ライフサイエンスコーパス: X-ray image

1 f the sample in addition to the conventional X-ray image.

2 Bragg peak positions in the two-dimensional X-ray images.

3 e million times better than the current best X-ray images.

4 rucial for automating the analysis of spinal X-ray images.

5 dels used for identifying anomalies in chest X-ray images.

6 by generating free-text findings from chest X-ray images.

7 pertise to diagnose oral infections based on X-ray images.

8 classify COVID-19 lung infection from chest X-ray images.

9 gnosis purposes, including interpretation of X-ray images.

10 hereby improving their separability in chest X-ray images.

11 on a dataset consisting of more than 30,000 X-ray images.

12 uracy and precision of TB detection in chest X-ray images.

13 bodies in lateral cervical and lumbar spinal X-ray images.

14 dict the Overall Sharp Score (OSS) from hand X-ray images.

15 nges, we first collect large-scale dog heart X-ray images.

16 thickness was quantified by analysis of the X-ray images.

17 ower stalk was analyzed by energy dispersive x-ray imaging.

18 ite-based photovoltaics, optoelectronics and X-ray imaging.

19 al body segmentation and labeling for spinal X-ray imaging.

20 vivo depot visualization and migration using X-ray imaging.

21 ce from the actuation module under real-time x-ray imaging.

22 n or animal organs, laboratory operation and X-ray imaging.

23 an only be captured using costly synchrotron X-ray imaging.

24 l characterization, electron microscopy, and X-ray imaging.

25 ed by the 3D techniques of synchrotron-based X-ray imaging.

26 or of the dark-field signal in speckle-based X-ray imaging.

27 preparation for ultrastructural analysis in X-ray imaging.

28 t tissue ultrastructure remains intact after X-ray imaging.

29 ed acoustic waves for three-dimensional (3D) x-ray imaging.

30 s was recorded in real time using high-speed X-ray imaging.

31 dynamic connectivity," using fast pore-scale X-ray imaging.

32 d as a valuable capability of phase contrast x-ray imaging.

33 ions inside living beetles using synchrotron x-ray imaging.

34 enous injection relative to absorption-based x-ray imaging.

35 developed technique of ultrafast synchrotron X-ray imaging.

36 ed theory for absorption- and phase-contrast X-ray imaging.

37 readily detectable by magnetic resonance and X-ray imaging 3 weeks after infection, and high levels o

38 Furthermore, we showcase quantum shells for X-ray imaging achieving a spatial resolution as high as

39 y accurate data labeling enabled by operando x-ray imaging allowed us to demonstrate a facile and pra

40 Multi-modal X-ray imaging allows the extraction of phase and dark-fi

41 eraging publicly available datasets of chest X-ray images and the corresponding radiology reports, we

42 in a lamella of FeGe using resonant magnetic x-ray imaging and comparative micromagnetic simulations,

43 ng speeds via in situ synchrotron high-speed X-ray imaging and computational fluid dynamics simulatio

44 We employ the high-speed synchrotron hard X-ray imaging and diffraction techniques to monitor the

45 In situ dynamic X-ray imaging and digital volume correlation analysis of

46 the development of key imaging instruments: x-ray imaging and emission tomography (nuclear imaging a

47 ect detection mechanisms for applications in X-ray imaging and gamma-ray energy spectroscopy.

48 We leverage ultrahigh-speed synchrotron X-ray imaging and high-fidelity multiphysics modeling to

49 Assessment included bead distribution at x-ray imaging and histologic examination, tumor viabilit

50 highly transparent glass enables performant X-ray imaging and low-loss waveguiding in fibers drawn a

51 volution mechanisms during DED using in situ X-ray imaging and multi-physics modelling.

52 r powder bed fusion conditions using in situ X-ray imaging and multi-physics simulations.

53 Internal validation included lung X-ray imaging and phenotypical characterization of BPD s

54 merging applications such as in infrared and x-ray imaging and quantum and matter-wave interferometry

55 ion of full-field three-dimensional coherent x-ray imaging and scanning x-ray diffraction.

56 us catalysts, often requires high-resolution X-ray imaging and scattering.

57 Using X-ray imaging and spectroscopic measurements that levera

58 Recent major advances in x-ray imaging and spectroscopy of clusters have allowed

59 Leveraging advanced x-ray imaging and spectroscopy techniques, we analyzed L

60 ECS in different wastewaters using advanced X-ray imaging and spectroscopy.

61 With simultaneous high-speed synchrotron x-ray imaging and thermal imaging, coupled with multiphy

62 We used phase-contrast synchrotron X-ray imaging and transmission light microscopy to direc

63 ed to detect COVID-19 infection in the chest X-ray images, and Epistocracy algorithm can be effective

64 maging approaches (X-ray fluorescence (XRF), X-ray imaging, and CT scans) were used to assess the res

65 sessed using histology, diffraction-enhanced x-ray imaging, and texture analysis.

66 rement for high energy (> 40 keV) large-area X-ray imaging applications due to inadequate cost, manuf

67 electric fields needed for high sensitivity X-ray imaging applications.

68 ddress this issue, we present an alternative X-ray imaging approach to produce transmission, phase an

69 ions of more advanced--and more challenging--X-ray imaging approaches, such as X-ray multimodal tomog

70 X-ray images are viewed as a vital component in emergenc

71 A variety of techniques in X-ray imaging are currently being developed that may pro

72 wing (JSN) from low-resolution images (i.e., X-ray images) are mostly subjective.

73 during scanning (in the case of synchrotron X-ray imaging) are mitigated by multiple degassing steps

74 e signal is, nevertheless, of great value in X-ray imaging as it is complementary to the absorption i

75 verse and visually plausible synthetic chest X-ray images (as confirmed by board-certified radiologis

76 ectron microscopy, light microscopy, medical X-ray imaging, astronomy, etc.

77 ture hydrodynamics), our study utilized muCT X-ray imaging at 3.3 mum spatial resolution to estimate

78 We further demonstrate high-definition x-ray imaging at a dose rate below 10 nGy(air) s(-1) on

79 -1) for 40-keV x-ray and can conduct dynamic x-ray imaging at a low-dose rate of 32.2 nGy(air) s(-1).

80 led parts of each cartridge were analyzed by X-ray imaging, before dissembling so that the materials

81 X-ray imaging, both conventional and interferometry, was

82 jor step toward making correlative cryogenic X-ray imaging broadly accessible in laboratory settings.

83 study aims to enhance TB detection in chest X-ray images by developing deep learning models.

84 ts show that both commercial and synchrotron X-ray imaging can be successfully applied to leaf venati

85 Scattered light and X-ray imaging can provide quantitative micrometer 3D fib

86 Furthermore, PSCs exhibit high X-ray imaging capability thanks to its negligible signal

87 applying widely-used XAI methods on COVID-19 X-ray imaging classification tasks, as well as a thoroug

88 Time-resolved nanoscale magnetic X-ray imaging combined with micromagnetic simulation sho

89 delivery was developed that is visible using x-ray imaging (computed tomography (CT), cone beam CT, f

90 Using 2500 chest X-ray images consisting of 1250 COVID-19 and 1250 non-CO

91 produced at LCLS take place at the Coherent X-ray Imaging (CXI) instrument, which can produce spotsi

92 s was evaluated with clinical data and chest X-ray image data.

93 velops an effective algorithm for high-speed X-ray imaging data to identify melt pool geometries accu

94 ctures and two well-known publicly available X-ray image datasets used to diagnose various thoracic d

95 contrast channels provided by multi-contrast X-ray imaging delivers additional information, also when

96 the histologic findings with the findings on x-ray images demonstrated that the lucencies seen by usi

97 However, interpretation of chest X-ray images depends on the radiologist's competency.

98 The method employs a spectroscopic X-ray imaging detector with sufficient energy resolution

99 ne (excluding the laser) is dominated by the x-ray imaging distances rather than the electron acceler

100 further demonstrated that synchrotron-based X-ray imaging enabled uncovering finer details of the va

101 High-speed x-ray imaging enables operando observation of the detail

102 Respiratory X-ray imaging enhanced by phase contrast has shown impro

103 , we demonstrate that a combination of basic X-ray imaging equipment, a tailored marker-based image a

104 n, and visual assessment of lung diseases on X-ray images estimated by radiologists and clinicians.

105 -situ high-speed high-resolution synchrotron x-ray imaging experiments and multi-physics modeling, we

106 uasicrystals, we performed synchrotron-based X-ray imaging experiments on a decagonal phase with comp

107 ents leading to good interpretation of chest X-ray images for pneumonia detection, especially for dis

108 ed as a superior alternative to conventional X-ray imaging for diagnosing many pathologic conditions.

109 The utilization of X-ray imaging for pneumonia detection offers several adv

110 ng pipeline for the standardization of chest X-ray images, for the visualization of lesions and for d

111 Cross-sectional X-ray imaging has become the standard for staging most s

112 X-ray imaging has been boosted by the introduction of ph

113 maging, combining thermal/cold neutrons with X-ray imaging has been developed at many neutron facilit

114 X-ray imaging has been effectively used to examine the m

115 Synchrotron X-ray imaging has been successfully used to visualize mi

116 High energy X-ray imaging has unique advantage over conventional X-r

117 s have played a major role in nanoscale soft X-ray imaging, high-resolution and high-efficiency diffr

118 e advanced sensing technologies: synchrotron X-ray imaging, high-speed IR camera, and high-spatial-re

119 ansfer learning schema of processing of lung X-ray images, including augmentation, in order to detect

120 Medical radiography (lab-based polychromatic X-ray imaging instruments routinely used in hospitals an

121 adapts to all those situations in which the X-ray image is obtained by scanning a sample through the

122 Hard X-ray imaging is an excellent tool for this purpose, as

123 Large-area X-ray imaging is one of the most widely used imaging mod

124 In clinical practice, X-ray imaging is still an important examination performe

125 When applied to x-ray imaging, it enables a polychromatic far-field inte

126 ated in a separate experiment, and abdominal X-ray imaging localized most capsule stimulations to the

127 s are the current limitations of ultrasound, x-ray imaging, magnetic resonance imaging (MRI), single-

128 The prospects of molecular imaging by x-ray imaging may not be as bleak as has been predicted.

129 tory testing, electrocardiography, and plain x-ray imaging may often suffice for such patients, but g

130 ging method has advantages compared to other X-ray imaging methods in simplicity of experimental arra

131 ability of synchrotron-based nanotomographic X-ray imaging methods, namely holotomography and transmi

132 The model was trained using 147,497 x-ray images of 40,643 individuals and tested in three i

133 ork we use digital analysis of 3D microscale X-ray images of a range of sandstone samples to constrai

134 (NCANDA), and determining the bone age from X-ray images of children.

135 In our experiments we use high-resolution X-ray images of knees in patients which were identified

136 eveloped a user-friendly software to convert X-ray images of resin-embedded samples into angles and c

137 We present the first synchrotron-based X-ray images of rifle and shotgun wounds in biological t

138 Micro-CT and x-ray images of the AuNP-infused PPDO sutures showed sig

139 periments, as confirmed by mussel counts and x-ray images of the fishes.

140 ined high-resolution (approximately 1") deep x-ray images of the globular cluster 47Tucanae (NGC 104)

141 subsequently generate volumetric tomographic X-ray images of the patient from a single projection vie

142 ty of our nanophotonic scintillators through X-ray imaging of biological and inorganic specimens.

143 illustrate the potential of single-molecule X-ray imaging of biological assembles with helical symme

144 nert valence electrons, making time-resolved X-ray imaging of chemically active valence electron dens

145 IPAA compliance, this work involved detailed x-ray imaging of discarded tissue from two mastectomy sp

146 Using both 3D X-ray imaging of geo-architected samples and peridynamic

147 g tags (LBTs) for two- and three-dimensional X-ray imaging of individual proteins in cells with a sub

148 X-ray imaging of leaf veins is potentially rapid, of hig

149 Here, we report noninvasive X-ray imaging of renal clearable gold NPs (AuNPs) in nor

150 lts were obtained by implementing high-speed X-ray imaging of the film collapse on a heated sphere su

151 Here, in-situ high-speed X-ray imaging of the powder-blown additive manufacturing

152 o currently available techniques enables the x-ray imaging of tumors that are just a few millimeters

153 We also tested non-destructive X-ray imaging on whole Drosophila brains to evaluate con

154 adjust the correlation between masked chest X-ray image patches and their corresponding reports, the

155 Phase contrast x-ray imaging (PCXI) provides high-contrast images of we

156 urement that uses synchrotron phase contrast X-ray imaging (PCXI) to non-invasively measure the trans

157 tomatic assessment of the correctness of the X-ray image projection of AJ.

158 Synchrotron X-ray imaging provides an exciting new window into the i

159 Here we used X-ray imaging, radio-tracing of hemolymph, and micropres

160 d crystals, whereas single particle coherent X-ray imaging requires development to extend the resolut

161 X-ray imaging results of a camera constructed using this

162 Our dynamic and 3D synchrotron-based X-ray imaging results reveal the markedly different micr

163 th and without the Pt layer, corroborated by x-ray imaging, reveals reversible switching of the therm

164 Time-resolved and ultrafast hard X-ray imaging, scattering and spectroscopy are powerful

165 opy with combined backscattered electron and X-ray imaging (SEM-BEX) represents a new way to conduct

166 Whole-body X-ray imaging showed that implants were visible for up t

167 High-speed x-ray imaging shows that below the surface, the lizard n

168 Time-resolved x-ray imaging shows that the magnetization dynamics of a

169 aging has unique advantage over conventional X-ray imaging, since it enables higher penetration into

170 gmentation model was trained using 704 chest X-ray images sourced from the Montgomery County and Shen

171 Here we report X-ray imaging spectroscopy observations which reveal a f

172 we present the first in-situ phase-contrast X-ray imaging study of biomass pyrolysis.

173 Here we used a novel x-ray imaging system to spatially map the responses of h

174 discuss the application of a newly developed x-ray imaging technique called Spatial Frequency Heterod

175 Computed tomography is a well-established x-ray imaging technique to reconstruct the three-dimensi

176 A high-speed synchrotron X-ray imaging technique was used to investigate the bind

177 ation, using a time-resolved pump-probe soft X-ray imaging technique.

178 elative approach combining three-dimensional X-ray imaging techniques at different length scales for

179 r opportunities for safer and more efficient X-ray imaging techniques in a number of scientific and p

180 By applying advanced X-ray imaging techniques in this study (using Image Qual

181 X-ray imaging techniques that capture variations in the

182 ple environment is required state-of-the-art X-ray imaging techniques, such as scanning and full-fiel

183 remains a significant challenge with current X-ray imaging techniques.

184 on of materials using three-dimensional (3D) X-ray imaging techniques.

185 ble results in comparison to the more common X-ray imaging techniques.

186 ctron microscopy (TEM) and synchrotron-based X-ray imaging techniques.

187 X-ray imaging tests show that scintillators based on (C(

188 can accurately assess the percentage of the x-ray image that is "dense," but this does not accuratel

189 hat a self-supervised model trained on chest X-ray images that lack explicit annotations performs pat

190 e show with scanning electron microscopy and X-ray imaging that distance effects on gas exchange are

191 set comprising a diverse collection of chest X-ray images, that included both positive and negative c

192 In the x-ray image, the tip of the papilla was marked with a ra

193 On the dataset of X-ray images, the performance of the model is comparable

194 context and spatial relationships from chest X-ray images, the proposed framework deploys the ViT mod

195 o 17.7 mm), and infarct registered with live x-ray images to facilitate device navigation and choice

196 heir way into scientific fields ranging from X-ray imaging to astronomy.

197 We used optical and X-ray imaging to capture xylem embolism propagation acro

198 We have used single and multi-bunch, X-ray imaging to differentiate distinct phases of failur

199 and post-cycling Bragg coherent diffraction X-ray imaging to directly reveal three-dimensional intra

200 We use high-speed synchrotron X-ray imaging to observe and analyze the motion of the h

201 We used ultrahigh-speed synchrotron x-ray imaging to quantify the phenomenon of vapor depres

202 We use high-resolution X-ray imaging to study the flow of oil, water and CO(2)

203 Hence, ultrafast electron and x-ray imaging tools have been developed to image the ult

204 aracteristic inflammatory changes present on X-ray imaging typical for the most commonly diagnosed rh

205 he composite's microstructure captured by 3D X-ray imaging using a nano-computed tomographic scanner.

206 the nature of the pigments, we also use with X-ray images, visible near-infrared hyperspectral imagin

207 itoring (sound) with contemporaneous in-situ x-ray imaging (vision) of the microstructure.

208 ombination as measured by bioluminescent and X-ray imaging was significantly greater than single agen

209 Using X-ray images we showed that individuals decreased the si

210 Using synchrotron X-ray imaging we reveal keyhole and bubble behaviour, qu

211 dy biases, as well as more than 95,000 chest X-ray images, we show that Swarm Learning classifiers ou

212 peed videography, embedded force sensing and X-ray imaging, we capture the detailed dynamics of this

213 Using high-speed x-ray imaging, we demonstrate that the flow vortex-induc

214 Using high-resolution three-dimensional X-ray imaging, we visualized the in situ evolution of CO

215 e normal chest X-rays, and the remaining 700 X-ray images were of tuberculosis patients.

216 Chest-X-ray images were processed using CAD4TB v7, a computer-

217 The X-ray images were synchronized with a second high-speed

218 previous "semi-automated" techniques, where X-ray images were used as the network input, in this wor

219 X-ray images were used to grade the severity of knee ost

220 For the study, an open-source X-ray images were used.

221 he protocol enhances the contrast when using X-ray imaging, while preventing sample motion during the

222 arned automatically, given a training set of X-ray images with affected lung regions labeled.

223 By combining phase contrast X-ray imaging with an image reconstruction method known

224 own in water demonstrate great potential for X-ray imaging with enhanced performance metrics.

225 ultrahigh spatial resolution high frame rate X-ray imaging with numerous applications.

226 ese properties translate to high-performance X-ray imaging with sensitivity up to 173 muC Gy(air) (-1

227 s paper demonstrates high spatial resolution X-ray imaging with solution-processable two-dimensional

228 gy on the dark-field signal in speckle-based X-ray imaging with wave-optics simulations for ensembles

229 laboratories were experimenting with simple x-ray images within the first year of the discovery of s