ライフサイエンスコーパス: imaging technique

1 y, enabled by our ultrahigh speed full-field imaging technique.

2 using a time-resolved pump-probe soft X-ray imaging technique.

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

4 anced Electrostatic force Microscopy (DREEM) imaging technique.

5 real-time cardiovascular magnetic resonance imaging technique.

6 (CARS) microscopy, a label-free vibrational imaging technique.

7 ometry imaging (MSI) is a powerful molecular imaging technique.

8 ly 43 to 360 nm using a micron-scale optical imaging technique.

9 acts were largely suppressed in the proposed imaging technique.

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

11 es of a single gold nanowire with an optical imaging technique.

12 iously impossible using any laboratory-based imaging technique.

13 trialed a novel macrophage-specific arterial imaging technique.

14 racy were found when comparing the different imaging techniques.

15 a combination of different spectroscopic and imaging techniques.

16 impressive variety of biosensing and medical imaging techniques.

17 ves and fewer false positives than the other imaging techniques.

18 ions, biochemical analyses, and a variety of imaging techniques.

19 sm, SUDHL-4 and Granta-519, using multimodal imaging techniques.

20 racterized using different spectroscopic and imaging techniques.

21 nfrared are highly desirable in fluorescence imaging techniques.

22 NTBS protocols can reach the specificity of imaging techniques.

23 study biology in situ has been aided by many imaging techniques.

24 a mesoscopic scale requires high-resolution imaging techniques.

25 ing of neural activity in vivo using optical imaging techniques.

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

27 partments by conventional magnetic resonance imaging techniques.

28 ctroscopy information from current plasmonic imaging techniques.

29 ng non-invasive intravital chemiluminescence imaging techniques.

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

31 sue is invisible to conventional tomographic imaging techniques.

32 ancer both clinically and using conventional imaging techniques.

33 underlies hemodynamic-based functional brain imaging techniques.

34 a largely unmitigated by current advances in imaging techniques.

35 e, which we detected using different in vivo imaging techniques.

36 blood cells (RBCs) using quantitative phase imaging techniques.

37 he effectiveness of conventional optical and imaging techniques.

38 esting for the disease, application of novel imaging techniques (6-[fluoride-18]fluoro-levodopa [(18)

39 In this imaging technique, a scintillator crystal (e.g., CdWO4)

40 cesses take place over months, most existing imaging techniques allow us to follow snapshots of only

41 CMR T1 mapping is a quantitative imaging technique allowing the assessment of myocardial

42 e of the art quantitative magnetic resonance imaging techniques allowing us to quantify the degree of

43 This optical imaging technique allows for monitoring of key metabolic

44 The X-ray fluorescence imaging technique allows not only the imaging itself but

45 These imaging techniques also influenced capsule content and d

46 the potential of combining a multitracer PET imaging technique and a longitudinal protocol applied on

47 ecorneal retention were evaluated by in vivo imaging technique and ocular pharmacokinetics studies re

48 now be measured noninvasively with the same imaging technique and promises novel insights into syste

49 02 mum) were obtained with different labels, imaging techniques and analysis methods.

50 gical-pathological correlation between these imaging techniques and immunohistochemistry using a clos

51 requires modification to incorporate modern imaging techniques and new methods for quantifying bone

52 Advanced MR imaging techniques and PET imaging offer physiologic, me

53 Consequently, imaging techniques and protocols for assessing edema, my

54 New imaging techniques and technologies are required to impr

55 Strain-based imaging techniques (and specifically speckle-tracking ec

56 (MRE), an advanced magnetic resonance-based imaging technique, and acoustic radiation force impulse

57 ry, using recently developed preparation and imaging techniques, and by measuring the turgor pressure

58 AGI also requires preclinical advances, new imaging techniques, and optimizing translational issues.

59 t compares to other optical super-resolution imaging techniques, and what advantages it provides comp

60 affixed to a stretcher and the SHG live-cell imaging technique are unique tools for real-time analysi

61 Further, companion diagnostic imaging techniques are becoming progressively more impor

62 ns a major challenge, as current tomographic imaging techniques are either nonspecific or lack the ne

63 Noninvasive multiparametric imaging techniques are emerging tools that can further o

64 Specialized magnetic resonance imaging techniques are explored for diagnosing preclinic

65 In vivo imaging techniques are powerful tools for evaluating bio

66 y means of clinical inspection and therefore imaging techniques are required to precisely evaluate su

67 Large-scale imaging techniques are used increasingly for ecological

68 Several imaging techniques are widely available, with ultrasonog

69 on force impulse (ARFI), an ultrasound-based imaging technique, are accurate for diagnosing nonalcoho

70 engths, and pitfalls of these cardiovascular imaging techniques as they relate to CHD is essential.

71 e approach combining three-dimensional X-ray imaging techniques at different length scales for the an

72 , we developed a voltage-sensitive dye (VSD) imaging technique based on a double-sided microscope tha

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

74 al activity in the living brain with optical imaging techniques became feasible owing to the continue

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

76 been significant advancements in the various imaging techniques being used for the evaluation of asth

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

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

79 Here, we present a new fluorescence imaging technique by which single fluorescent molecules

80 s the application of a newly developed x-ray imaging technique called Spatial Frequency Heterodyne Im

81 ation from conventional imaging, while novel imaging techniques can also reveal specific aspects of t

82 Multiple imaging techniques can be used to demonstrate celiac art

83 Furthermore, sensitive imaging techniques can be used to detect the presence of

84 Even though the X-ray phase and dark-field imaging techniques can provide substantially increased c

85 Furthermore, imaging techniques can serve as a potential biomarker an

86 y-to-use VCP system, along with conventional imaging techniques, can be used to address a number of s

87 lectron microscopy (EM) and super-resolution imaging techniques, can provide the precise localization

88 vascular events, but conventional ultrasound imaging techniques cannot distinguish between intima, me

89 non-invasive, low-coherence interferometric imaging technique capable of resolving cellular-level an

90 Currently, noninvasive imaging techniques capable of detecting and monitoring r

91 Noninvasive imaging techniques capable of distinguishing these two c

92 timely recognition of disease progression by imaging techniques capable of quantifying MF.

93 assessment of atherosclerosis by noninvasive imaging technique, combining PET and CT.

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

95 emission tomography/computed tomography, and imaging techniques continue to play a crucial and increa

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

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

98 d injury using a rapid 3D confocal cartilage imaging technique coupled with standard histology.

99 Using a unique set of imaging techniques coupled with a cell line containing a

100 Fluorescence-based imaging techniques critically rely on bright and photost

101 review describes the metabolic and molecular imaging techniques currently available for clinical use

102 raphic and cardiovascular magnetic resonance imaging techniques do not adequately address the effect

103 of severity by echocardiography and advanced imaging techniques, efforts to elicit symptoms or object

104 For the first time, an imaging technique enables the evaluation of the deep cap

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

106 though computed tomography is the first-line imaging technique for all traumatic brain injury, it is

107 rther establish the key fundamentals of this imaging technique for characterizing the reactivity and

108 Accuracy of each imaging technique for classifying eyes as PE or PPE, and

109 The best imaging technique for correctly classifying pediatric ey

110 aphy ((68)Ga-DOTATATE PET/CT) is a sensitive imaging technique for detection of NETs.

111 copy (FPM) is a novel computational coherent imaging technique for high space-bandwidth product imagi

112 In this regard, we are presenting a new imaging technique for lifetime monitoring of Drosophila

113 Oxygen-enhanced MRI (OE-MRI) is an emerging imaging technique for quantifying the spatial distributi

114 etter than US, which is the most widely used imaging technique for screening patients with a suspicio

115 ride (18F-NaF) PET/CT imaging is a promising imaging technique for the assessment of atherosclerosis

116 tion microscopy (PLM), a pointillist optical imaging technique for the detection of nanoscale membran

117 d chemically) specific, rapid, and versatile imaging technique for understanding and hence controllin

118 Conventional vascular imaging techniques for analysis of intracranial vascular

119 Imaging techniques for detection of molecular and cellul

120 I and fluorodeoxyglucose PET are established imaging techniques for diagnosis of Alzheimer's disease.

121 Yet, in vivo imaging techniques for measuring glutamate across the co

122 ions of these new functional and targeted LN imaging techniques for prostate cancer are discussed.

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

124 jor histocompatibility multimers, along with imaging techniques for static multiparameter analysis or

125 rm with the potential to complement existing imaging techniques for the management of cancer, includi

126 uantitative T2-based magnetic resonance (MR) imaging technique, for the detection and grading of pros

127 in the last years using the crossed-beam ion imaging technique, from charge transfer and proton trans

128 scale remains a challenge using conventional imaging techniques given their limitations in chemical s

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

130 d development in fluorescence microscopy and imaging techniques has greatly benefited our understandi

131 h biochemical failure after therapy, current imaging techniques have a low detection rate at the pros

132 Modern advanced imaging techniques have allowed increasingly more rigoro

133 Single-molecule manipulation and imaging techniques have become important elements of the

134 In recent years, these imaging techniques have been increasingly tailored for c

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

136 dvances in invasive and noninvasive coronary imaging techniques have empowered the clinician to ident

137 X-ray-based 3D-imaging techniques have gained fundamental significance

138 ution of available noninvasive recording and imaging techniques have hindered so far the acquisition

139 Imaging techniques have identified the presence of bursi

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

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

142 These quantitative MR imaging techniques help assess collagen content and orie

143 As a revolutionary three-dimensional imaging technique, holography has attracted wide attenti

144 troduce a novel macrophage-specific arterial imaging technique in HIV.

145 n these scales due to a lack of quantitative imaging technique in live cells.

146 We introduce a fast MR spectroscopic imaging technique in the frequency domain, termed phase-

147 rical uses of nano-/microscale materials and imaging techniques in arts and sciences are presented.

148 has not been validated by using quantitative imaging techniques in asthmatic patients.

149 cus on the role of 3 widely used noninvasive imaging techniques in CHD-echocardiography, cardiac magn

150 or segment is not possible with conventional imaging techniques in eyes with corneal opacification.

151 oandin vivoelectrophysiological, and optical imaging techniques in genetically manipulated mice to ex

152 were not revealed previously by conventional imaging techniques in humans.

153 Using imaging techniques in live mice, we captured the lifetim

154 y-computed tomography (PET-CT) are important imaging techniques in multiple myeloma (MM).

155 shown to be more sensitive than conventional imaging techniques in patients with prostate cancer.

156 The choice of imaging techniques in patients with suspected coronary a

157 y been successful applications of connectome imaging techniques in reconstructing challenging brain p

158 possibility of combining together different imaging techniques in the same nanoplatform and simultan

159 The MR imaging technique included 1-mm heavily T2-weighted [TR

160 Using sensitive imaging techniques including magnetic resonance imaging

161 In vivo imaging techniques including magnetic resonance imaging,

162 TNT formation by macrophages using multiple imaging techniques including super-resolution microscopy

163 label-free; however, when using any optical imaging technique, including SRS, there is an additional

164 ta and results of (18)F-FDG PET/CT and other imaging techniques, including echocardiography, were col

165 We used various imaging techniques, including laser scanning confocal mi

166 r centers for oncology trials using advanced imaging techniques, including PET.

167 A novel imaging technique introduced here by Kim et al. (2016) i

168 The choice of an optimal imaging technique is necessary to locate the site of CSF

169 The two imaging techniques led to consistent and complementary d

170 ith MRI in the acute setting, this molecular imaging technique may be better positioned as an early b

171 This imaging technique may deepen our structural understandin

172 microscopy (RCM), a cellular-level, in vivo imaging technique, may be potentially used for monitorin

173 Among imaging techniques, MRI has great potential to enable ma

174 and wide field-of-view, digital holographic imaging techniques need to tackle two major challenges:

175 by this process with the fluorescence-based imaging technique of structured illumination microscopy

176 zed by using the recently developed low-dose imaging technique of transmission electron microscopy (T

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

178 Advanced structural and molecular imaging techniques offer the potential to identify disru

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

180 Invasive and noninvasive imaging techniques, often used in combination, have made

181 ite the development and application of novel imaging techniques operating at the micrometer and even

182 here are numerous advantages of CBCT over 2D imaging techniques (OPG).

183 l function demands rapid and high-resolution imaging techniques over a large field of view, which can

184 Echocardiography is the quintessential imaging technique owing to its unique ability to provide

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

186 Modern imaging techniques, particularly functional imaging tech

187 ve, simple to perform, modified abdominal CT imaging technique permitting reasonably accurate evaluat

188 Multimodality imaging techniques play an integral role in determining

189 t study, we report the use of a non-invasive imaging technique, positron emission tomography, in mice

190 hown to be an effective tissue profiling and imaging technique, producing robust and reliable qualita

191 Our imaging techniques provide a framework to study RSA in d

192 netic resonance (EPR)-based spectroscopy and imaging techniques provide analytical tools for quantita

193 X-ray phase and dark-field imaging techniques provide complementary and inaccessibl

194 Noninvasive skin imaging techniques provide complementary information to

195 Cardiac PET is a versatile imaging technique providing important diagnostic informa

196 basis for in vivo fluorescence-based hypoxia-imaging techniques, providing a tool for investigators t

197 Nearly all superresolution imaging techniques reported to date rely on real energy

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

199 Chemical-biology- and live cell-imaging techniques revealed that catalytically active PK

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

201 A new imaging technique sheds light on how cilia regulate thei

202 Increasingly sensitive multimodal imaging techniques should endeavor to transform these gr

203 tomatic PAVM, as diagnosed with non-invasive imaging techniques, should not be evaluated with DSA due

204 Both imaging techniques showed tuning of the perisylvian cort

205 zeolite catalysts by ptychography and other imaging techniques, showing pronounced amorphization of

206 relations have escaped direct observation by imaging techniques so far.

207 Novel imaging techniques such as functional MR imaging by usin

208 can be explained by the relative novelty of imaging techniques such as interferometric photo-activat

209 Using advanced imaging techniques such as peak force tapping (PFT), nan

210 he associated molecular changes, noninvasive imaging techniques such as PET and SPECT have been explo

211 component of nuclear medicine; this includes imaging techniques such as positron emission tomography

212 Sensitive imaging techniques, such as global strain, and biomarker

213 New diagnostic and therapeutic imaging techniques, such as high-intensity focused ultra

214 The amount of data produced by spectral imaging techniques, such as mass spectrometry imaging, i

215 delling is a key component of modern seismic imaging techniques, such as reverse-time migration and f

216 Noninvasive molecular imaging techniques, such as SPECT and PET, provide infor

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

218 ped a new isotropic 1-mum resolution optical imaging technique termed micro-optical coherence tomogra

219 Here we developed an imaging technique that allowed us to simultaneously moni

220 coherence tomography angiography is a novel imaging technique that allows dyeless in vivo visualizat

221 nsor for photoacoustics (CaSPA), a versatile imaging technique that allows for fast volumetric mappin

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

223 cle imaging (MPI) is a promising tomographic imaging technique that allows visualizing the 3D nanopar

224 Fluorescence-guided surgery is an emerging imaging technique that can enhance the ability of surgeo

225 Thus, a preclinical imaging technique that can readily differentiate between

226 (OCT) is a noninvasive, label-free, optical imaging technique that can visualize live cells and tiss

227 y (OCTA) is a recently developed noninvasive imaging technique that can visualize the retinal and cho

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

229 ishell diffusion-weighted magnetic resonance imaging technique that distinguishes white matter fiber

230 Computed tomography is a widely used medical imaging technique that has high spatial and temporal res

231 Cone-beam computed tomography (CBCT) is an imaging technique that provides computed tomographic (CT

232 Raman histology (SRH) is a novel label-free imaging technique that provides intraoperative histologi

233 microscopy (SICM) is a super-resolution live imaging technique that uses a glass nanopipette as an im

234 otometric stereo is a three dimensional (3D) imaging technique that uses multiple 2D images, obtained

235 are deeply encased in the calcified matrix, imaging techniques that are applicable to soft tissues a

236 es now aim to identify molecular markers and imaging techniques that can detect patients with HCC at

237 unction, it is critical to develop live-cell imaging techniques that can probe the real-time temporal

238 imaging techniques, particularly functional imaging techniques that interrogate some specific aspect

239 Brain imaging techniques that use vascular signals to map chan

240 Utilizing advanced vibrational imaging technique, that is, stimulated Raman scattering

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

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

243 ptures a common property of many microscopic imaging techniques: the intensities from superposed nucl

244 Despite various sophisticated imaging techniques, there are numerous pitfalls in liver

245 ation of DESI-MS into a universal label-free imaging technique thus requires access to MS profiles ch

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

247 al considerations in implementing the CRISPR imaging technique to achieve sufficient signal-to-backgr

248 ls including research design and sonographic imaging technique to detect catheter malposition and pro

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

250 n on non-invasive imaging and most used some imaging technique to exclude patients with a large area

251 sent study, we used a novel diffusion tensor imaging technique to obtain high resolution (1mm isotrop

252 present a novel marker-based 3D stereoscopic imaging technique to reconstruct 3D motion of servo-cont

253 er range as a high-resolution and label-free imaging technique to reveal structural details of stem c

254 approach represents a powerful, non-invasive imaging technique to study bacterial metabolism in situ

255 a plasmonic-based electrochemical impedance imaging technique to study transient electrical activiti

256 (99m)Tc-CXCL8 SPECT provides a novel imaging technique to target neutrophil recruitment to th

257 rs review positron emission tomography-based imaging techniques to characterize the vessel wall in vi

258 ombus stability in vitro, and describe novel imaging techniques to characterize thrombosis in vivo.

259 Advances in non-invasive imaging techniques to diagnose and monitor nerve injury

260 Here, we apply biochemical, biophysical, and imaging techniques to elucidate the role(s) played by th

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

262 s, molecular biology, rheology, and advanced imaging techniques to examine soybean (Glycine max) root

263 This vascular signal is used by functional imaging techniques to infer the location and strength of

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

265 Using confocal microscope imaging techniques to obtain detailed 3D structures of o

266 asively by quantitative autofluorescence, an imaging technique used clinically, in as little as 3 mon

267 labeling (ASL) is a magnetic resonance (MR) imaging technique used to assess cerebral blood flow non

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

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

270 Due to the limitations of current imaging techniques, visualization of lymphatic capillari

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

272 A noninvasive imaging technique was evaluated that estimates both endo

273 The Dixon magnetic resonance imaging technique was used to quantify fat and calculate

274 micromanipulations, real-time and time-point imaging techniques, we demonstrated that RAW macrophages

275 With the fast advance of connectome imaging techniques, we have the opportunity of mapping t

276 With advances in anatomic and functional imaging techniques, we now have tools for assessing pati

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

278 Using live-cell imaging techniques, we reveal that, a fine ER distributi

279 Using advanced imaging techniques, we show that cardiovascular and endo

280 tion of molecular, electrophysiological, and imaging techniques, we show that the RhoGEF Kalirin and

281 Using brain imaging techniques, we sought to determine whether anato

282 Two complementary imaging techniques were used with human participants (bo

283 contrast tomography is a recently developed imaging technique which enables three-dimensional visual

284 ase contrast imaging (XPCI) is an innovative imaging technique which extends the contrast capabilitie

285 CBCT is a new emerging imaging technique which uses a cone-shaped radiation bea

286 RCM is a microscopic imaging technique, which enables the users to rapidly ex

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

288 nsuming process, and mass spectrometric (MS) imaging techniques, which show great potential for singl

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

290 h atom probe tomography (APT), a 3D chemical imaging technique with Angstrom-level spatial resolution

291 ectroscopic (PWS) microscopy, a quantitative imaging technique with sensitivity to macromolecular org

292 mass spectrometry (ToF-SIMS), a 2D chemical imaging technique with submicron resolution.

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

294 The validity of QSM as a suitable in vivo imaging technique with which to monitor iron dysregulati

295 Here we combine superresolution imaging techniques with a protein engineering approach t

296 y diagnosis through the use of sophisticated imaging techniques with bone serum biomarkers are also d

297 By combining these imaging techniques with new clinical measures, which ref

298 -related muscle injuries, including advanced imaging techniques, with the focus on the clinical relev

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

300 mixtures via a convenient, CCD camera-based imaging technique without any pretreatment or phase sepa