ライフサイエンスコーパス: photograph

1 ndardized ETDRS severity scale (using fundus photographs).

2 that are discernible on a smartphone camera photograph.

3 We validated our findings using online photographs.

4 ence of advanced AMD based on retinal fundus photographs.

5 Incident AMD was graded on fundus photographs.

6 in episodic free recall of previously viewed photographs.

7 either eye based on stereoscopic optic nerve photographs.

8 glaucomatous structural damage on optic disc photographs.

9 liminate the need for human gradings of disc photographs.

10 and sector values when evaluating optic disc photographs.

11 les, and blinded scoring of before and after photographs.

12 ed upon slit-lamp examination and on corneal photographs.

13 automatically identify ear deformity from 2D photographs.

14 rea of HEs in the digital colour fundus (CF) photographs.

15 zation with gradable DRSS on baseline fundus photographs.

16 r across viewing of dynamic videos and still photographs.

17 r extracting penguin information from aerial photographs.

18 hemotherapy by unblinded patient review of 5 photographs.

19 te of change in area of GA measured on color photographs.

20 validation compared with validation on test photographs.

21 d compared with the clinical and macroscopic photographs.

22 earch Institute, Singapore) from the retinal photographs.

23 m in-person dental examinations or intraoral photographs.

24 rson examination and those based on parental photographs.

25 pants annually using stereoscopic optic disc photographs.

26 ) underwent 5- and 10-year follow-up retinal photographs.

27 ticipants, 9978 (99.5%) had gradable retinal photographs.

28 ening examinations, including 7-field fundus photographs.

29 retinopathy was graded using standard fundus photographs.

30 these entities were registered to UWF color photographs.

31 ssessed optic disc progression in optic disc photographs.

32 f the features of retinal vessels in retinal photographs.

33 ) capable of producing FA images from fundus photographs.

34 ss of human faces in complete and incomplete photographs.

35 ion was diagnosed and graded based on fundus photographs.

36 nges during ophthalmoscopy or through fundus photographs.

37 e assessed by clinicians, patients, and from photographs.

38 color non- simultaneous stereoscopic fundus photographs.

39 Treatment Diabetic Retinopathy Study (ETDRS) photographs.

40 n the remaining (held-out) 15% of the fundus photographs.

41 AMD was diagnosed by grading of fundus photographs.

42 nopathy (NPDR) to PDR based on graded fundus photographs, (2) panretinal photocoagulation (PRP), or (

43 of stromal infiltrates measured on slit-lamp photographs 30 days after treatment.

44 articipants (N = 12,447) provided their face photographs (31,367 images) and completed a self-report

45 he effect that can occur when using a CCD to photograph a bright light source.

46 Research assistants photographed abnormalities after maternal consent was ob

47 Aerial photographs allowed detection of dramatic geomorphic cha

48 neration features from SD OCT, IR, and color photographs also were assessed and AMD severity was cate

49 Severity performs better in person than with photographs, an important consideration in the design of

50 Two posterior fundus photographs and 1 anterior segment photograph were captu

51 Growth rate of GA was 1.45 mm(2) from color photographs and 1.43 mm(2) from FAF images.

52 n was assessed by 2 observers using 5 fundus photographs and 5 FoDi analyses each.

53 r of the macula was involved in 51% of color photographs and 56% with FAF images.

54 y estimates using >270,000 community-science photographs and a novel presence-only phenometric estima

55 Facial photographs and body odor samples were taken from the sa

56 conditions using 16,114 de-identified cases (photographs and clinical data) from a teledermatology pr

57 rained and validated using 85% of the fundus photographs and further retested (validated) on the rema

58 ework-level approach that inputs shape image photographs and genetic and environmental data, and then

59 turbed to clinically evaluate healing (using photographs and Healing Score Index) on Days 1, 5, 14, a

60 Then, color fundus photographs and Humphrey Visual Field tests (HVF) of the

61 Based on the analysis of fundus photographs and HVF tests, 25% of these were misdiagnose

62 rule is only valid for about a third of disc photographs and less than half of RNFL measurements in n

63 gy, emergency medicine, and physiatry, using photographs and live patient assessments.

64 Photographs and measurements of a 30-m accumulation stak

65 ma suspect) of 99 patients with stereoscopic photographs and OCT scans of the optic discs taken durin

66 for Macular Research, was assessed by fundus photographs and optical coherence tomographic images of

67 the stenotic lacrimal punctum with infrared photographs and optical coherence tomography (OCT) and t

68 responding species using a dataset of 10,000 photographs and phylogenetic regression analysis.

69 ral network was trained to assess optic disc photographs and predict SD OCT average RNFL thickness.

70 roduced a novel DL approach to assess fundus photographs and provide quantitative information about t

71 sitivity, and satisfaction outcomes, digital photographs and radiographs, and changes in probing dept

72 EEG experiment, participants viewed 100 face photographs and rated them for their attractiveness.

73 940s, assessed using newly discovered aerial photographs and remotely sensed imagery.

74 retrospectively reviewed simultaneous fundus photographs and SD OCT and fundus autofluorescence (FAF)

75 t sample consisted of 33 466 pairs of fundus photographs and SD OCT images collected during 7125 visi

76 A total of 9282 pairs of optic disc photographs and SDOCT optic nerve head scans from 927 ey

77 Clinical photographs and specialist reports were gathered.

78 uding color, red-free autofluorescent fundus photographs and spectral-domain optical coherence tomogr

79 neural network was trained to assess fundus photographs and to predict SD OCT global RNFL thickness

80 Here we combine historical data with aerial photographs and tree-ring records to reconstruct the evo

81 Fundus photographs and visual fields were carefully examined by

82 or other covariates or had ungradable fundus photographs and were excluded, leaving 9481 participants

83 dy with mean follow-up of 64 months, 20 disc photographs, and 16 VF tests.

84 to detect the presence of GA in color fundus photographs, and 2 additional models were developed to d

85 Clinical course, slit lamp photographs, and AS OCT findings were the main outcomes.

86 Visual fields, stereoscopic disc photographs, and details of the ophthalmic examination w

87 nal journals, scientific articles, logbooks, photographs, and maps with climate data to show that the

88 The clinical examinations, fundus photographs, and OCT images of all patients with CXLRS w

89 Clinical records, fundus photographs, and OCT imaging for patients with CLN2 dise

90 of PG on the basis of clinical descriptions, photographs, and pathology.

91 measured every 6 months from standard fundus photographs, and refractive error was measured annually

92 Best-corrected visual acuity, fundus photographs, and spectral-domain optical coherence tomog

93 ve been trained to recognize speech, caption photographs, and translate text between languages at hig

94 Facial photographs annotated with automated measurements of eye

95 Porcine experiments were analyzed with gross photographs, anterior segment optical computed tomograph

96 al media and everything in between, doctored photographs are appearing with growing frequency and sop

97 raphs-participants judge faces in incomplete photographs as physically more attractive.

98 set of 20 live patient scars with associated photographs, as well as a separate set of 60 photographs

99 e AngioVue system and standard 7-field color photographs at baseline and at a 1-year follow-up visit.

100 Concordance between photograph-based vs in-person diagnosis in the intervent

101 6 [5.23] years), overall concordance between photograph-based vs in-person diagnosis was 83% (95% CI,

102 Each maxillary anterior area was photographed before and 3 months after treatment.

103 pitalize upon the immense number of wildlife photographs being taken daily as part of the global > 30

104 ndrome identification on the basis of facial photographs, but these technologies harbor potential bey

105 ttings: one that utilized scoring of 60 test photographs by 10 dermatologists, and one with in-person

106 sis, determined from the diagnosis of fundus photographs by 3 experienced readers in combination with

107 MD (AREDS stage 3) was determined from these photographs by graders at a centralized Reading Center,

108 ving IRH was determined from baseline fundus photographs by human graders and confirmed with multimod

109 tinal degeneration observed in OCT or fundus photographs; by using the fellow eye as a control, this

110 combination of questions and representative photographs can ascertain cases of CLE with high sensiti

111 thout adequate information of the quality of photographs can compromise data accuracy.

112 iscopy technique that requires only a single photograph captured with an ordinary digital camera.

113 been developed for classifying color fundus photographs (CFP) of individual eyes by AREDS severity s

114 ysis: A comparative analysis of color fundus photographs (CFPs), OCT, and FAF was performed for perip

115 All eyes were imaged with UWF color fundus photographs (CFPs), UWF FA, and SS-WF OCTA at baseline (

116 0.88) in a subgroup of 37 participants with photographs considered of high enough quality to make a

117 e visible on a 35,300-km(2) mosaic of aerial photographs covering much of contemporary Indigenous Mar

118 the presence and size of GA in digital color photographs (CPs) and fluorescein angiograms (FAs) taken

119 By using 66 721 fundus photographs, deep learning models were trained and valid

120 sive eye examination in which dilated fundus photographs (disc and macula centered) were obtained and

121 e quality demonstrated new-onset GA on color photographs during study years 2 through 7.

122 Based on 4 standardized clinical photographs (en face with eyes open, right and left side

123 t Diabetic Retinopathy Study (ETDRS) 7-field photographs (ETDRS photos).

124 are especially focussed on encountering and photographing fauna and flora, yet the data collected in

125 Retinal specialists evaluated color fundus photographs fluorescein and indocyanine green angiograph

126 center staff evaluated digital color fundus photographs, fluorescein angiography (FA) images, and op

127 procedure, ranibizumab, bevacizumab, fundus photographs, fluorescein angiography, and optical cohere

128 Data gathering included fundus color photographs, fluorescein angiography, spectral-domain op

129 variant rules, with 70.9% and 76.4% of disc photographs following the IST rule and the IS rule, resp

130 ects, 2877 (28.7%) had diabetes and gradable photographs for analysis.

131 nd (2) ophthalmologist grading of optic disc photographs for characteristic features of glaucoma.

132 Trained readers evaluated photographs for the presence and size of retinal or subr

133 A total of 3042 photographs from 281 participants randomized to apply to

134 A total of 66 721 fundus photographs from 3272 eyes of 1636 subjects who particip

135 gitudinally captured SD OCT images and color photographs from 488 eyes of 488 participants with inter

136 ng [BOP], and clinical attachment level) and photographs from 53 participants (26 males and 27 female

137 Fundus photographs from 7 Early Treatment Diabetic Retinopathy

138 artificial intelligence, using color fundus photographs from AREDS/AREDS2 was superior in some cases

139 We used retinal photographs from the DCCT/EDIC study to develop a ration

140 After viewing vivid photographs from two categories (famous faces and places

141 tient were evaluated, including color fundus photographs, fundus autofluorescence images, and spectra

142 Color fundus photographs, fundus autofluorescence, and spectral-domai

143 Fundus photographs graded at baseline and years 1 and 2 using D

144 ted macular degeneration according to fundus photographs graded using a modified Wisconsin Age-Relate

145 Diabetic retinopathy was based on fundus photograph grading, using the Early Treatment Diabetic R

146 iagnoses that are reliant on parent-provided photographs has not been formally compared with diagnose

147 ms to classify glaucomatous damage on fundus photographs have been limited by the requirement for hum

148 to care much more after having seen Aylan's photograph; however, this newly created empathy waned ra

149 nd 1643 indigenous) participants had retinal photographs in at least 1 eye that were gradable for AMD

150 To assess the reliability of using photographs in lieu of live patient scar rating assessme

151 the densitometric profile of DH from fundus photographs in the Ocular Hypertension Treatment Study (

152 ctions of global BMO-MRW from all optic disc photographs in the test set (mean +/- standard deviation

153 rage RNFL thickness from all 6292 optic disc photographs in the test set was 83.3+/-14.5 mum, whereas

154 Landcover change in aerial photographs indicates that E. umbellata expanded aggress

155 Adult smokers (n=40) photographed locations personally associated with smokin

156 ng scale for postoperative linear scars, and photographs may reliably be used in lieu of live patient

157 dividuals with diabetes and gradable retinal photographs (mean age [SD], 57.0 [8.3] years, 48.2% fema

158 In the photograph: Michael Polanyi at the Fritz Haber Institute

159 ndardized, high-resolution retroillumination photographs obtained annually for the first 5 postoperat

160 For photographs obtained at the same visit, the intraclass c

161 Retinal emboli were ascertained from retinal photographs obtained from both eyes of all participants

162 ading algorithm can be used to screen fundus photographs obtained from diabetic patients and to ident

163 participants had mydriatic 45 degrees fundus photographs obtained from three fields of view with the

164 Retrospective analysis of color fundus photographs, OCT, and OCTA of 20 eyes with CHRRPE.

165 Figure 1: Photograph of both of the patient's hands shows generali

166 The SSDT was completed while looking at a photograph of one's own face, another female face, and a

167 Photographs of 12 ethnically diverse models (black, whit

168 Stereo disc photographs of 161 DH events from 83 OHTS participants (

169 e area was quantified digitally using facial photographs of 3,831 northwestern Europeans (51-98 years

170 CF photographs of 30 eyes (20 patients) with diabetic macul

171 delineated atrophic lesions on color fundus photographs of 318 eyes with GA followed up over at leas

172 We manually delineated GA on 1654 fundus photographs of 365 eyes.

173 We characterize optic nerve photographs of 67,040 UK Biobank participants and use a

174 On September 2, 2015, photographs of a young Syrian child, Aylan Kurdi, lying

175 Fundus photographs of all infants undergoing ROP screening exam

176 We showed twelve professional jazz pianists photographs of an actress representing a positive, negat

177 Phenotypical features on fundus photographs of both eyes of patients were graded by 2 in

178 Charts and fundus photographs of consecutive patients with active TB SLC s

179 MRI experiment (N = 31), neural responses to photographs of disfigured faces before treatment evoked

180 terproximal calculus deposit was scored, and photographs of each interproximal root surface were take

181 art, retinal pathology images, and external photographs of eye diseases.

182 s in a pattern consistent with how they view photographs of faces [13].

183 Photographs of international fast food, domestic Japanes

184 ll BonnMu insertions and phenotypic seedling photographs of Mu-tagged F(2)-families can be accessed v

185 (alcoholic beverages and neutral items) and photographs of neutral scenes.

186 r (AUD: N = 29) encoded associations between photographs of objects (alcoholic beverages and neutral

187 ence task [11, 12], monkeys looked longer at photographs of objects that elicited face pareidolia in

188 Photographs of patients with and without ear deformity w

189 tures were used in this study including: 457 photographs of patients with ear deformity and 214 photo

190 raphs of patients with ear deformity and 214 photographs of patients with normal ears.

191 To assess whether smartphone photographs of pediatric skin conditions taken by parent

192 d face pareidolia in human observers than at photographs of similar objects that did not elicit illus

193 Macroscopic photographs of the enucleated eyes of patients with reti

194 backed chevrotain still exists and the first photographs of the species in the wild, and urge immedia

195 at horses spontaneously discriminate between photographs of unknown conspecifics portraying different

196 The angles of all eyes were measured on RNFL photograph, of which angle alpha is the angular width be

197 o winter in West Africa; this adult male was photographed on migration near Gibraltar.

198 ere reviewed for amblyopia treatment, fundus photographs, optical coherence tomography (OCT), and vis

199 The SLG were not visible in color fundus photographs or in NIR images.

200 for GON was specialist evaluation of fundus photographs or OCT, independent of the visual field (VF)

201 Prevalence of DME based on monocular fundus photographs or OCT.

202 ures and showed strikingly different ways of photographing other people.

203 hs were examined in alternating blocks of 70 photograph pairs for each method, with the starting view

204 Twenty photograph pairs from each group were duplicated to dete

205 Our data shows that-relative to complete photographs-participants judge faces in incomplete photo

206 In the photograph: Polanyi in 1931.

207 ans and by independent evaluation of retinal photographs provided by the physicians.

208 es were highly correlated for OCT and fundus photographs (r = 0.96 and 0.82, respectively).

209 ts were used to assess the agreement between photograph reading and OCT in estimating CDR.

210 uted significantly larger VCDR and HCDR than photograph reading before and after stratifying eyes bas

211 OCT and photograph reading by clinicians agree poorly in CDR ass

212 (BMO) algorithm and stereoscopic optic disc photograph readings by glaucoma specialists.

213 Sickness status presented by odor and facial photograph resulted in increased neural activation of od

214 he ISNT rule is only valid for 37.0% of disc photograph rim assessments and 43.8% of RNFL measurement

215 d -0.83, respectively; P < 0.001) and fundus photograph scores (r = -0.80 and -0.83, respectively; P

216 o interacting actors and (2) visually varied photographs selected from the internet involving differe

217 participants take, share, and evaluate self-photographs ("selfies"), we show that, paradoxically, th

218 Fundus photographs showed large, uncorrelated differences compa

219 choosing the correct scene but the incorrect photograph) significantly predicted heavier baseline (p

220 of such gigantic jets have been recorded or photographed since, but eluded capture by high-speed vid

221 n used to dramatically alter black and white photographs since the 1960s.

222 a brief interaction or exposure to a static photograph, single persons have very little time to make

223 We use aerial photographs spanning a 51-year period to compare shrub c

224 d multimodal retinal imaging including color photographs, spectral-domain OCT, near-infrared reflecta

225 crowdsourced ratings of the "scenicness" of photographs taken across England from the online game Sc

226 Finally, geo-referenced photographs taken by citizen scientists reveal that this

227 nter's selected stimuli, which are generally photographs taken by people without autism.

228 program using image analysis of storage root photographs taken in the field.

229 e of a notch or disc hemorrhage) from fundus photographs taken with a nonmydriatic portable camera an

230 is assistance with their Bostrychus sinensis photograph that was chosen for the front cover of the Ja

231 gated by measurements obtained from multiple photographs that had been acquired during the same day.

232 t-lamp examinations, and stereoscopic fundus photographs that were centrally graded for development o

233 d particle size distribution of wheat flour, photographed the scattered flour for 60 seconds every 10

234 The phone camera then photographs the capillary tube and analyzes the color co

235 In a clinical photograph, the lowest point of the interdental contact

236 bretinal hemorrhage detected on 1- or 2-year photographs; these hemorrhages were not associated with

237 Mordancage subjects a fully developed photograph to a series of wet chemical reactions, beginn

238 ers reviewed and graded standardised retinal photographs to assess retinal microvascular parameters.

239 Here we use historical photographs to calculate ice loss from 1880-2012 for Jak

240 arning model was trained to use color fundus photographs to predict GA presence from a population of

241 Ten eyes were consecutively photographed twice and ten images were rotated to give a

242 iating with one trawler and some individuals photographed up to seven times over 12 capture periods.

243 ta-diketonate complex have been successfully photographed using a time-gated imaging scheme.

244 s, 2 independent dermatologists graded these photographs using 4 validated photonumeric scales.

245 3-step instruction sheet on how best to take photographs using a smartphone (intervention group); the

246 diagnosed as having DME on monocular fundus photographs using MESA and NHANES definitions, respectiv

247 amount of neuroretinal damage on optic disc photographs using SDOCT BMO-MRW as a reference.

248 determined the severity of DR from the color photographs using the Early Treatment of Diabetic Retino

249 AMD features were graded on fundus photographs using the Rotterdam classification.

250 AMD was diagnosed based on fundus photographs using the Rotterdam Classification.

251 ermined by grading stereoscopic color fundus photographs using the Wisconsin Age-Related Maculopathy

252 urement of retinal-vessel calibre in retinal photographs, using diverse multiethnic multicountry data

253 A single photograph was assessed for each patient's scar.

254 Based on stereoscopic fundus photographs, we evaluated diabetic macular edema (DME) p

255 Diagnoses of glaucoma by disc photograph were 1.6% (3 of 180) in the CDR less than 0.6

256 or fundus photographs and 1 anterior segment photograph were captured per eye in each participant, us

257 d stereoscopic 35mm 30 degrees 7-field color photographs were acquired on the same visit.

258 Two hundred thirty-three color photographs were acquired with each retinal camera.

259 Color fundus photographs were assessed by the 9-step Age-Related Eye

260 Gradable fundus photographs were available for 1809 participants who att

261 Five-year photographs were available for 615/862 (71%) eligible pa

262 Color fundus photographs were collected at annual study visits and gr

263 Color fundus photographs were collected at annual study visits and gr

264 Fundus photographs were collected at annual study visits and gr

265 Photographs were cropped to the ear boundary and randoml

266 aseline and annual stereoscopic color fundus photographs were evaluated for (1) GA presence and area

267 Photographs were examined in alternating blocks of 70 ph

268 The SCAR scale ratings using photographs were found to be largely equivalent to live

269 Baseline and annual stereoscopic fundus photographs were graded centrally to detect DPED, a well

270 Fundus photographs were graded for drusen and retinal pigment e

271 At follow-up, digital macular color photographs were graded for early, intermediate, and lat

272 Color fundus photographs were graded manually and OCT scans underwent

273 Retinal photographs were graded using the modified Airlie House

274 Fundus photographs were graded using the Wisconsin AMD grading

275 sed on MESA definitions for monocular fundus photographs were greater than the DME prevalence based o

276 evaluate the progression to late AMD, fundus photographs were obtained at baseline and annual study v

277 Fundus photographs were obtained followed by neuro-ophthalmolog

278 Profile photographs were obtained for one or both ears.

279 Nonmydriatic fundus photographs were obtained of each eye and graded accordi

280 Fundus photographs were obtained serially for 26 eyes of 13 pat

281 Optic disc photographs were read by 2 masked glaucoma specialists f

282 Color fundus photographs were reviewed to correlate with the spectral

283 selected for further analysis, and clinical photographs were reviewed.

284 herence tomography (OCT), VF, and optic disc photographs were reviewed.

285 Photographs were taken at baseline and at numerous time

286 Digital iris photographs were taken from eyes of each participant and

287 From 2005 to 2008, retinal photographs were taken of all participants older than 40

288 e ocular evaluation was conducted and fundus photographs were taken to measure the size of the subhya

289 Photographs were transmitted to a reading center and wer

290 Clinical photographs were used to determine the extent of any lim

291 Photographs were used to help with story-telling.

292 Retinal photographs, were graded for the presence and severity o

293 photographs, as well as a separate set of 60 photographs, were rated; 10 patients were assessed twice

294 s of the plasmonic properties of these early photographs, which can be recognized as an example of pl

295 layer (RNFL) and macular OCT images and disc photographs with >2 years of follow-up and >=5 VFs.

296 l caliber was assessed from baseline retinal photographs with a semiautomated computer software Singa

297 nts with diabetes received retinal screening photographs with remote expert interpretation to determi

298 to receive instructions on how best to take photographs with smartphones.

299 learning model to predict ci-DME from fundus photographs, with an ROC-AUC of 0.89 (95% CI: 0.87-0.91)

300 four eyes of 42 patients had baseline fundus photographs, with baseline OCT in 31 eyes of 16 patients