ライフサイエンスコーパス: imaging

1 -dimensional single-molecule superresolution imaging.

2 l for immunoprobing and confocal/light-sheet imaging.

3 2) of women who used the Callascope for self-imaging.

4 a functional assay based on cytosolic Ca(2+) imaging.

5 and outside of functional magnetic resonance imaging.

6 c death underwent cardiac magnetic resonance imaging.

7 brain T(RM) cells was revealed by intravital imaging.

8 ecause of insufficient understanding of void imaging.

9 targeted fabrication of lamellae and cryo-ET imaging.

10 sis of the diffraction pattern in wide-field imaging.

11 biomarkers compared with magnetic resonance imaging.

12 ores determined by (23)Na-magnetic resonance imaging.

13 navigation, reconnaissance, and even medical imaging.

14 esponses across cortical depth, i.e. laminar imaging.

15 ers for single-molecule and super-resolution imaging.

16 high-speed spectrally resolved photoacoustic imaging.

17 radionuclide incorporation required for PET imaging.

18 for site-selective biomolecular labeling and imaging.

19 t secondary ion mass spectrometry (TOF-SIMS) imaging.

20 ides a clinically feasible approach to human imaging.

21 esolution positron emission tomography brain imaging.

22 e, a technique which can be used for in vivo imaging.

23 ygenation Levels (PISTOL) magnetic resonance imaging.

24 before pupil dilation for fundoscopy and OCT imaging.

25 patients were found to have cysts on initial imaging.

26 ued close monitoring with multimodal retinal imaging.

27 us expanding the scope of cryogenic cellular imaging.

28 domized trial underwent computed tomographic imaging 30 days and 1 year after transcatheter aortic va

29 cer, or leukemia underwent whole-body PET/CT imaging 90 min after injection of (18)F-SKI (mean, 241.2

30 the characterization of AAA development with imaging after 1, 2, 3 and 4 weeks.

31 Live-cell imaging after individual ASD-gene repression validated t

32 R lymphangiography at 1.5 T with T1-weighted imaging after interstitial pedal of gadolinium-based con

33 Consequently, this pH-activatable optical imaging agent may be clinically beneficial in differenti

34 may alter the predictive values of molecular imaging agents for endocrine therapy response.

35 A custom computational imaging algorithm we call SARA-COIL is used to reconstru

36 for learning basic concepts about ultrasound imaging, allowing students to significantly improve thei

37 Consistent with this prediction, imaging analysis show that CXCL13 binds to extracellular

38 Combining high-content imaging and cluster analysis, we show that in male rats

39 t containing k-space data as well as Digital Imaging and Communications in Medicine image data of kne

40 Using multiple length scale imaging and computational analysis, we discovered unique

41 Using live imaging and computational approaches, we found that the

42 Strategies for selectively imaging and delivering drugs to tumours typically levera

43 The cold neutron imaging and diffraction instrument IMAT, at the second t

44 Using live and fixed fluorescence imaging and electrophysiological techniques, we found an

45 separated and independently analyzed by both imaging and flow velocity analyses.

46 the CNV lesion size, as revealed by in vivo imaging and immunohistochemistry from day 3 to day 14 co

47 of the lateral OFC using two-photon calcium imaging and investigated how OFC dynamically interacts w

48 cular function, as assessed by laser Doppler imaging and iontophoresis of acetylcholine and localized

49 th clinical variables, cross-sectional brain imaging and neurophysiological data; their role as progn

50 ow in individual brain microvessels, calcium imaging and optogenetics allow the investigation of peri

51 biomarker combinations across fluids, brain imaging and other domains.

52 domain optical coherence tomography (SD-OCT) imaging and present a new classification scheme.

53 This model facilitates imaging and quantitative functional assessment.

54 Here, we have combined two-photon Ca(2+) imaging and single-cell electrophysiology in awake behav

55 Photoluminescence (PL) imaging and the spatial-resolved PL intensity and lifeti

56 By using in vivo imaging and transfusion experiments, we further confirme

57 158 of 196 (80%) lesions were followed with imaging, and 38 of 196 (20%) lesions underwent percutane

58 ines serial affinity purification, live cell imaging, and cross-linking mass spectrometry to build in

59 ive physiological signals, kidney ultrasound imaging, and digitized biopsy specimens.

60 y of fields such as structural biology, cell imaging, and drug discovery.

61 ls are a powerful system for discovery, live imaging, and functional investigation of cell states thr

62 hybridization, immunostaining, deep confocal imaging, and staged pharmacological inhibition, we defin

63 (2020) use an innovative single-molecule imaging approach in yeast cells to measure chromatin ass

64 Through a combination of imaging approaches including super-resolution microscopy

65 Imaging data from The Cancer Imaging Archive and genomic data from The Cancer Genome

66 /Gqo5-expressing HEK293 cells using a Ca(2+) imaging assay and a [(3)H]ketanserin binding assay.

67 to death or symptomatic stroke confirmed by imaging, assessed by a neurologist at each centre not in

68 participants underwent a complete multimodal imaging assessment with a confocal scanning laser ophtha

69 ely unexplored due to the lack of real-space imaging at single particle resolution.

70 ly, and infants underwent magnetic resonance imaging at term-equivalent age.

71 , we introduce a full-field approach to wave imaging based on the concept of the distortion matrix.

72 cellular connectivity studies in rodents and imaging-based analyses of human brains.

73 typically slowly progressive, and objective, imaging-based biomarkers are critically needed.

74 Unlike other imaging-based endocytosis assays, the ppH protocol detec

75 ect of (68)Ga-PSMA-HBED-CC as a quantitative imaging biomarker.

76 Imaging biomarkers need to be quantitative and user and

77 lood volume on functional magnetic resonance imaging, but only baseline focal hippocampal atrophy pre

78 Smartphone-based fundus imaging can meet DR screening requirements in an outreac

79 Current methods for imaging cellular metabolism are limited by low sensitivi

80 %-99.7%) by the combination of histology and imaging/clinical follow-up.

81 lticentre observational study of adults with imaging confirmed spontaneous ICH.

82 The recent demonstrations of in vivo imaging, control and therapeutic medical applications of

83 Cognitive Impairment and Imaging Correlates in End Stage Renal Disease, NCT018833

84 Orbital imaging could not diagnose sarcoidosis.

85 of resting-state FC using magnetic resonance imaging data from 101 CNV carriers, 755 individuals with

86 Imaging data from The Cancer Imaging Archive and genomic

87 However, the interpretation of imaging data heavily relies on the "intuition" of experi

88 itron emission tomography/magnetic resonance imaging data of 18kDa translocator protein (an inflammat

89 iologically informed subtypes based on brain imaging data.

90 evaluated for their impact on the PET brain imaging data.

91 Furthermore, by imaging deletion mutants, we observed functional differe

92 Indocyanine green fluorescence imaging demonstrated complete coverage of the MH by the

93 ns routinely conducted in magnetic resonance imaging departments in patients with MS, which include n

94 t the same time, quality of super-resolution imaging depends on high label specificity, making remova

95 or compensation by relating diffusion-tensor-imaging-derived parameters of white matter microstructur

96 ng (18)F-DCFPyL or multiparametric MRI, with imaging detection concordance of 25% (82 of 323) when in

97 ced MRI sequences such as diffusion-weighted imaging, dynamic contrast enhanced sequences, and magnet

98 er demonstrated that synchrotron-based X-ray imaging enabled uncovering finer details of the variatio

99 Imaging experts performing this technique should be awar

100 s were interpreted in a core laboratory by 2 imaging experts, using the visual Deauville 5-point scal

101 The liver imaging features generated by CNN may have the potential

102 f the gene expressions are weakly correlated imaging features.

103 view is to discuss and differentiate typical imaging findings of COVID-19 from those of other disease

104 nt was a single encounter whose clinical and imaging findings showed longstanding inactive disease.

105 Combining TPE with fluorescence lifetime imaging (FLIM) and spectral analyses offers the potentia

106 We have employed advanced imaging flow cytometry (iFCM) to explore the kinetics of

107 , and some were imaged with autofluorescence imaging, fluorescein angiography, indocyanine green angi

108 l as follow up functional magnetic resonance imaging (fMRI) in the more restricted scanner environmen

109 Functional magnetic resonance imaging (fMRI) revealed two distinct patterns of activit

110 ce faces using functional Magnetic Resonance Imaging (fMRI).

111 95 months (range, 8-219 months), and median imaging follow-up lasted 41 months (range, 0-189 months)

112 se of an automatic slide loader automates 3D imaging for high sample-throughput.

113 linical records, fundus photographs, and OCT imaging for patients with CLN2 disease collected during

114 rently visualizing metastasis and performing imaging-guided lymph node surgery is challenging.

115 anostic nanoplatform, named TCZ-PNPs, for PA-imaging-guided therapy of RA.

116 d the European Association of Cardiovascular Imaging guidelines for predicting elevated pulmonary art

117 f ischemic stroke, and functional myocardial imaging has offered novel insights on its pathophysiolog

118 PET imaging identified significantly higher left ventricular

119 Here, we used integrated optical imaging in a rat self-administration and a mouse noncont

120 AFM imaging in air with controlled humidity preserves the ti

121 Two-plex molecular imaging in combination with down-conversion Er nanoparti

122 s the validity of DW magnetic resonance (MR) imaging in comparison with contrast-enhanced computed to

123 Here, we use live-cell single-molecule imaging in human cells to determine rate constants of th

124 igh-resolution functional magnetic resonance imaging in humans, we examined the representation of dif

125 Here, using multiphoton live cell imaging in mouse kidney tissue, FIB-SEM, and other compl

126 We used confocal Ca(2+) imaging in myocytes and HEK-RyR2 (ryanodine receptor iso

127 ntroduce a live-cell points accumulation for imaging in nanoscale topography (PAINT) method that expl

128 t potential for non-invasive non-radioactive imaging in patients, the clinical applications are limit

129 gi staining reagent, NBD C(6) -ceramide, NIR imaging in the Golgi apparatus has been demonstrated usi

130 the multicenter SPINS (Stress CMR Perfusion Imaging in the United States) study, 2,349 consecutive p

131 ary statistical methods for functional brain imaging-including univariate contrast, searchlight multi

132 ion of disease are decreasing the demand for imaging independent of COVID-19.

133 pillometry and functional magnetic resonance imaging informed by computational models of sign- and go

134 Here we use infrared photothermal heterodyne imaging (IR-PHI) to interrogate single, high aspect rati

135 Mass spectrometry imaging is a powerful tool of increasing utility due to

136 tified as active, demonstrating that thermal imaging is a promising approach for the clinical assessm

137 Non-line-of-sight (NLOS) imaging is a rapidly growing field seeking to form image

138 Imaging is an extremely intriguing tool since it assumes

139 ecific membrane antigen (PSMA)-targeting PET imaging is becoming the reference standard for prostate

140 Large-area X-ray imaging is one of the most widely used imaging modalitie

141 Among many accessible tools in diagnostic imaging, IVIM MRI aroused the interest of many researche

142 Therefore, [(11)C]13 is a potential PET imaging ligand for mGluR2 in different central nervous s

143 assisted laser desorption ionization (MALDI) imaging mass spectrometry (IMS) combined with time-of-fl

144 asive, high-resolution, and rapid biological imaging materials.

145 Here we demonstrate a robust high-content imaging method for the assessment of synaptic changes an

146 Currently, a volumetric vasculature imaging method with sub-capillary spatial resolution and

147 In some instances, these imaging methods can be parallelized across multiple samp

148 es often occur across days or weeks, but few imaging methods can capture such long timescales.

149 into one of the most versatile and powerful imaging methods of the nanoscale over the past two decad

150 Advances in imaging methods such as electron microscopy, tomography,

151 essment of skeletal metastases over standard imaging methods, being able to quantify biologic process

152 y of synchrotron-based nanotomographic X-ray imaging methods, namely holotomography and transmission

153 Fluorescence lifetime imaging microscopy (FLIM) is a key technology that provi

154 herapeutics, and hemodynamic data from other imaging modalities (e.g. MRI).

155 X-ray imaging is one of the most widely used imaging modalities that spans several scientific and tec

156 The primary imaging modalities used to select patients for endovascu

157 RI with contrast material enhancement is the imaging modality of choice to evaluate sonographically i

158 G PET/CT) has recently emerged as another IE imaging modality, although diagnostic accuracy varies ac

159 Magnetic resonance imaging (MRI) and evaluation of the R2* relaxation rate

160 ucting rotarod, diffusion magnetic resonance imaging (MRI), resting-state functional MRI (fMRI), and

161 olipidomes quantified with mass spectrometry imaging (MSI) can support objective diagnosis in minutes

162 Mass spectrometry imaging (MSI) is an established analytical tool capable

163 py (FORS), Raman spectroscopy, multispectral imaging (MSI), and macro X-ray fluorescence (MA-XRF) wit

164 Imaging neurons and neural circuits over large volumes a

165 Analogies to imaging, newborn screening, routine testing panels, and

166 Imaging nine additional species with cryo-electron tomog

167 The use of Near Infrared-Hyperspectral Imaging (NIR-HSI), together with machine learning method

168 was developed using previously obtained MRI imaging of 81 healthy fetuses between gestational ages 2

169 , we showed the first, to our knowledge, AFM imaging of adsorbed PS films under physiologically relev

170 The described improvements in the imaging of bone metastases and their response to therapy

171 minibody against CD8+ T cells, for targeted imaging of CD8+ T cells in patients with cancer.

172 renchyma, allowed high-content time-resolved imaging of cell migration.

173 rescent protein (GFP) enable high-resolution imaging of dopamine dynamics in behaving animals.

174 by specific ligands might enable the direct imaging of EpiSCs after MI to better understand their bi

175 or targeted near-infrared (NIR) fluorescence imaging of glucagonlike peptide 1 receptor (GLP-1R)-posi

176 capacity of BPI for optogenetics and calcium imaging of human neurons.

177 Here we combine superresolution imaging of human RPE1 cells, a classic model for studyin

178 s a proof of concept, in situ separation and imaging of lipid isomers with distinct spatial distribut

179 s, which has important implications for SIMS imaging of metabolites and pharmaceuticals.

180 formity in conjunction with (18)F-FDG PET/CT imaging of mini image-quality phantoms designed to fit t

181 etric rate of 14 Hz, and large field of view imaging of neurons, developing embryos, and centimeter-s

182 Through intravital imaging of NSCs and their progeny, we identify a populat

183 nd its use as a research tool for diagnostic imaging of obesity/diabetes, bacterial infection, and ca

184 Single molecule imaging of p44/p62 complexes without XPD reveals they bi

185 Using live time-lapse imaging of primary resected tumors, we discover that tum

186 f tissue oxygen tension (pO(2)) using Proton Imaging of Siloxanes to map Tissue Oxygenation Levels (P

187 by using immunohistochemistry and live-cell imaging of specific mRNAs, we describe for the first tim

188 Earlier single-molecule fluorescence imaging of the archaeal model glutamate transporter homo

189 Magnetic resonance imaging of the pancreas is increasingly used as an impor

190 proteins and synchrotron X-ray fluorescence imaging of trace metals, both performed with 40 nm spati

191 Confocal imaging of uninfected cells shows endogenous Mov10 local

192 easing interests in using magnetic resonance imaging only in radiation therapy require methods for pr

193 Microstimulation+imaging opened a unique possibility for investigating th

194 oing CAC-CT, without the need for additional imaging or radiation exposure.

195 response (CR) rate on end-of-treatment (EOT) imaging or with pathologic confirmation at 100 days post

196 sive simulation studies, the analyses of PET-imaging outcomes from the Alzheimer's Disease Neuroimagi

197 rates in subgroups at high risk for adverse imaging outcomes, including young women and children.

198 Scheimpflug imaging pachymetry and posterior elevation maps of corne

199 riteria based on contemporary cardiovascular imaging parameters are needed.

200 riteria based on contemporary cardiovascular imaging parameters are proposed for the assessment of CC

201 ty (relapses, disability, magnetic resonance imaging parameters) up to 6 years later in a cohort of 1

202 reness of this entity is low, and a specific imaging pattern has not yet been identified.

203 hat transcriptional correlates of depression imaging phenotypes track gene down-regulation in postmor

204 relationship between genotypes and molecular imaging phenotypes.

205 Based on current evidence, imaging plays an ancillary role in the management of tho

206 phic atrophy (nGA) describes features on OCT imaging previously observed to precede the development o

207 eloped to serve as a platform for multimodal imaging probe development.

208 mping ratio at 40 Hz, and magnetic resonance imaging proton density fat fraction (MRI-PDFF) in the de

209 gy (177)Lu energy peak, solid-state SPECT/CT imaging provided an accuracy to within approximately 20%

210 tion with dual-contrast enhanced subtraction imaging provides new opportunities for molecular diagnos

211 The imaging readouts can be obtained in both preclinical mod

212 label-free antigen microarray on the Arrayed Imaging Reflectometry (AIR) platform for detection of an

213 -II emitters for gastrointestinal (GI) tract imaging remains challenging due to fluorescence quenchin

214 Field-based brain imaging research, including populations underrepresented

215 In line with its preclinical data, PET imaging resulted in clear visualization of the cancer le

216 motion artefacts usually requires volumetric imaging resulting in slower rates of acquisition.

217 Subsequently, high-resolution fluorescence imaging results consolidated the potential of NBD-Bu for

218 CD8-IHC confirmed the PET imaging results.

219 Imaging revealed an atypical form of rhombencephalosynap

220 In vivo calcium imaging revealed that different GA drugs activate a shar

221 In vivo calcium imaging revealed that T4 and T5 neurons encode the locat

222 A lipid-mixing assay with confocal imaging reveals that both Syt1 and Doc2b are able to ind

223 hemical analysis, micro-computed tomographic imaging, scanning electron microscopy, corrosion casting

224 Resting-state functional magnetic resonance imaging scans were acquired from 25 unmedicated, treatme

225 Magnetic resonance imaging scans were obtained in 3 patients undergoing PPV

226 ed questionnaire data and Magnetic Resonance Imaging scans.

227 oved personalized dosimetry using simplified imaging schemes.

228 Conclusion The functional liver imaging score derived from gadoxetic acid-enhanced MRI i

229 As a new type of imaging spectroscopy, SMOLM exposes the organizational a

230 Imaging studies are necessary to rule out the presence o

231 Moreover, live-cell imaging studies examining Vif-mediated degradation of PP

232 Magnetic resonance (MR) imaging studies have demonstrated reduced global and reg

233 In vivo fluorescence and photoacoustic imaging studies highlight the ability of this probe to d

234 ve analysis of functional magnetic resonance imaging studies in healthy developmental samples (i.e.,

235 -matched control subjects, based on previous imaging studies showing that this disorder is associated

236 logy departments, as well as indications for imaging studies.

237 Using in vivo imaging, such as optical coherence tomography, scanning

238 ntage 256 system, can provide a non-invasive imaging surrogate biomarker of tissue oxygenation status

239 The proposed imaging system can sense the changes in areas near to th

240 itored continuously by the spectromicroscopy imaging system to reveal the critical information from t

241 age-quality phantoms designed to fit the new imaging system.

242 techniques in the field of mass spectrometry imaging: t-distributed stochastic neighborhood embedding

243 to many multicomponent fluorescence lifetime imaging targets that require cellular resolution and mol

244 Rationale: Tissue Doppler imaging (TDI) is an echocardiographic method that measur

245 high-resolution, three-dimensional, optical imaging technique for the murine brain was developed to

246 Conclusion: (64)Cu-DOTATATE PET/CT is a safe imaging technique that provides high-quality and accurat

247 Ultrasonography is the first-choice imaging technique to evaluate liver transplants.

248 vivo radiologic imaging with ex vivo optical imaging techniques for assessing hypoxia, microvasculatu

249 ctive coronary artery disease, intravascular imaging techniques might be needed to delineate the unde

250 nfection with SARS-CoV-2 is microbiological, imaging techniques play an important role in supporting

251 transgenic mouse line, optical clearing, and imaging techniques, combined with electrophysiological t

252 A perspective on the future use of live imaging technologies and overcoming their current limita

253 Imaging technologies have been developed to address thes

254 ring of the working dynamics of our group of imaging technologists that had an important role in the

255 mulas, intraoperative guidance, and advanced imaging technology and software have contributed to impr

256 that have been identified using advances in imaging technology, analysis of current research into ho

257 s or with portable units, are the first-line imaging test because they are widely available and econo

258 though there are no diagnostic laboratory or imaging tests which are specific for diagnosis, they cou

259 Here we show by in vivo fluorescence and MR imaging, that LN paracortical zones are profoundly acidi

260 easure cell metabolism, while simultaneously imaging the cells to measure division.

261 Here, we demonstrate its viability by imaging the distribution of major cellulases and xylanas

262 modelling and functional magnetic resonance imaging to describe how humans select predictors that mi

263 ncluded feeding and swaddling infants before imaging to encourage infants to sleep during the scan.

264 e, we used three-dimensional high-resolution imaging to investigate the formation of pleomorphic "meg

265 , recommend performing MRF T(1) prior to DCE imaging to maintain its benefit for improving detection

266 es from SOD1(G37R) mice and performed Ca(2+)-imaging to monitor PSC activity and used immunohistochem

267 e have developed functional ultrasound (fUS) imaging to properly visualize both activation levels and

268 ears) underwent optical coherence tomography imaging to quantify foveal point thickness and foveal pi

269 eranostic model by showing a requirement for imaging to quantify, in situ, the concentration of a met

270 Here we use live and fixed cell imaging to uncover the role of Nek8445 in regulating Gia

271 ed therapy can be predicted with a molecular imaging tool.

272 Anatomic imaging tools such as echocardiography and cardiac CT or

273 tablish tau positivity (T+) for multiple tau-imaging tracers in order to reach a consensus on normal

274 tempted to understand the molecular basis of imaging traits based on the interpretation of what the n

275 n the tumor lesions, as also shown on PET/CT imaging using (68)Ga-FAPI-46.

276 Fluorescent imaging using 6qcNIR allows 100% tumor margin assessment

277 SES disadvantage patients had similar imaging utilization and outcomes as compared to their co

278 reach a consensus on normal and abnormal tau imaging values that can be universally implemented in cl

279 MACE within 5 years of imaging was adjudicated.

280 , and time between initial treatment and PET imaging was evaluated.

281 Contrast material-enhanced imaging was not available at the time of recent presenta

282 Imaging was performed at the macroscopic level with feru

283 Imaging was performed with a prototypical stack-of-spira

284 ures accounted for 73.2% of all visits where imaging was performed.

285 Imaging was repeated 6-8 wk after TACE.

286 Gone are the days when medical imaging was used primarily to visualize anatomic structu

287 Diffusion-weighted imaging was used to compare atypical haemangiomas and me

288 Using two-color imaging we demonstrate co-transport of Rab11A and IAV vR

289 Using single-molecule imaging, we demonstrate that both condensin I and II exh

290 ity and spatial resolution of cellular force imaging, we developed a force-activatable emitter report

291 nt and versatile method for super-resolution imaging, which may be routinely used for cell and tissue

292 HC groups were obtained across the different imaging windows.

293 Patients have initial imaging with chest radiography and ultrasound, which can

294 ross-validate and compare in vivo radiologic imaging with ex vivo optical imaging techniques for asse

295 /arithmetic stressors and simultaneous brain imaging with high-resolution positron emission tomograph

296 ized approach to incorporating intravascular imaging with percutaneous coronary intervention may over

297 Glucagon-like peptide 1 receptor (GLP-1R) imaging with radiolabeled exendin has proven to be a pow

298 y, we combined functional magnetic resonance imaging with semantic content analyses to investigate th

299 operties translate to high-performance X-ray imaging with sensitivity up to 173 muC Gy(air) (-1) cm(-

300 Purpose To determine whether imaging with the HER2-targeted PET tracer zirconium 89 (