ライフサイエンスコーパス: imaging

1 s shown by near-infrared fluorescence (NIRF) imaging.

2 ultidetector computerized tomographic (MDCT) imaging.

3 nostic application of fluorescence molecular imaging.

4 Of those, 552 had undergone ex vivo imaging.

5 HABs, 3 MABs, and 2 LABs-underwent brain PET imaging.

6 n 0.79 obtained using statistical parametric imaging.

7 weakly interacting biomolecules or cellular imaging.

8 re shown to be a powerful tool for molecular imaging.

9 (BCs) in the zebrafish retina using in vivo imaging.

10 DE4B-preferring radioligand for clinical PET imaging.

11 ty MRI (fcMRI) in the context of amyloid-PET imaging.

12 diography, and magnetic resonance microscopy imaging.

13 cal applicability of ZTE in osseous shoulder imaging.

14 as by pseudocolor, autofluorescence, and OCT imaging.

15 ents/h) were evaluated by magnetic resonance imaging.

16 rmediately suspicious via multiparametric MR imaging (31 mutations per sample +/- 15), and high-grade

17 9), mildly suspicious via multiparametric MR imaging (37 mutations per sample +/- 21), intermediately

18 with IPH at baseline magnetic resonance (MR) imaging (53 carotids with IPH) were randomly selected an

19 nsional echo planar J-resolved spectroscopic imaging (5D EP-JRESI) sequence, which is capable of obta

20 ghted turbo spin-echo and diffusion-weighted imaging), acquired within 8 minutes 45 seconds (referred

21 udied as drug carriers, radiosensitizers and imaging agents, and characterizing nanoparticle biodistr

22 at are used for drug delivery and multimodal imaging, among others.

23 Diffusion tensor imaging analysis revealed a significant increase in FA i

24 Recently, a diffusion magnetic resonance imaging analysis technique using a bitensor model was in

25 Imaging analysis was performed from June 15, 2015, to Au

26 ative gene-expression microarray and in vivo imaging analysis, and identified novel molecular candida

27 escribe an enhanced fluorescence fluctuation imaging analysis, which employs statistical resampling t

28 Using a combination of high-content imaging and a mammalian membrane two-hybrid protein-prot

29 Commonly used imaging and analysis techniques yield measurements of en

30 mporal lobe epilepsy, using diffusion tensor imaging and automated fibre quantification.

31 resting-state functional magnetic resonance imaging and clustering methods.

32 Functional imaging and gene expression studies both implicate the m

33 ests, including polysomnography (PSG), brain imaging and genetic analysis, were used.

34 ues, including lower-resolution fluorescence imaging and higher-resolution atomic structure determina

35 arger series and close collaboration between imaging and oncology specialists on a per-patient basis.

36 r stress, using recently developed live cell imaging and particle-tracking methods for studying bacte

37 Using live-imaging and perturbation experiments we show that leaf o

38 we combine operando hard X-ray spectroscopic imaging and phase-field modeling to elucidate the delith

39 By combining Kelvin probe force microscopy imaging and phase-field simulations, we show that oxygen

40 Participants underwent magnetic resonance imaging and positron emission tomography for amyloid-bet

41 ancer, technology developments in diagnostic imaging and radiation therapy have elucidated parts of t

42 hNIS) is an established target for molecular imaging and radionuclide therapy.

43 We used voltage-sensitive dye optical imaging and somatosensory and motor behavioral tests to

44 he Society of Nuclear Medicine and Molecular Imaging and the American College of Nuclear Medicine sho

45 Appearance of cuticular drusen in multimodal imaging and the topography of a cuticular drusen distrib

46 ammation management, including therapeutics, imaging and theranostics.

47 th porphyrin molecules, for effective cancer imaging and therapy.

48 s 45 seconds (referred to as biparametric MR imaging), and established a diagnosis according to the P

49 incorporates available clinical, laboratory, imaging, and histological features.

50 FSPS samples was investigated by SEM and TEM imaging, and the observations were used to guide the opt

51 er cells and metastases for tumor diagnosis, imaging, and therapy.

52 nts' growth parameters, use of 3-dimensional imaging, and type of ablation (radiofrequency versus cry

53 of neoplasms affecting the sternum and their imaging appearance is essential to arrive at an early di

54 Here, we combined a nanoscale imaging approach with advanced image analysis to detect

55 dy we assessed the potential of non-invasive imaging approaches (photoacoustic imaging (PAI) and magn

56 ductive surgery available through the Cancer Imaging Archive.

57 ing from in vitro sensing assays to cellular imaging are separated and discussed in more detail.

58 intravenously followed by serial whole-body imaging at 0.5-1, 1-2, and 3-4 after injection.

59 c PCa via sequential planar whole-body SPECT imaging at 1, 3, 5, and 21 h after injection.

60 pproach utilizes multiple rounds of targeted imaging at different scales to reduce acquisition time a

61 f the lungs were analyzed using fluorescence imaging, autoradiography, and immunohistochemistry.

62 At the time of imaging, behavioural evaluation with the Coma Recovery S

63 D) score within 3 months of initial liver CT imaging between January 3, 2006, and May 30, 2012, were

64 PET imaging, biodistribution, autoradiography and immunohist

65 ncreas and constitutes a tentative surrogate imaging biomarker in diabetes.

66 Structural retinal imaging biomarkers are important for early recognition a

67 d diffusion-weighted MR imaging could reveal imaging biomarkers associated with cognition in active p

68 aim to establish clinical, serological, and imaging biomarkers to identify high-risk patients, and c

69 microscopy allows for label-free 3D in vivo imaging by detecting the acoustic response of a photoexc

70 scence complementation (AiFC) method for RNA imaging by engineering a green fluorescence protein (GFP

71 he plethora of methods for functional neural imaging can be daunting to the nonexpert to navigate.

72 Clinical, metabolic, and imaging characterization of seven patients followed by h

73 s that hold vast potential for near-infrared imaging, chemical sensing, materials engineering, and qu

74 Here we report the development of 3D imaging cluster Time-of-Flight secondary ion mass spectr

75 Cardiac magnetic resonance imaging (cMRI) has become the non-invasive reference sta

76 Time-lapse video imaging compiled from the optical screening images revea

77 cluded term neonates with magnetic resonance imaging-confirmed NHS including primary and secondary in

78 dditional increase of more than five-fold in imaging contrast in vivo.

79 evelopmental diseases, a characterization of imaging correlates elicited by early-life social stress

80 uch as T1-weighted and diffusion-weighted MR imaging could reveal imaging biomarkers associated with

81 gorithms including clinical, laboratory, and imaging criteria demonstrated good sensitivity (up to 88

82 diagnostic assessment for LVNC by 4 separate imaging criteria-referenced by their authors as Petersen

83 We used diffusion MR imaging data and the Tract-Based Spatial Statistics anal

84 Our real-time single-molecule imaging data demonstrate that TFIID alone binds poorly t

85 s with analysis of in vivo two-photon Ca(2+) imaging data from somatosensory cortex of Fmr1 knock-out

86 (105) traces of whole-brain larval zebrafish imaging data on a laptop.

87 d and described in compliance with the Brain Imaging Data Structure (BIDS).

88 model, fully parameterized with experimental imaging data, to describe doxorubicin uptake and predict

89 d quantitatively analyzing digital pathology imaging data.

90 achine-learning system for digital pathology imaging datasets.

91 Despite recent progress in imaging defects using electron and X-ray techniques, in

92 Zebrafish imaging demonstrates that after extravasation, melanoma

93 eloped molecular assays and portable optical imaging designs that permit on-site diagnostics with a c

94 field including chemical sensing, biological imaging, drug delivery, and photothermal therapy.

95 exposure to hyperoxia using diffusion tensor imaging (DTI) to identify axonal injury distant from con

96 usefulness of whole-body diffusion-weighted imaging (DWI) to assess the response of bone metastases

97 Three-dimensional (3D) molecular imaging enables the study of biological processes in bot

98 Intravital imaging enables to study dynamic tumour-stroma interacti

99 The association between imaging features and mutation status (e.g., EGFR-positiv

100 ions between tumor angiogenesis and radiomic imaging features from PET/MRI.

101 ducted on 3 feature datasets (i.e., radiomic imaging features, tumor microvascular density (MVD), and

102 ions will be described and compared with the imaging findings associated with congenital Zika virus i

103 -domain OCT is useful in identifying various imaging findings in DME.

104 so to obviate biopsy in cases with classical imaging findings.

105 acquisition of functional magnetic resonance imaging (fMRI) in a 2-drug, double-blind placebo-control

106 activity with functional magnetic resonance imaging (fMRI) in volunteers as they performed a concurr

107 igh-resolution functional magnetic resonance imaging (fMRI) response patterns in the human auditory c

108 (every 6 months) in the multicenter Advanced Imaging for Glaucoma Study.

109 Photoacoustic imaging for in vivo quantification of placental oxygenat

110 who underwent CE spectral mammography and MR imaging for screening or staging from 2010 through 2014

111 ed 2180 pediatric patients who had undergone imaging for suspected appendicitis from January 1, 2011,

112 Using three independent measures-calibrated imaging, FRAP, and photoconversion-we find that the Dam1

113 ic imaging were performed for pretherapeutic imaging (group 1).

114 e durable clinical efficacy and safety of MR imaging-guided HIFU were demonstrated.

115 s cancer than strategies in current clinical imaging guidelines, of which European ones primarily rec

116 Progress in 3D electron microscopy (EM) imaging has greatly facilitated neuroscience research in

117 g was faster, but hyperspectral CARS and SFG imaging has the potential to be applied to a wider varie

118 ce, vascular leakage by fluorescence in vivo imaging, histopathological changes by semiquantitative e

119 e also demonstrate potential applications in imaging human intestinal organoids (HIOs), colon mucosa,

120 , limited evidence supported the use of CBCT imaging improving the execution of therapy for both type

121 resting-state functional magnetic resonance imaging in a cross-sectional design.

122 clearing methods can facilitate deep optical imaging in biological tissue by reducing light scatterin

123 tion is given to the common goals of cardiac imaging in CHD, including assessment of structural and r

124 rules can help to determine the need for CT imaging in children with head injuries.

125 To assess the role of diffusion-weighted MR imaging in differentiation between Graves' disease and p

126 acute inactivation approaches and live-cell imaging in Drosophila embryos, we dissect the role of co

127 tion responses, typically measured with BOLD imaging in humans, as linear sums of groups of neurons (

128 Thus far, most trials of novel molecular imaging in oncology have been small, single-center trial

129 Considerations for cardiac imaging in pregnancy are also discussed.

130 edited magnetic resonance (MR) spectroscopic imaging in subjects with mild cognitive impairment (MCI)

131 ht ventricle with cardiac magnetic resonance imaging in the same cohorts.

132 Functional magnetic resonance imaging included a resting state and an experimental par

133 Mass spectrometry-based imaging indicated a differential localization of triterp

134 Between-reader agreement of biparametric MR imaging interpretation was substantial (kappa = 0.81).

135 18F]AV-1451 signal as seen on results of PET imaging is a valid marker of clinical symptoms and neuro

136 Tractography based on non-invasive diffusion imaging is central to the study of human brain connectiv

137 Although surveillance imaging is commonly performed in clinical practice, its

138 alcium (MAC), commonly identified by cardiac imaging, is associated with cardiovascular events and pr

139 Conclusion Serial multiparametric MR imaging mapping can be used to evaluate cartilage beyond

140 ior substantia nigra is a valid, progression imaging marker of Parkinson's disease, which may be used

141 Diagnostic accuracy of imaging markers selected from a multivariate prediction

142 Using label-free ToF-SIMS imaging mass spectrometry, we generated a map of small m

143 Early anatomic imaging may show that a tumor has increased in size, but

144 MR imaging measures of brain perfusion and metabolism were

145 ed peripheral immune, sleep, and noninvasive imaging measures, we argue that these should be incorpor

146 Using the multiparametric high-content imaging method, we evaluate cell viability, formation of

147 cture, employing advanced magnetic resonance imaging methods that quantify biomarkers of brain tissue

148 ivity under two-photon fluorescence lifetime imaging microscopy (2pFLIM).

149 en macroscopically, indicating that SPECT/CT imaging might be more sensitive than the macroscopic art

150 Our approach can be readily adapted to other imaging modalities and forms a starting point for furthe

151 Here, we review advances in engineering both imaging modalities and material properties with improved

152 erials (spanning multiple different physical imaging modalities and therapeutic/theranostic capabilit

153 with mild to moderate disease, with current imaging modalities being inadequate.

154 r combining multiple magnetic resonance (MR) imaging modalities such as T1-weighted and diffusion-wei

155 crostructure, integrating data from multiple imaging modalities, strategic longitudinal observation d

156 omplex topic of defining resolution for this imaging modality and address some of the more common ana

157 domization and changes on magnetic resonance imaging (MRI) at 6 months and 24 months (change in lesio

158 Injectable Magnetic Resonance Imaging (MRI) contrast agents have been widely used to p

159 In particular, magnetic resonance imaging (MRI) is critical for visualizing soft tissue an

160 vascular spaces (PVSs) on magnetic resonance imaging (MRI) is hypothesized to represent impaired drai

161 sion tomography (PET) and magnetic resonance imaging (MRI) scans acquired in a total of 210 healthy i

162 coustic imaging (PAI) and magnetic resonance imaging (MRI)) to detect melanin induction in SKMEL28 hu

163 Patients with recent magnetic resonance imaging (MRI)-documented lacunar infarcts were randomly

164 ery well characterized by magnetic resonance imaging (MRI).

165 ctioned in preparation for mass spectrometry imaging (MSI).

166 All imaging observers were blinded to the biopsy results, an

167 tion dose from whole-body (11)C-nicotine PET imaging of 11 healthy (5 male and 6 female) subjects.

168 l describes multichannel time-lapse confocal imaging of anchor-cell invasion in live Caenorhabditis e

169 CaCLEAN combined with 3D confocal imaging of beating cardiomyocytes provides a functional

170 n of radiolabeled Glc, linkage analysis, and imaging of cellulose microfibril formation using transmi

171 ity of simultaneous chemical and topographic imaging of complex biological samples is demonstrated us

172 X-ray techniques, in situ three-dimensional imaging of defect dynamics remains challenging.

173 By coupling in vivo Ca(2+) imaging of dentate granule neurons with a novel, unrestr

174 e spinal cord in vivo Furthermore, live-cell imaging of end-binding protein 3 tagged with EGFP (EB3-G

175 use of AiFC for high-contrast and real-time imaging of endogenous RNA molecules in living mammalian

176 hese mice interfere with the observation and imaging of engrafted tissues.

177 luciferase, to allow long-term, non-invasive imaging of Hmox1 expression, and beta-galactosidase for

178 ial peptide with great potential for nuclear imaging of infectious diseases, as its cationic-rich fra

179 Using two-photon imaging of large groups of neurons, we show that multise

180 In vivo OCT imaging of LVYE-1 showed that the biomarker was signific

181 r scanning electrochemical microscopy (SECM) imaging of molecular microarrays.

182 lysis of reflected light, enabling nanoscale imaging of myelinated axons in their natural living stat

183 Imaging of NFkappaB reporter before and after surgery sh

184 ding which may also be relevant for clinical imaging of other hematological cancers.

185 opagation length are demonstrated via direct imaging of polaritonic standing waves by means of infrar

186 Intravital imaging of post-ischemic kidneys revealed reduced vascul

187 solitons is hindered by the need for spatial imaging of the 3D fields, which is difficult in high-ene

188 ty of specific technology permitted detailed imaging of the clinical picture of unusual cases of XLRS

189 oration of intimin for live cell fluorescent imaging of the dynamics of the bacterial outer membrane

190 We demonstrate imaging of the fast initiation and propagation of action

191 werful analytical tool for in vivo molecular imaging of the human brain.

192 Small-animal SPECT/CT-based MMP-targeted imaging of the lungs is feasible and reflects pulmonary

193 Cellular-scale imaging of the mechanical properties of tissue has helpe

194 anese-52 ((52)Mn, T(1/2)=5.6days), allow the imaging of this biodistribution.

195 Three-dimensional (3D) optical imaging of whole biological organs with microscopic reso

196 e each of the first 13 subjects underwent MR imaging on three separate occasions to determine longitu

197 alth care professionals should consider CBCT imaging only when they expect the diagnostic information

198 labeling, ultrastructural analysis, calcium imaging, optogenetics and behavioral analyses, we uncove

199 nd international cardio-oncology and cardiac-imaging organisations recommend increased cardiac survei

200 This method may also prove useful for imaging other structures, such as neurons in the brain.

201 icroscopy, immunofluorescence, and live-cell imaging, our study shows that immediately after bacteria

202 Imaging outcomes included rates of vessel recanalization

203 n-invasive imaging approaches (photoacoustic imaging (PAI) and magnetic resonance imaging (MRI)) to d

204 nd to compare the diagnostic accuracy of the imaging parameters in staging liver fibrosis.

205 der agreement and agreement across the three imaging platforms.

206 ification for acute pulmonary embolism using imaging presence of right ventricular dysfunction is ess

207 d biological characterization as a live-cell imaging probe for different fungal pathogens.

208 ld save many lives, but current fluorescence imaging probes are limited in their detection ability, p

209 n the diagnostic performance of the short MR imaging protocol consisting of only transverse T2-weight

210 The standard MR imaging protocol image set contained images from all six

211 d in the dynamic contrast-enhanced breast MR imaging protocol with a 1.5-T MR imaging system.

212 d with that of a standard multiparametric MR imaging protocol.

213 I: 0.42, 0.68) for the short and standard MR imaging protocols.

214 on Dixon T2-weighted fat-only and water-only imaging provide, in one sequence, diagnostic performance

215 nescent scattering, and single-molecule FRET imaging, providing real-time multiparameter measurements

216 ransverse T2-weighted and diffusion-weighted imaging pulse sequences compared with that of a standard

217 rodent lower digestive track to improve the imaging quality of deep-lying vessels inside the abdomin

218 bation analysis in vivo, which combines live imaging, real-time image analysis, and automated optical

219 Positive predictive value for MR imaging recalls was 9.3% (95% CI: 6.83%, 12.36%) and tha

220 e field of view without any beam scanning or imaging reconstruction.

221 rmation, one immediately after review of the imaging report to denote intended management changes (Q2

222 lished a diagnosis according to the Prostate Imaging Reporting and Data System (PI-RADS) version 2; o

223 disease for both clinical and basic science imaging research studies.

224 Imaging responses and posttransplantation recurrence wer

225 Also, amyloid imaging results seem to have a relevant impact on caregi

226 d all hepatopathologists were blinded to the imaging results.

227 ased on clinical evaluation, laboratory, and imaging results.

228 Time-lapse imaging reveals that branching events are synchronized a

229 Live-cell imaging reveals that Rab8a is first recruited to the pla

230 real-time confocal laser scanning microscopy imaging reveals the dynamic process of gNP aggregation r

231 sex, and postnatal age at magnetic resonance imaging scan.

232 Ex vivo imaging showed that suppression of Amigo2 in luciferase-

233 e of "silencing", intracellular free calcium imaging showed that the cells were still viable.

234 n of ventricular volume and function, stress imaging, shunt quantification, and tissue characterizati

235 This requirement imposes a limitation on the imaging speed as digital micro-mirror devices (DMDs) gen

236 A clinical imaging strategy based on PET/CT demonstrated a signific

237 (PRLR), forming the basis of a new molecular imaging strategy.

238 Medical imaging studies achieve a diagnostic purpose and should

239 Of 2044 MR imaging studies in the diagnostic group, 1443 were class

240 functional magnetic resonance and molecular imaging studies of dopamine function in bipolar disorder

241 Regular follow-up imaging studies should avoid the use of CT/angio, and pa

242 In subsequent non-human primate (NHP) PET imaging studies, [(18)F]8 showed rapid brain uptake and

243 40 unique studies (equal number of CT and MR imaging studies, uniformly distributed LI-RADS categorie

244 Taken together, our imaging study demonstrates that CCL2 enables the prolong

245 nd controls in the subset of 8590 UK Biobank Imaging study participants who had undergone depression

246 ability of this high resolution elastography imaging system for characterizing tissue biomechanical p

247 d breast MR imaging protocol with a 1.5-T MR imaging system.

248 based on large equipment such as readers and imaging systems, which require intensive and time-consum

249 onsisting of single-plane (axial) structural imaging (T2-weighted turbo spin-echo and diffusion-weigh

250 18)F-T807 is a PET radiotracer developed for imaging tau protein aggregates, which are implicated in

251 ti echo echo-planar correlated spectroscopic imaging technique that allows separate determination of

252 tial within single neurons, and validate the imaging technique with the traditional patch clamp techn

253 02 mum) were obtained with different labels, imaging techniques and analysis methods.

254 Imaging techniques have identified the presence of bursi

255 Quantitative volumetric magnetic resonance imaging techniques have provided limited insight into th

256 This study used both imaging techniques to more accurately stage hepatic fibr

257 tion of biochemistry, electrophysiology, and imaging techniques, we now show that NMDARs have a key r

258 r many-channel data from emerging biomedical-imaging techniques.

259 underlies hemodynamic-based functional brain imaging techniques.

260 ize a specific small-molecule tracer for PET imaging that binds with high affinity to GPIIb/IIIa rece

261 sed as contrast media for magnetic resonance imaging that provide measurement of distal lung ventilat

262 nium enhancing lesions on magnetic resonance imaging that were discriminated from non-CLIPPERS by: ho

263 After magnetic resonance imaging, the rats were catheterized, and left ventricula

264 racterizing their biophysical properties and imaging them using ultrasound and MRI.

265 antify phenotypic characteristics on medical imaging through the use of automated algorithms.

266 , thereby providing an opportunity to reduce imaging time by eliminating the need to perform T1 seque

267 Herein, probes that are capable of imaging tiny (<1 mm) micrometastases in the liver, lung,

268 tive whisker stimulation and in vivo calcium imaging to assess tactile defensiveness and barrel corte

269 under the ROC for using small-window entropy imaging to classify tumors was 0.89, which was higher th

270 e used Bogoliubov quasiparticle interference imaging to determine the Fermi surface geometry of the e

271 Here, we use in vivo functional imaging to identify a class of cutaneous sensory neurons

272 the usefulness of dopamine transporter (DAT) imaging to identify idiopathic rapid eye movement sleep

273 Here, we used two-photon Ca(2+) imaging to study visual processing in VGluT3-expressing

274 esults establish the utility of the new live-imaging tools for the study of molecular-neural interact

275 Cellular imaging using a phospho-specific p-T153/Y155 antibody sh

276 to endoscopic procedures and cross-sectional imaging varies widely.

277 Mass spectrometry imaging was applied to compare NIMS sensitivity of these

278 Simultaneous narrowband CARS and SFG imaging was faster, but hyperspectral CARS and SFG imagi

279 The OCT imaging was generally normal, but in 6 subjects subtle i

280 Breast MR imaging was performed before and after treatment.

281 adisulfide modulates cGMP binding, real-time imaging was performed in vascular smooth muscle cells ex

282 Handheld OCT imaging was performed longitudinally on all patients.

283 Cardiac magnetic resonance imaging was repeated at 3 months.

284 PET imaging was used to evaluate the whole-body distribution

285 ecule fluorescence resonance energy transfer imaging, we examine TM6 movements in the beta2 adrenergi

286 Using high-resolution live imaging, we examined the spatiotemporal dynamics of RNA

287 Using calcium imaging, we found that these neuron types are not direct

288 Using functional magnetic resonance imaging, we show that children as young as 3-4 years old

289 F20B in a human cell line and fixed and live imaging, we show that KIF20B has a cell-autonomous role

290 Sensitivity and specificity of MR imaging were 96% and 78% respectively, and those of mamm

291 from cardiac testing, laboratory workup, and imaging were negative for cardiac or neurologic etiology

292 In 31 patients, bone scanning and radiologic imaging were performed for pretherapeutic imaging (group

293 PET/CT patients were discharged after imaging, whereas SPECT/CT patients left the department e

294 rcentage of women with FMD with intracranial imaging who had an intracranial aneurysm.

295 on of the CARS signal is optimized for water imaging with broadband excitation.

296 Calcium imaging with cellular resolution typically requires an a

297 rst look at the relationship between Tau-PET imaging with F(18)-AV1451 and functional connectivity MR

298 ogram, and cardiovascular magnetic resonance imaging with late gadolinium enhancement and a 24-hour H

299 cluded a chamber with glass windows allowing imaging with upright or inverted microscopes.

300 considerably, making nanoscale hyperspectral imaging within a reasonable time frame possible.