and 80.0% with thin sections and 73.3% with thick sections for reader 2

38 Specificity was 93.3% with thin sections and 80.0% with thick sections for reader 1

39 ntibodies, as well as electron microscopy of thin sections and freeze-fracture replicas, has shown th

40 tiple techniques including X-ray tomography, thin sections and ground penetrating radar (GPR) acquisi

41 ped improved electron-microscopy techniques, thin sections and negative staining, that enabled answer

42 Examination of fiber cells in thin sections and observations of live dissociated fiber

43 However, thin sections and sharp kernels increase image noise, po

44 der 1 had three false-positive findings with thin sections and six with thick sections.

45 ese techniques are limited by their focus on thin sections and specific regions.

46 By thin-section and negative-stain transmission electron mi

47 ree, compared with the conventional 2D SSFSE thin-section and thick-slab approach, while permitting t

48 ically encoded fluorescent indicators, ultra-thin sectioning, and live-cell imaging have been brought

49 f surface microhardness, microradiography of thin sections, and abrasion biopsy.

50 ost-embedding glycine immunocytochemistry on thin sections, and toluidine blue staining of adjacent s

51 es were stained with heavy metals, embedded, thin-sectioned, and examined with electron microscopy to

52 (LM) examination of ground sections and semi-thin sections as well as scanning electron microscopy (S

53 rant core positioning and cell morphology in thin sections, but exhibited a hybrid satellite growth p

54 acillus), and large spirochetes were seen in thin section by light and transmission electron microsco

55 les (SSN) were segmented by 2 readers on non-thin section chest CT with a lung nodule analysis softwa

56 Thin-section chest computed tomographic findings include

57 Thin-section chest computed tomography (CT) was used in

58 Accurate pattern classification at thin-section chest CT is a key step in multidisciplinary

59 d database for computer-aided diagnosis with thin-section computed tomographic (CT) images of the che

60 the secondary lobule are normally visible on thin-section computed tomographic (CT) scans of the lung

61 The spectrum of thin-section computed tomographic abnormalities encounte

62 developed for detecting lung micronodules on thin-section computed tomographic images and was applied

63 Three sedated young children underwent thin-section computed tomography (CT) of the chest while

64 Thin-section computed tomography (CT) of the lungs was i

65 Thin-section computed tomography (CT) of the temporal bo

66 t treatment options, including multidetector thin-section computed tomography, and imaging recommenda

67 tid arterial wall MR imaging with contiguous thin-section coverage and greater imaging speed and effe

68 SSN with good predictive performance in non-thin section CT.

69 Of 747 nodules, 222 were evaluated at thin-section CT (1-mm collimation), which included 59 ca

70 Recognition of certain characteristics at thin-section CT can be helpful in differentiating small

71 Thin-section CT can demonstrate very early disease, some

72 The authors analyzed baseline digital thin-section CT data from 144 patients with IPF who enro

73 resected lung adenocarcinomas (n = 41) with thin-section CT data were identified.

74 Mean ADC value and thin-section CT emphysema index of relative area less th

75 A retrospective analysis of 569 thin-section CT examinations performed for patients susp

76 th LAM that, in conjunction with the classic thin-section CT finding of pulmonary cysts, are useful i

77 Thin-section CT findings in the six patients with clinic

78 Thin-section CT findings of malignant versus benign nodu

79 e because it may be difficult to distinguish thin-section CT findings that lie within the normal rang

80 This review examines particular thin-section CT findings that occupy the gray area betwe

81 Thin-section CT findings usually associated with interst

82 Thin-section CT has limited accuracy for the diagnosis o

83 Thin-section CT histograms of the lungs were found to co

84 d chest radiologists independently evaluated thin-section CT images in 58 patients by using an algori

85 Thin-section CT images obtained in 43 flock workers (inc

86 This simple, reproducible technique produced thin-section CT images that were clearer and more clinic

87 Diagnostic patterns were determined for thin-section CT images using both classifications.

88 Thin-section CT images were available in 58 (68%) of the

89 Motion-free inspiratory and expiratory thin-section CT images were successfully acquired during

90 Prone thin-section CT imaging was performed, and two observers

91 All patients underwent thin-section CT in the supine position at full inspirati

92 Patients underwent thin-section CT in the supine position at full inspirati

93 Nonenhanced thin-section CT of the chest was performed (Figs 1-5).

94 Nonenhanced thin-section CT of the chest was performed.

95 e temporal lobe and brain ( Figs 1 - 4 ) and thin-section CT of the temporal bones ( Figs 5 , 6 ).

96 rwent MRI of the temporal lobe and brain and thin-section CT of the temporal bones.

97 eet criteria for the disease had an abnormal thin-section CT scan.

98 Attenuation was recorded from serial thin-section CT scans before and after injection of cont

99 ions in secondary lobular anatomy visible on thin-section CT scans include interlobular septal thicke

100 Thin-section CT scans were obtained at full inspiration

101 The thin-section CT scans were obtained during quiet sleep a

102 Thin-section CT scans were reviewed by two observers bli

103 On nonenhanced, thin-section CT scans, the nodules were solid, 5-40 mm i

104 bule is fundamental to the interpretation of thin-section CT scans.

105 t radiographs, 100% of CT scans, and 100% of thin-section CT scans.

106 Thin-section CT scores were determined objectively on co

107 Use of thin-section CT significantly improves the diagnosis of

108 Thin-section CT studies from 64 lung transplant recipien

109 Thin-section CT studies in six patients with bronchiolit

110 All patients underwent chest radiography and thin-section CT, and images were independently interpret

111 igraphy, chest radiography, conventional and thin-section CT, and pulmonary function tests were perfo

112 Thin-section CT, including expiratory scans, is of limit

113 zed with regard to their imaging features at thin-section CT, their predicted malignancy risk accordi

114 y equal to or better than that obtained with thin-section CT.

115 ound SNHL and no demonstrable abnormality at thin-section CT.

116 ed with the severity of pulmonary disease at thin-section CT.

117 cases and facilitates nodule localization at thin-section CT.

118 MR imaging on the underlying lung anatomy at thin-section CT.

119 Thin sections cut horizontally as you would cut a bagel,

120 ancer, and the difference between thick- and thin-section-derived volumes before and after applicatio

121 We further show by thin section electron microscopy analysis of mutant and

122 Thin section electron microscopy reveals a spiky coat st

123 Thin section electron microscopy reveals numerous SR-ext

124 Thin section electron microscopy showed that each of the

125 the same NMJs were examined with semiserial thin section electron microscopy.

126 gradients to the appropriate density and in thin-section electron micrographs have a size and appear

127 Thin-section electron micrographs showed that mutant cel

128 lacking a dark-staining outer spore coat in thin-section electron micrographs.

129 in tubular structures that could be seen in thin-section electron micrographs.

130 Immunofluorescence and thin-section electron microscopic analysis revealed that

131 Previous thin-section electron microscopy (EM), fluorescence micr

132 Analysis of cell morphology by thin-section electron microscopy and immunofluorescence

133 Using serial thin-section electron microscopy and three-dimensional r

134 Thin-section electron microscopy confirms a stimulation

135 Thin-section electron microscopy of liposomes and Golgi-

136 Thin-section electron microscopy revealed a block in cor

137 Thin-section electron microscopy revealed that exsM muta

138 Thin-section electron microscopy revealed that virion pa

139 Thin-section electron microscopy shows the presence of c

140 ments observed at the neck in fixed cells by thin-section electron microscopy was unclear.

141 gested by analysis of lipid dynamics, serial thin-section electron microscopy, and cell separation by

142 try, lipophilic dye fluorescence microscopy, thin-section electron microscopy, and correlative light

143 "grid-mapped freeze fracture," conventional thin-section electron microscopy, and light microscope i

144 Cellular cryo-electron tomography and thin-section EM studies uncovered the assembly and matur

145 By thin-section EM, these defects correlate with an approxi

146 pproximately 2 mm behind the globe to obtain thin sections for histologic processing and automated ax

147 al histological approaches (plastic-embedded thin sections for light microscopy and ultrathin plastic

148 with that generated by anti-O4 antiserum in thin sections from the caecum.

149 the volume is sampled by physically removing thin sections from the embedded specimen and subsequentl

150 nnective tissue and the basement membrane in thin sections from the murine caecum in situ.

151 millimeters, so analyses of small numbers of thin sections from the same bowel region can produce var

152 ta(37)Cl values of apatite within individual thin sections further supports this conclusion.

153 ix healthy adults aged 19-42 years underwent thin-section gradient-echo sampling of free induction de

154 The thin sections had comparable amounts of reaction product

155 te lesion characterization, despite use of a thin-section helical CT data acquisition technique.

156 s a new method of imaging the colon in which thin-section, helical computed tomography (CT) is used t

157 most cases, these foci can be visualized on thin-section, high-spatial-resolution, coronal T2-weight

158 Images were obtained with thin-section, high-spatial-resolution, T2-weighted, fast

159 abnormalities were further investigated with thin section histology.

160 h were demonstrated compared to conventional thin-section histology, pointing to broad applications i

161 lationships are not well captured by typical thin-section histology, posing challenges for the study

162 Correlative thin section images of infected cells freeze substituted

163 based morphometry on the modulated images of thin-section images and interpolated thick-section image

164 ion in 10 degrees increments, and contiguous thin-section images were obtained in the transverse and

165 In comparison with 2D SSFSE thin-section imaging, however, 3D FRFSE imaging produced

166 Thin-section immunoelectron microscopy of hippocampal cu

167 lls of SC were ultrastructurally examined in thin sections, including serial sections and freeze-frac

168 er imaging, microradiographs of histological thin sections indicated that the significant reflectivit

169 entional heavy metal poststaining methods on thin sections lend contrast but often cause contaminatio

170 requires the preparation of plastic-embedded thin sections, limiting its functionality.

171 Confocal fluorescence microscopy of thin-sectioned lymphoid tissues demonstrated strong pref

172 Furthermore, semi-thin sections made from these preparations are compatibl

173 omputer-assisted segmentation technique with thin-section magnetic resonance (MR) imaging was used in

174 ctor/fractionator combination, and thick-and-thin section method.

175 s included a pitch of 0.984:1 and 120 kVp in thin-section mode, with 2496 views per rotation compared

176 ator ani muscle complex are noted at coronal thin-section MR imaging with double opacification.

177 tal carcinoma were studied with preoperative thin-section MR imaging.

178 Thin-section MR techniques for MR sialography may soon r

179 ed for suspected acute appendicitis by using thin-section nonenhanced helical CT.

180 Thin section observation, scanning electron microscope,

181 istribution of a metal-tagged biomarker in a thin section of breast cancer tissue.

182 icrofossils permineralized in a petrographic thin section of the approximately 3,465 Ma Apex chert of

183 re generally embedded in resins, which allow thin sectioning of the specimen.

184 for BCL6, MYC, IGH-BCL6, and del(6)(q22) on thin sections of 75 paraffin-embedded samples from 75 HI

185 ent with sites of macrophage accumulation in thin sections of atherosclerotic tissues, and examining

186 Immunofluorescent staining of thin sections of b/b and +/b proximal intestines confirm

187 Analysis of thin sections of biofilms by transmission electron micro

188 flection-based FTIRM eliminates the need for thin sections of bone and more readily facilitates direc

189 lenge, fluorescent bacteria were detected in thin sections of both bladder and kidney samples; the fl

190 Electron micrographs of thin sections of cells infected with HSV-1(deltaU(L)17)

191 In thin sections of cells infected with vaccinia virus or o

192 ransmitter gamma-aminobutyric acid (GABA) in thin sections of cerebral cortex, and show that it can g

193 lyses were performed on glutaraldehyde-fixed thin sections of clinically acute and pathologically act

194 e affinity-purified polyclonal antibodies to thin sections of decapsulated lenses that had been fixed

195 cium-normalized strontium intensities across thin sections of enamel from exfoliated deciduous teeth.

196 In some experiments, thin sections of fixed lens cells were examined using tr

197 Immunocytochemical evaluation of thin sections of fly heads revealed specific FKBP immuno

198 Thin sections of human enamel were also exposed to solut

199 Thin sections of human enamel were exposed to partially

200 ent was visualized by electron microscopy of thin sections of immunogold-stained cells.

201 ing, plus DEEM imaging of Tokuyasu-type cryo-thin sections of infected cells (a new application intro

202 Ultrastructural analysis of thin sections of infected cells revealed clusters of DNA

203 Electron microscopy of thin sections of infected Vero cells revealed the presen

204 more precisely locate the protein in cells, thin sections of late-log-phase cells, sporulating cells

205 Immunofluorescence staining of thin sections of lungs from spore-challenged BALB/c mice

206 oscopy--to image specific target proteins in thin sections of lysosomes and mitochondria; in fixed wh

207 ocalization studies failed to detect NolX in thin sections of mature soybean and cowpea nodules.

208 an E. coli strain expressing PE fimbriae to thin sections of mouse small intestine.

209 -embedded awns of wheat (Triticum turgidum), thin sections of native epidermis cells from sorghum (So

210 etermined by immunohistochemical staining of thin sections of naturally colonized and reassociated fl

211 ted in an increased adhesion to histological thin sections of Peyer's patch lymph follicles.

212 id maceration, complemented by studies using thin sections of phosphatic nodules that yield exception

213 Petrographic thin sections of pottery from five Formative Mexican arc

214 Immuno-electron micrographs of thin sections of rat atrial myocytes revealed a fraction

215 ization of radiolabeled (35S) cRNA probes to thin sections of reproductive tissues (male hemipenes an

216 Examination of thin sections of ruthenium red-stained bacterial cells b

217 PC+ SVs remained constant across consecutive thin sections of single boutons, but varied greatly from

218 Compared with control cells, thin sections of STIM1-transfected cells possessed far m

219 Electron microcopy of thin sections of TbPIF8-depleted cells shows heterogeneo

220 , Ca, and Si and this was clearly evident in thin sections of Tetraselmis sp.

221 Thin sections of the enamel (approximately 120 microm) c

222 similar labelling pattern was produced when thin sections of the murine caecum were stained with ant

223 A quantitative study based on thin sections of the time course of PSD modification ind

224 ezing and deposition experiments on the same thin sections of two atmospherically important minerals

225 determine ligand-speciation of Zn and Pb in thin sections of two epigeic earthworm species collected

226 Thin sections of undisturbed peat samples from 0-37 cm a

227 By electron microscopy on thin sections of virus-producing cells, we observed that

228 tion (FISH) is difficult to accomplish using thin-sections of paraffin-embedded lymphoid tissue becau

229 nd 6D1 before or after preparation of frozen thin sections or embedding for plastic thin sections.

230 e for reader 1 was significantly longer with thin sections (P <.001).

231 eserved with chemical fixatives, sliced into thin sections placed on microscope slides, stained, and

232 as further enhanced with the introduction of thin-section polytomography, especially of the temporal

233 uring this structure in polymer matrices and thin sectioning produce fully dense membranes with array

234 From native thin sections, regions of interest could be analyzed wit

235 were applied to estimate brain volumes from thin-section research-quality brain MR images and routin

236 Histochemical staining and thin sectioning revealed that microspore development was

237 Analysis of semi-thin sections revealed a significant increase in both th

238 Light-microscopic analysis of semi-thin sections revealed a similar pattern of glycine and

239 ells using immunogold electron microscopy of thin sections revealed a single gold particle on some ce

240 wever, observation by electron microscopy in thin sections revealed an aberrant and significant incre

241 Analysis of 3D-EM reconstructions and of thin sections revealed that genetic inactivation of mNEE

242 Electron microscopy of thin sections revealed that the mutant lacked normal chl

243 ts into changes in dimensional properties of thin section samples, namely, width, height, and volume,

244 ning aeromagnetic observations, outcrop- and thin section-scale magnetic mapping.

245 data set were compared with findings on the thin-section scan obtained at the midplane of the series

246 Conventional thin-section scans depicted fine linear structures more

247 d additional diagnostic findings to those on thin-section scans in 13 (65%) of 20 cases.

248 ty projection images were more accurate than thin-section scans to help identify lumina of central ai

249 colocalised, double immunogold labelling of thin sections showed both cx26 and cx30 evenly distribut

250 Microprobe X-ray fluorescence of tumor thin sections showed the strong penetration of ruthenium

251 raphic analysis of unreacted Marcellus shale thin sections shows U associated with detrital quartz an

252 dred fifteen pulmonary nodules for which two thin-section small-field-of-view CT scans were obtained

253 rement of image registration across multiple thin section specimens.

254 tion were examined by electron microscopy of thin-sectioned specimens.

255 Thin-section spin-echo images of an excised intervertebr

256 Thin section studies of Bacillus subtilis cells infected

257 tions of signal intensity characteristics on thin-section T1- and T2-weighted images, respectively: H

258 ositive findings was significantly lower for thin sections than for thick sections (P =.035).

259 Subsequently, the sample was cut into 5 mum thin sections that were subjected to LA-ICP-TOFMS imagin

260 three-dimensional reconstructions of serial thin sections, that the Golgi grows by a process of late

261 Two independent readers interpreted thin sections, then waited a minimum of 15 days before i

262 Thin-section, three-dimensional (3D) gradient-echo magne

263 /- 4.5) underwent 3-T MR imaging with use of thin-section, three-dimensional, axial T2-weighted orbit

264 croscope by direct counts of microtubules in thin sections through centrioles.

265 e have conducted a systematic examination of thin sections through different parts of the copepod ner

266 Here, a new wing skeleton of Sinopterus was thin-sectioned to provide the first histological data ab

267 The mean thin-section-to-thick-section volume difference became n

268 The thin-section-to-thick-section volume difference was larg

269 i unknown, which the model "learns" from the thin section transmission electron micrograph image (2D)

270 X-ray diffraction and thin section transmission electron microscopy analysis i

271 Correlative thin-section transmission electron micrographs of cells

272 lls, we used confocal immunofluorescence and thin-section transmission electron microscopy (TEM) to p

273 ution by confocal microscopy, VLP budding by thin-section transmission electron microscopy (TEM), and

274 Thin-section transmission electron microscopy revealed t

275 nation of immunofluorescence and immuno-gold thin-section transmission electron microscopy studies lo

276 combined confocal laser scanning microscopy, thin-section transmission electron microscopy, and grid-

277 Using serial thin-section transmission electron microscopy, we recons

278 A thin-section unenhanced sinus computed tomography (CT) e

279 decreased the difference between thick- and thin-section volumes in 37 (67%) of the 55 patients with

280 With both measurement methods, mean thin-section volumes of clinical tumors in 55 patients w

281 Thin-section volumes were smaller than thick-section vol

282 epoxy resin-embedded sections, and the next thin section was compared by electron microscopy (thick/

283 Therefore, histological thin sectioning was used to investigate secondary chondr

284 Large-scale electron microscopy of serial thin sections was then used to trace a portion of these

285 h fluorescent phalloidin staining and serial thin sections, we show that the modular design is presen

286 copy (TEM) and NanoSIMS analysis on trichome thin-sections, we observed transient inclusion of (15)N

287 f the labeled neuron in the Epon block), and thin sections were cut at selected optical levels for co

288 th gold-conjugated secondary antibodies; the thin sections were examined by transmission electron mic

289 llos were screened for acid-fast bacilli and thin sections were examined ultrastructurally.

290 Thin sections were labeled by a postembedding immunogold

291 Registered serial thin sections were probed with immunoglobulins targeting

292 A continuous series of thin sections were used to examine the cell's synaptolog

293 s paraffin-embedded bone for undemineralized thin sectioning, which is amenable to subsequent dynamic

294 ectal, and intravenous contrast material and thin sections, which can accurately demonstrate inflamma

295 , embedding and how to prepare thin and semi-thin sections, which can be used for analysis complement

296 d were detected by probing registered serial thin sections with anti-AGB and anti-amino acid immunogl

297 ticle-conjugated antibody to ICP0 reacted in thin sections with dense protein aggregates in the cytop

298 umor is fixed or frozen and then sliced into thin sections - with subsequent staining and microscopic

299 lymerized CASQ using detailed EM images from thin sections, with and without tilting, and from deep-e

300 Specificity improved for both readers with thin sections, with no difference in sensitivity.