ライフサイエンスコーパス: imaging technique

1 and validated a few hits using an orthogonal imaging technique.

2 t and Overhauser-enhanced magnetic resonance imaging technique.

3 tomography (OCT) has become a powerful skin imaging technique.

4 acts were largely suppressed in the proposed imaging technique.

5 point to a relevant clinical utility of this imaging technique.

6 trate the utility of this novel longitudinal imaging technique.

7 easured by a two-wavelength autofluorescence imaging technique.

8 ften not detectable by conventional clinical imaging techniques.

9 he efficacy of the drugs and safety of these imaging techniques.

10 ns regarding application of various advanced imaging techniques.

11 ch detection was obscured by conventional 2D imaging techniques.

12 bodies not identifiable using other retinal imaging techniques.

13 (AFM) and scanning electron microscope (SEM) imaging techniques.

14 acetate, and is easily implemented using NMR imaging techniques.

15 ization of PLVAP in adult LSEC using several imaging techniques.

16 hanks to the introduction of new genomic and imaging techniques.

17 hese anomalies can be diagnosed with various imaging techniques.

18 sults in comparison to the more common X-ray imaging techniques.

19 have been detected by means of conventional imaging techniques.

20 ccessible to modern electrophysiological and imaging techniques.

21 ntary spectroscopic, thermal, and microscopy imaging techniques.

22 hardware, and are not suitable for demanding imaging techniques.

23 tions with the help of fluorescence-lifetime-imaging techniques.

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

25 underlies hemodynamic-based functional brain imaging techniques.

26 ting from the brain's surface, using optical imaging techniques.

27 ng non-invasive intravital chemiluminescence imaging techniques.

28 sue is invisible to conventional tomographic imaging techniques.

29 n at depths greater than traditional optical imaging techniques.

30 sis or resource-intensive, contrast-enhanced imaging techniques.

31 ight combination of advanced biochemical and imaging techniques.

32 ally underexplored, is studied using several imaging techniques.

33 in electron microscopy and quantitative live imaging techniques.

34 drial network using state-of-the-art optical-imaging techniques.

35 e and illustrate their findings in different imaging techniques.

36 monitored as a function of time and RH using imaging techniques.

37 edicine imaging, MRI, and even photoacoustic imaging techniques.

38 but not easily detected using modern calcium imaging techniques(9-11), highlighting the power of volt

39 umans and allow state-of-the-art genetic and imaging techniques, all in the context of an intact orga

40 sult of 3 simultaneous areas of advancement: Imaging techniques allow accurate noninvasive diagnosis

41 ngiography (OCT-A) emerged as a non-invasive imaging technique allowing visualization of the individu

42 wo-channel stimulated Raman scattering (SRS) imaging technique and a new pseudo-hematoxylin and eosin

43 identify patients with arrhythmic MVP (which imaging technique and in which patient) and how to treat

44 he current study, we used advanced live-cell imaging techniques and a fascin biosensor to demonstrate

45 We show by using high-content imaging techniques and an in-house developed interactive

46 d cognition using state-of-the-art diffusion imaging techniques and analyses.

47 02 mum) were obtained with different labels, imaging techniques and analysis methods.

48 d computed tomography (CT) scan are the main imaging techniques and are the initial diagnostic method

49 bilities are through integration between new imaging techniques and biofluid-based biomarkers of infl

50 128%) using an innovative combination of ECL imaging techniques and electrochemical mapping of radica

51 Critical discussion on the role of imaging techniques and how fields are developing rapidly

52 needed to optimise use of advanced molecular imaging techniques and novel radiotracers to achieve bet

53 diversity due to variability in cell types, imaging techniques and protocols.

54 pressure of oxygen ( PO2 ) measurements and imaging techniques and relevant oxygen thresholds.

55 atherosclerosis using different noninvasive imaging techniques and their relationship with cardiovas

56 magnetic resonance imaging and novel nuclear imaging techniques and their role in evaluating phenotyp

57 Using pH mapping, various optical imaging techniques, and biochemical assays, we demonstra

58 ctors, population screening, advancements in imaging techniques, and individualised comprehensive che

59 s manuscript we describe the normal anatomy, imaging techniques, and MRI findings of various traumati

60 he application of single-cell sequencing and imaging techniques, and the development of biomarkers of

61 lly appraise the available blood biomarkers, imaging techniques, and therapeutic targets that have sh

62 rt and fusion in vitro with super-resolution imaging techniques, and two-photon microscopy in living

63 Live-imaging techniques are at the forefront of biology resea

64 Although both imaging techniques are effective, SS-OCT appears to be a

65 Chemical imaging techniques are increasingly being used in combin

66 Echocardiography and other imaging techniques are required to assess ventricular dy

67 Imaging techniques are the main route of clinical work-u

68 Computational imaging techniques are then employed to demonstrate the

69 f controls using a proton magnetic resonance imaging technique, arterial spin labelling to measure pe

70 sciplinary decisions regarding the choice of imaging techniques as well as interventional and antibio

71 Early reports of molecular and hybrid imaging techniques, as well as whole-body MRI, promise a

72 Here, we demonstrate a magnetic imaging technique based on a laser induced local thermal

73 Myelin for Diagnostic Imaging, a new myelin imaging technique based on time-efficient simultaneous T

74 urrent development is the use of noninvasive imaging techniques based on body surface electrocardiogr

75 ssue structure using up-to-date non-invasive imaging techniques, based on multiphoton fluorescence an

76 tionalization, remote actuation systems, and imaging techniques becomes the crucial step toward biome

77 gnized, but only recently have sophisticated imaging techniques begun to reveal their ubiquity in nat

78 search in recent years with various clinical imaging techniques being applied for localization and tr

79 This is due to standard two-dimensional imaging techniques being unreliable.

80 advances in computing, sample handling, and imaging techniques, but high-resolution examination of e

81 ngth photoacoustic dynamic contrast-enhanced imaging technique by employing a stimuli-responsive cont

82 environment, it remains unclear whether this imaging technique can isolate diffuse leukocytes in pres

83 The results suggest that novel PET imaging techniques can be applied to inform and optimize

84 that (68)Ga-PSMA CLI is a new intraoperative imaging technique capable of imaging the entire specimen

85 Volumetric imaging techniques capable of correlating structural and

86 High-resolution imaging techniques capable of detecting identifiable end

87 Molecular imaging techniques capable of detecting such changes hav

88 Noninvasive imaging techniques capable of distinguishing these two c

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

90 cent novel cardiovascular magnetic resonance imaging techniques, concepts, and applications.

91 The introduction of better cardiac imaging techniques could be useful for diagnosing this c

92 n tumors is challenging, and new noninvasive imaging techniques could be valuable in this field.

93 erving the natural behavior of the 3D and 4D imaging techniques coupled.

94 Cross-sectional imaging techniques (CT and MRI) are well suited for eval

95 We discuss the role of current imaging techniques; demonstrate how -omics can advance o

96 Using an imaging technique designed to render intestinal tissue o

97 e aimed to highlight the various metal-based imaging techniques developed in the effort to understand

98 Among several imaging techniques developed to enhance melanoma diagnos

99 iate laser dosage, guiding the treatment via imaging techniques, developing PTAs with absorption in t

100 er, it remains challenging under the current imaging techniques due to the heterogeneous nature of PC

101 re difficult to visualize using conventional imaging techniques (e.g., MRI and X-ray).

102 article aggregation by employing correlative imaging techniques, encompassing both real-time dynamic

103 d bone scan findings, but advanced molecular imaging techniques, especially prostate-specific membran

104 This imaging technique facilitates identification of stoichio

105 dling method demonstrated the promise of the imaging technique for accurate detection of positive sur

106 Lung CT is the reference imaging technique for acute respiratory distress syndrom

107 pectrometry imaging (DESI-MSI) is a powerful imaging technique for the analysis of complex surfaces.

108 Endoscopy is a routine imaging technique for the detection, diagnosis and treat

109 oscopy has a prospective use as a label-free imaging technique for the fast screening of a large numb

110 CT is now established as the best imaging technique for the initial assessment of patients

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

112 These results validate an imaging technique for the study of activation and connec

113 imulated Raman histology (SRH), a label-free imaging technique for unprocessed biospecimens, has demo

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

115 akers showcased the state-of-the-art in vivo imaging techniques for detecting inflammation in differe

116 Imaging techniques for quantifying changes in the hierar

117 We also developed minimally invasive imaging techniques for real-time monitoring of intratrac

118 ent conferred by widespread use of sensitive imaging techniques for screening.

119 , recent developments on the use of advanced imaging techniques for studying the structural propertie

120 Here, we use a novel 7 Tesla MRI glutamate imaging technique (GluCEST) to estimate changes in gluta

121 Imaging techniques greatly facilitate the comprehensive

122 Recently, the X-ray speckle-based imaging technique has attracted widespread interest beca

123 This imaging technique has been developed with the objective

124 toacoustic (PA) imaging as a fast-developing imaging technique has great potential in biomedical and

125 The development of optical imaging techniques has led to significant advancements i

126 search using molecular genetics and advanced imaging techniques has provided enhanced tools for asses

127 Progress in live cell imaging techniques has recently revealed that the struct

128 Advances in experimental and imaging techniques have allowed for unprecedented insigh

129 Although many ROS imaging techniques have been developed and utilized in p

130 Various super-resolution imaging techniques have been developed to break the diff

131 Confocal and multiphoton optical imaging techniques have been powerful tools for evaluati

132 Advances in imaging techniques have enabled routine characterisation

133 Imaging techniques have identified the presence of bursi

134 Currently available imaging techniques have limited specificity for the dete

135 Novel imaging techniques have made it possible to investigate

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

137 to predict virus architecture, but improved imaging techniques have revealed increasing numbers of v

138 Advances in imaging techniques have shed new light on the structure

139 Using a novel wide-angle seismic imaging technique, here we show the presence of two sub-

140 is is also supported by the results from two imaging techniques, i.e., Transmission Electron Microsco

141 17 MRI method at 7.0 T as a direct metabolic imaging technique in glioma enabled quantitative visuali

142 to include an introduction to the particular imaging technique in question.

143 he limitations of previous mass spectrometry imaging techniques in analysis of low-abundance and diff

144 plasmon wave packets in real time for novel imaging techniques in atomically thin materials.

145 We review the current role of imaging techniques in diagnosing pseudotumor cerebri and

146 ermoscopy is one of the common and effective imaging techniques in diagnosis of skin cancer, especial

147 essment of subclinical atherosclerosis using imaging techniques in individuals with intermediate athe

148 here we applied intracellular and ER Ca(2+) imaging techniques in INS-1 beta cells and isolated isle

149 Single-molecule imaging techniques in live cells demonstrate that RecA i

150 e applicability of vibrational spectroscopic imaging techniques including Atomic Force Microscopy Inf

151 Here, using an array of biochemical and imaging techniques, including a highly regulatable CRISP

152 Molecular and hybrid imaging techniques, including SPECT/CT, PET/CT, and whol

153 hat are not directly observed using standard imaging techniques, including transmission electron micr

154 examination can be augmented with multimodal imaging techniques, including widefield imaging, fluores

155 eatment planning, but a reliable noninvasive imaging technique is lacking.

156 The use of noninvasive chemical imaging techniques is becoming more widespread for the s

157 The spatial resolution of 3D imaging techniques is often balanced by the achievable f

158 onsequences of the growing use of diagnostic imaging techniques is the notable growth in the detectio

159 terized and staged using histology and other imaging techniques, it has not been precisely quantified

160 can be readily combined with other live cell imaging techniques, it will contribute to a better under

161 However, hemodynamic imaging techniques lack the temporal resolution needed t

162 Among optical imaging techniques light sheet fluorescence microscopy i

163 ment of powerful multispectral, quantitative imaging techniques, like histo-cytometry.

164 Here, combining two clinically relevant imaging techniques, (magnetic resonance imaging; MRI and

165 This imaging technique may be applied to 13 nm particles and

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

167 egree of luminal narrowing, and conventional imaging techniques might thus fail to detect such culpri

168 etwork using a minimally invasive multimodal imaging technique: multiphoton-second harmonic generatio

169 Choice of imaging technique must account for potential risk to the

170 -standing limitations of conventional source imaging techniques, namely, difficulty in objectively es

171 This article will review the imaging technique, normal imaging anatomy, and most comm

172 Although emerging imaging techniques now enable more precise molecular cha

173 Ultrasonography is the imaging technique of choice for studying the digestive t

174 This advanced three-dimensional imaging technique of vitreous samples in near-native sta

175 Here, we use advanced live imaging techniques of organotypic slice cultures, clonal

176 New magnetic resonance (MR) molecular imaging techniques offer the potential for noninvasive,

177 Conventional ultrafast imaging techniques often rely on long data collection ti

178 Current methods rely on external imaging techniques or implantable sensors, without the a

179 Single-pixel imaging is an alternate imaging technique particularly well-suited to imaging mo

180 Magnetic resonance imaging and vascular imaging techniques play a critical role in identifying d

181 Imaging techniques play a fundamental role in the initia

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

183 Multimodality imaging techniques play an integral role in determining

184 Different imaging techniques (primarily ultrasound, magnetic reson

185 Noninvasive skin imaging techniques provide complementary information to

186 Common glucose-imaging techniques report glucose uptake or catabolism a

187 Most versions of such imaging techniques require special preparation of the ti

188 Novel multimodal molecular imaging techniques reveal the potential of three interre

189 This novel imaging technique reveals hitherto unobtainable informat

190 cular obstruction can be detected by cardiac imaging techniques several hours post-PPCI, it may be to

191 ments in light and electron microscopy-based imaging techniques should aide in elucidating these mech

192 and limitations in comparison to other brain imaging techniques, showcases interesting applications,

193 tegration of a label-free quantitative phase imaging technique, spatial light interference microscopy

194 me effects (PVEs) degrade signal in hot-spot imaging techniques such as amyloid PET.

195 Imaging techniques such as contrast echocardiography sug

196 Structural imaging techniques such as CT and MRI are often applied

197 table strategy for using routinely available imaging techniques such as MRI to generate nuanced neuro

198 ultidetector computed tomography and nuclear imaging techniques such as positron emission tomography

199 Beyond conventional imaging techniques, such as echocardiography, CT and car

200 Optical imaging techniques, such as light detection and ranging

201 micrometer-sized grains with other nanoscale imaging techniques, such as transmission electron micros

202 Using advanced analytical and imaging techniques, such as vibrating ion-selective elec

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

204 we describe the development of a real-space imaging technique that can directly map the local charge

205 We devised a combinatorial imaging technique that combines deconvolution with stepw

206 Angio-OCT is a safe, rapid imaging technique that could shed light on the pathogene

207 e advances, we develop a volumetric chemical imaging technique that couples Raman-tailored tissue-cle

208 resonance spectroscopy (MRS) is a developing imaging technique that enables non-invasive measurement

209 we developed a three-dimensional whole-organ imaging technique that enables tissue analysis at single

210 Herein, we present a dynamic imaging technique that fully exploits the characteristic

211 microscopy is a label-free, non-destructive imaging technique that has been shown to correlate with

212 l optoacoustic tomography (MSOT) is a hybrid imaging technique that provides a unique combination of

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

214 is a rapidly developing coherent diffraction imaging technique that provides nanoscale resolution on

215 al for biological discovery, it is a complex imaging technique that requires thorough optimization of

216 We developed a two-photon imaging technique that scans lines of excitation across

217 rmonic motion imaging (HMI) is an elasticity imaging technique that uses acoustic radiation force to

218 nucleus and demonstrate the role of emerging imaging techniques that are relevant for both magnetic r

219 Hence, there is an immediate need to develop imaging techniques that can longitudinally monitor macro

220 ient level, ranging from serum biomarkers to imaging techniques that enable investigation of immune c

221 cilitated by high-resolution optical in vivo imaging techniques that for the first time have provided

222 icro and macroscopic level, multi-resolution imaging techniques that provide high quality images with

223 Existing high-dimensional optical imaging techniques that record space and polarization ca

224 analytical platforms and RNA-seq as well as imaging techniques that reveal stochasticity in metaboli

225 Brain imaging techniques that use vascular signals to map chan

226 how, using a novel synchrotron-based in vivo imaging technique, that wild-type pigs display both a ba

227 ptychography, a high-resolution diffraction imaging technique, the 2D out-of-plane spin profile of s

228 red with conventional atomic-resolution STEM imaging techniques, the mixed-state ptychographic approa

229 onates and increased recognition by advanced imaging techniques, the prevalence of DWMI is increasing

230 This imaging technique therefore relates the structural chang

231 arly and late complication rates, the use of imaging techniques, time from emergency department to op

232 eview describes the evolution of PFM from an imaging technique to a set of advanced methods, which ha

233 In this work, we apply an optical nano-imaging technique to determine the anisotropic dielectri

234 undamental for choosing the most appropriate imaging technique to ensure the correct diagnosis in eac

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

236 A precise imaging technique to evaluate osteogenesis, osteodiffere

237 The fundamental imaging technique to evaluate these diseases is magnetic

238 Sodium ((23)Na)-MRI is an emerging imaging technique to investigate in vivo changes in tiss

239 bundle deflection, we developed a high-speed imaging technique to quantify this deflection in rat coc

240 ight studies in zebrafish that utilized live-imaging techniques to analyze macrophage activities in r

241 employed optical coherence tomography and 3D imaging techniques to assess and compare whole or broad

242 Using calcium imaging techniques to assess IP(3)R channel function, we

243 arction, need frequently arises for advanced imaging techniques to assist in differential diagnosis a

244 In this study we used advanced imaging techniques to characterize lysosomal interaction

245 Combining powerful imaging techniques to characterize the aggregated 3D cul

246 In this review, we will cover the role of imaging techniques to describe unique aspects of influen

247 physiological methods, fluid biomarkers, and imaging techniques to detect and monitor spinal cord inv

248 g existing iron-sensitive magnetic resonance imaging techniques to differentiate among immunopatterns

249 attered, fluorescence, two-photon, and phase imaging techniques to enhance GC contrast.

250 Further, we use calcium imaging techniques to identify the olfactory system as t

251 However, non-invasive imaging techniques to investigate brain function through

252 We used optimized magnetic resonance imaging techniques to measure 3 validated in vivo pathol

253 manuscript emphasizes the potency of nuclear imaging techniques to monitor receptor regulation noninv

254 DX) approaches, it is advantageous to deploy imaging techniques to monitor tumour growth and allow st

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

256 tification, flow cytometry, and a variety of imaging techniques to show that MSCs, directly isolated

257 Our adaptation of radio astronomy imaging techniques to study extremely transient lightnin

258 sses evolves, there is a need to develop new imaging techniques to study underlying mechanisms.

259 biophysical models, and the use of advanced imaging techniques to understand circuitry and predict r

260 py, a subdiffraction-resolution fluorescence imaging technique, to investigate the light-intensity de

261 on microscopy, a non-invasive and label-free imaging technique, to quantify and link the aortic ultra

262 e-wide association studies, advanced in vivo imaging techniques, transgenic lineage tracing mice, and

263 Retinal fundus photography is a safe imaging technique used for capturing the overall structu

264 )F-FMISO) PET is a noninvasive, quantitative imaging technique used to evaluate the magnitude and spa

265 Cryo-electron tomography (Cryo-ET) is an imaging technique used to generate three-dimensional str

266 iscuss the current structural and functional imaging techniques used for the diagnosis of bacterial i

267 lity with visual inspection and with medical imaging techniques used in the NICU.

268 Overall, insights from the powerful imaging techniques used provide an excellent basis for f

269 sarcoidosis, and cardiac hemochromatosis and imaging techniques used to facilitate diagnosis are disc

270 This new high spatial resolution plasmonic imaging technique uses low-cost and reusable patterned s

271 ary network was detected in NP areas using 2 imaging techniques, UWF FA and SS-WF OCTA, in eyes with

272 gration (EM) tested, and the 3D laminography imaging technique was employed for in-situ observation o

273 A high-speed synchrotron X-ray imaging technique was used to investigate the binder jet

274 subsequent volume, as determined by the SECM imaging technique, was (0.59 +/- 0.38) x 10(7) um(3) for

275 switchable fluorescence (USF) imaging, a new imaging technique, was recently proposed to realize high

276 zing a multimodal biomedical high-resolution imaging technique we collected fine structural informati

277 To accelerate clinical translation of imaging techniques, we also describe examples of practic

278 Using multiple analytical and imaging techniques, we characterize the spatial and temp

279 Using neurophysiological and imaging techniques, we examined the influence of residua

280 By employing confocal microscopy and newer imaging techniques, we further determined the progressio

281 quantitative fluorescence spectroscopic and imaging techniques, we have examined the oligomerization

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

283 Using diffusion imaging techniques, we reconstructed fiber bundles betwe

284 ere, using mass spectrometry and fluorescent imaging techniques, we show that the clinically used alp

285 With neutron imaging techniques, we succeed to monitor density fluctu

286 A range of testing methods and imaging techniques were assessed for their ability to me

287 , we report a novel calibrationless parallel imaging technique which simultaneously estimates coil pr

288 RyRs remains unknown, due to shortcomings of imaging techniques which are diffraction limited or rest

289 Therefore, imaging techniques which reveal abnormalities of tumor v

290 re we introduce a pulse overlap transmission imaging technique, which is suited to increase the avail

291 collaterals are contrast-based angiographic imaging techniques, which are not possible in all patien

292 We anticipate that the plasmonic imaging technique will contribute to the study of electr

293 of axonal transport is the lack of a robust imaging technique with a high spatiotemporal resolution

294 Here, we introduce a super-resolution imaging technique with an acquisition rate of 800,000 fr

295 By combining this imaging technique with both computer-vision algorithms a

296 Here we report a competition-enabled imaging technique with super-resolution (COMPEITS) that

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

298 ombine X-ray microcomputed tomography (muCT) imaging techniques with bespoke image analysis tools and

299 Novel imaging techniques with ever-increasing resolution are i

300 udied by structural analyses and large-scale imaging techniques, with the goal to decipher its critic