ライフサイエンスコーパス: vitreous

1 insertion of IOL and clean of the prolapsed vitreous.

2 in its lumen freely rotating in the anterior vitreous.

3 cs the biophysical properties of the natural vitreous.

4 ts with metastatic cutaneous melanoma to the vitreous.

5 elease of antibody-based therapeutics in the vitreous.

6 sis, but our previous findings indicate that vitreous activate the signaling pathway of phosphoinosit

7 inal microvascular endothelial cells (HRECs) vitreous activates a number of receptor tyrosine kinases

8 ivity of NFS is confirmed with pyrogenic and vitreous amorphous silica particles, and industrial quar

9 The ophthalmic findings included vitreous amyloid (26/26, 100%), neurotrophic keratitis (

10 t previously described, were associated with vitreous amyloid.

11 cal characteristics encountered in eyes with vitreous amyloidosis.

12 Because some treated eyes showed less dense vitreous and better visual function than those of untrea

13 died whereby patients with panuveitis having vitreous and choroidal involvement had a higher risk of

14 he physiological redox environment of rabbit vitreous and maintains a steady-state redox potential us

15 ng laser photocoagulation with resolution of vitreous and pre-retinal hemorrhages on 4-month follow u

16 We utilized both vitreous and serum models to study the potential impact

17 essed (8/8 tumors, in 6/6 eyes), and 100% of vitreous and subretinal seeds regressed, with 100% globe

18 with shadow effect and adhesions between the vitreous and the aberrant macrovessel.

19 Anterior chamber fluid and/or vitreous and/or intraocular lens were submitted for micr

20 ery low drug levels measured in the aqueous, vitreous, and serum.

21 Liquid vitreous appears as early as 4 years of age enabling PHA

22 hyaloid vascular network regresses from the vitreous as an adaption for high-acuity vision.

23 y providing a molecular basis for removal of vitreous as cleanly as possible when vitrectomy is perfo

24 inates the tendency of the tube to enter the vitreous as the tube is always placed in the posterior c

25 ugh complex media (such as blood, mucus, and vitreous) as well as deep tissue imaging and control in

26 between November 2012 and March 2015 (Retina-Vitreous Associates Medical Group, Beverly Hills, Califo

27 The S. epidermidis load in vitreous at the time of patients' admission was higher i

28 ts), and 18 eyes were found to have attached vitreous at the time of surgery (false-positive results)

29 ached vitreous on OCT, 129 eyes had attached vitreous at the time of surgery (true-negative results),

30 oted at the vitreoretinal interface included vitreous attachment at the coloboma margin (23.33%), vit

31 An average of 10 to 13 vitreous B cells were used in the single-cell IGH and MY

32 Tractional vitreous bands on imaging correlated with plus disease s

33 reflective vitreous opacities and tractional vitreous bands predict the presence and severity of ROP.

34 Remnant vitreous biopsies from 7 patients with VRL and 4 patient

35 oteins in CAPN5-NIV patient vitreous, liquid vitreous biopsies were collected from two groups: eyes f

36 All patients who underwent a vitreous biopsy were included.

37 Needle vitreous tap and mechanical vitreous biopsy were more effective in yielding positive

38 Eyes that underwent initial mechanical vitreous biopsy with PPV had worse VA at presentation (P

39 vitreous tap in 59% of eyes, and mechanical vitreous biopsy with PPV in 14% of eyes.

40 Needle vitreous tap and mechanical vitreous biopsy with PPV were more likely to yield cultu

41 nt in the extracellular matrix and in ocular vitreous body.

42 thersome vitreous floaters showed less dense vitreous, but similar visual function as untreated contr

43 n of BP with thickening of the peripapillary vitreous by SD-OCT is useful in monitoring any vitreo-re

44 ed formation of aberrant neovessels into the vitreous by suppressing proliferation of endothelial cel

45 r OCT, an accurate determination of attached vitreous can be made.

46 ), and hill like projections of ICM into the vitreous cavity (26.67%).

47 s detected 2.67 ng/mL of Ro5-3335 within the vitreous cavity after treatment.

48 66), which included ACD, lens thickness, and vitreous cavity depth, ACD (SRC = 0.64, SPCC(2) = 0.19)

49 IC), anterior chamber width, lens thickness, vitreous cavity depth, and axial length, and dependent v

50 contrast, the gas and fluid locations in the vitreous cavity in all scans.

51 ties, defined as the largest area within the vitreous cavity occupied by opacities on any single imag

52 surgical implant that released CNTF into the vitreous cavity, compared with a sham procedure, slowed

53 ng even when the gas fill is only 70% of the vitreous cavity.

54 No residual lens materials misdirected into vitreous cavity.

55 -based therapeutic, and (2) retention in the vitreous cavity.

56 e insert (FA, 0.18 mg) was injected into the vitreous cavity; sham injection mimicked the insert deli

57 luorescence (92%), foveal granularity (74%), vitreous cell (53%), and optic disc edema (52%).

58 idence of ERD were observed for AC cells and vitreous cell activity.

59 Swept-source OCT showed vitreous cells (32 eyes; 100%), disruption of outer reti

60 osteroids, all the eyes showed resolution of vitreous cells and improvement in the integrity of retin

61 high index of suspicion is required because vitreous cells may obscure visualization of retinal deta

62 Interocular differences (IOD) in vitreous chamber (VC) depth and central and peripheral m

63 xial length (AL), central corneal thickness, vitreous chamber depth (VCD), anterior chamber depth (AC

64 lue light, possibly because the reduction in vitreous chamber depth compensated for the increase in c

65 istortions of both retinal thickness and the vitreous chamber in rd10 compared to WT mice.

66 DSP levels in both the anterior chamber and vitreous chamber of the eye for at least 3 weeks.

67 cted exaggerated elongation of the posterior vitreous chamber.

68 uity, current retina vascularization status, vitreous character, presence of peripheral retinal findi

69 f epiretinal cell multilayers with masses of vitreous collagen and signs of vitreous remodeling in bo

70 sed synaptic signaling proteins in CAPN5-NIV vitreous compared to controls.

71 attachment at the coloboma margin (23.33%), vitreous condensation (6.67%), and hill like projections

72 etinoschisis in 44 eyes (11.9%), and visible vitreous condensation ridge-like interface in 112 eyes (

73 within peripheral avascular retina, visible vitreous condensation ridge-like interface with residual

74 e of epiretinal membrane (ERM) and thickened vitreous cortex (tVC).

75 membranes at the VMI indicated remodeling of vitreous cortex and transdifferentiation of hyalocytes i

76 If the premacular bursa or posterior vitreous cortex are visualized on macular OCT, an accura

77 entified on OCT by visualizing the posterior vitreous cortex or premacular bursa.

78 es as stage 3 partial PVD when the posterior vitreous cortex was visualized without visible attachmen

79 ither the premacular bursa nor the posterior vitreous cortex were visualized.

80 intravitreal injection of anti-VEGF agents, vitreous culture data may help prognosticate visual outc

81 mitis, a change in clinical management after vitreous culture occurred in 9 of 111 eyes (8%), includi

82 endophthalmitis related to cataract surgery, vitreous cultures may have prognostic value for final vi

83 To profile vitreous cytokine expression of proliferative vitreoreti

84 Patients with visual symptoms or vitreous debris in the context of metastatic cutaneous m

85 The differential diagnosis of vitreous debris in the context of metastatic cutaneous m

86 Half of eyes demonstrated amelanotic vitreous debris.

87 relationships among axial length, structural vitreous density, PVD, and visual function.

88 tears complicating the course of a posterior vitreous detachment (PVD) may be unique or multiple, and

89 us vitreous liquefaction and early posterior vitreous detachment (PVD).

90 aters (20 non-myopic patients with posterior vitreous detachment [PVD]; 17 myopic patients [>-2 diopt

91 Despite posterior vitreous detachment being a common ocular event affectin

92 Posterior vitreous detachment may begin as early as the second dec

93 Posterior vitreous detachment stage (0-4).

94 Posterior vitreous detachment stage was identical in 6-mm and 16.5

95 Posterior vitreous detachment status on preoperative macular OCT w

96 A full posterior vitreous detachment was more common in eyes with MHEP (P

97 break associated with induction of posterior vitreous detachment was the most common (8 eyes) cause o

98 nts with symptoms concerning for a posterior vitreous detachment, retinal tear, or retinal detachment

99 rious macular conditions: presumed posterior vitreous detachment, vitreomacular interface changes, or

100 With OPN5 loss of function, the vitreous dopamine level is elevated and results in prema

101 ngs, intraocular lens, vitreous substitutes, vitreous drug release hydrogels, and cell-based therapie

102 Myopic eyes with PVD had 33% greater vitreous echodensity (815 +/- 217 AU; P < .001) and 62%

103 s floaters, Nd:YAG-treated eyes had 23% less vitreous echodensity (P < 0.001), but no differences in

104 ipants seeking vitrectomy showed 24% greater vitreous echodensity (P = 0.018) and 52% worse CSF (P =

105 th increasing axial length there was greater vitreous echodensity (R: 0.573; P < .01) and degradation

106 ormed in 11 of 40 cases (27.5%), normalizing vitreous echodensity and CSF in each case.

107 hat myopic eyes (>- 3 diopters) had 37% more vitreous echodensity than nonmyopic eyes (762 +/- 198 ar

108 uantitative ultrasonography (QUS) to measure vitreous echodensity, and best-corrected visual acuity (

109 showed worse NEI-VFQ-39 results, 57% greater vitreous echodensity, and significant (130%) CSF degrada

110 We identified Vitreous endosperm 1 (Ven1) as a major QTL influencing t

111 ith Mo2 QTLs, suggesting a potential role in vitreous endosperm formation.

112 The mechanism that creates vitreous endosperm in the mature maize kernel is poorly

113 notube fibers, ceramic fibers, and synthetic vitreous fibers.

114 Excluding posttreatment data, vitreous findings were compared with clinical ROP diagno

115 A close topographic relationship of vitreous fissures and cisterns to the underlying vascula

116 Prevascular vitreous fissures are an almost universal feature of hum

117 connected in older patients; (2) prevascular vitreous fissures overly the retinal vessels; and (3) ci

118 adverse events were lack of efficacy (6.3%), vitreous floaters (2.7%), and increased lacrimation (1.7

119 xty-seven patients suffering from unilateral vitreous floaters (20 non-myopic patients with posterior

120 age (n = 5), retinal hemorrhage (n = 4), and vitreous floaters (n = 4).

121 ncluded epiretinal membrane (ERM) (n = 121), vitreous floaters (n = 69), diabetic tractional retinal

122 Vitreous floaters are common and can worsen visual quali

123 vitreous floaters, and 38 participants with vitreous floaters previously Nd:YAG-treated.

124 sly treated with Nd:YAG laser for bothersome vitreous floaters showed less dense vitreous, but simila

125 treous floaters, participants with untreated vitreous floaters showed worse NEI-VFQ-39 results, 57% g

126 tients afflicted with clinically significant vitreous floaters suffer from vision-degrading myodesops

127 rol participants and healthy persons without vitreous floaters using quantitative ultrasonography to

128 laser effects by comparing participants with vitreous floaters who previously underwent laser treatme

129 Of 38 participants with vitreous floaters who previously were treated with Nd:YA

130 articipants: 35 control participants without vitreous floaters, 59 participants with untreated vitreo

131 ous floaters, 59 participants with untreated vitreous floaters, and 38 participants with vitreous flo

132 net (Nd:YAG) laser treatment is performed on vitreous floaters, but studies of structural and functio

133 Compared with untreated eyes with vitreous floaters, Nd:YAG-treated eyes had 23% less vitr

134 Compared with control participants without vitreous floaters, participants with untreated vitreous

135 ction as untreated control participants with vitreous floaters.

136 ere a total of 284 aqueous humor (AH) and/or vitreous fluid (VF) samples.

137 Vitreous fluid samples were prefixed in PreservCyt (Holo

138 tionship between the gas bubble and residual vitreous fluid showed a rapid shift when the patient's h

139 tionship between the gas bubble and residual vitreous fluid.

140 Vitreous fluids were collected during 23G pars plana vit

141 Vitreous fluids were obtained from 19 eyes with epiretin

142 In human postmortem retinas and vitreous from donors with DR, we have found a significan

143 Vitreous has been reported to prevent tumor angiogenesis

144 Common clinical signs reported include vitreous haze (523 of 1153 [45.4%]), retinal vasculitis

145 rtion of patients with >=2-step reduction in vitreous haze (VH) on the Miami scale or with a reductio

146 ely) while posterior uveitis manifestations (vitreous haze and vasculitis) were more common in the ol

147 hazards regression analysis, the presence of vitreous haze had an adjusted HR of 2.98 (95% CI, 1.50-5

148 n and adolescents, 6 to 17 years old, with a vitreous haze score of >/=1.5+ or cystoid macular edema

149 resolving) included choroidal effusion (1), vitreous hemorrhage (3), Descemet detachment (1), and pe

150 ion (5 eyes), and the development of a dense vitreous hemorrhage (6 eyes).

151 Complications upon follow-up included vitreous hemorrhage (9 eyes), neovascular glaucoma (5 ey

152 Compared with the reference group, vitreous hemorrhage (hazard ratio, 2.53 [P < 0.001] and

153 etic tractional retinal detachment (n = 49), vitreous hemorrhage (n = 40), full-thickness macular hol

154 e tumor thickness (P = 0.01) and presence of vitreous hemorrhage (P = 0.05).

155 e (p = 0.555), macular hole (p = 0.695), and vitreous hemorrhage (p = 0.787).

156 eal bevacizumab (IVB) use in patients with a vitreous hemorrhage (VH) secondary to proliferative diab

157 n (PRP) versus early vitrectomy for diabetic vitreous hemorrhage (VH).

158 proliferative diabetic retinopathy (PDR) and vitreous hemorrhage (VH).

159 rom a young boy with a history of idiopathic vitreous hemorrhage and a female infant with familial ex

160 biopsy can result in complications including vitreous hemorrhage and retinal detachment.

161 ultivariable analyses identified presence of vitreous hemorrhage at baseline, increasing age, absence

162 Eyes without a vitreous hemorrhage at study entry were more likely to r

163 our patient is the third documented case of vitreous hemorrhage following whole-body vibration train

164 Among participants whose eyes had vitreous hemorrhage from proliferative diabetic retinopa

165 Vitreous hemorrhage from proliferative diabetic retinopa

166 including 205 adults with vison loss due to vitreous hemorrhage from proliferative diabetic retinopa

167 prescription (aDelta: -1.00, P = 0.024), and vitreous hemorrhage in at least 1 eye (aDelta: -1.92, P

168 ual improvement (p < 0.0001) had concomitant vitreous hemorrhage pre-op.

169 rgical procedure optimization, postoperative vitreous hemorrhage rate was 4.5% (7/157; 1 event classi

170 Vitreous hemorrhage was a risk factor for earlier retina

171 ow a close association of a retinal tear and vitreous hemorrhage with whole-body vibration training.

172 While performing vitrectomy for severe vitreous hemorrhage, a point of strong adherence between

173 urgical time, early (<1 month) postoperative vitreous hemorrhage, and mean change in best-corrected v

174 ects, including endophthalmitis, retinal and vitreous hemorrhage, and retinal detachment.

175 cular hypertension, hemorrhagic retinopathy, vitreous hemorrhage, combined traction and rhegmatogenou

176 es with findings that would bias toward PPV (vitreous hemorrhage, dense cataract, proliferative vitre

177 Greater tumor thickness, vitreous hemorrhage, exudative retinal detachment, and p

178 resence of lattice degeneration, presence of vitreous hemorrhage, location of retinal breaks, macular

179 tely coded (kappa = 0.61, 0.48, and 0.52 for vitreous hemorrhage, retinal detachment, and neovascular

180 (DR) and DR-related complications (including vitreous hemorrhage, retinal detachment, and neovascular

181 g outcome defined as the first occurrence of vitreous hemorrhage, retinal detachment, anterior segmen

182 ly was performed in patients with persistent vitreous hemorrhage, retinal detachment, lens dislocatio

183 nd safe modalities for treatment of diabetic vitreous hemorrhage.

184 r, inferior pre-retinal hemorrhage, and mild vitreous hemorrhage.

185 ccurrence of a retinal tear, pre-retinal and vitreous hemorrhages after completing a session of whole

186 ults of the CT scan, to identify retinal and vitreous hemorrhages consistent with TS.

187 At initial presentation, vitreous hemorrhages were present in 22 eyes, hyphema in

188 viding a multiparametric characterization of vitreous humor as a function of the time since death.

189 hesives, and are now being investigated as a vitreous humor substitute.

190 e chain reaction (PCR) testing of aqueous or vitreous humor was positive for herpes simplex virus (HS

191 ) as the cryptic EBOV reservoir cells in the vitreous humour and its immediately adjacent tissue, in

192 tform for 3D correlative imaging of cells in vitreous ice by using super-resolution structured illumi

193 thod detects single apoferritin molecules in vitreous ice with high specificity and determines their

194 However, this standard technique produces vitreous ice with inconsistent thickness from specimen t

195 ation of CdSSe/ZnS quantum dots suspended in vitreous ice.

196 volves imaging purified material embedded in vitreous ice.

197 ntegrity and protein distribution across the vitreous ice.

198 VRL versus uveitis and associated aqueous or vitreous IL-6 and IL-10 levels were collected retrospect

199 lassify PVRL versus uveitis from aqueous and vitreous IL-6 and IL-10 samples and compared with ISOLD

200 Understanding the relationship between the vitreous (in both its attached and detached state) and t

201 ssed proteins (between CAPN5-NIV and control vitreous), including those unique to and abundant in eac

202 and an Axl-specific inhibitor R428 suppress vitreous-induced Akt activation and cell proliferation,

203 one of receptor tyrosine kinases to mediate vitreous-induced angiogenesis in vitro, thereby providin

204 the posterior chamber invading the anterior vitreous inferiorly.

205 aucity of pigmentary changes with no sign of vitreous inflammation and abnormal electroretinogram in

206 (DIII-FOM) and assess the serial changes in vitreous inflammation, retinal structure, and vascularit

207 nless vision loss, mild anterior chamber and vitreous inflammation, sectoral retinal hemorrhages in a

208 at have not been previously reported to have vitreous involvement were described: Glu89Lys, Gly47Arg,

209 s have been noted to have ocular, especially vitreous, involvement.

210 Cutaneous melanoma metastatic to the vitreous is very rare.

211 andomized study of Nd:YAG laser treatment of vitreous is warranted, using uniform laser treatment par

212 In a cytology-proven VRL case, all 15 vitreous isolated B cells were derived from the same clo

213 mber aberration (CNA) profiles of individual vitreous-isolated B cells were characterized.

214 These studies provide insight for breeding vitreous kernel varieties and high vitamin A content in

215 In vivo hyperglycemia increased vitreous levels of ET-1 but not thromboxane B(2) In conc

216 ng surgery, it promotes the reformation of a vitreous-like body that mimics the biophysical propertie

217 opic vitreopathy features precocious fibrous vitreous liquefaction and early posterior vitreous detac

218 myopia is associated with increased fibrous vitreous liquefaction and echodensity, as well as profou

219 sease effector proteins in CAPN5-NIV patient vitreous, liquid vitreous biopsies were collected from t

220 Posterior capsule rupture and vitreous loss were noted during the operation.

221 In patients with an intact vitreous, neither pO(2) nor antioxidant status correlate

222 es and growth factors are upregulated in the vitreous of eyes with RD.

223 ked difference in cytokine expression in the vitreous of most ERM patients with ME compared to contro

224 vasoactive and inflammatory mediators in the vitreous of patients with idiopathic ERMs.

225 in MSU levels was also detected in serum and vitreous of streptozotocin-induced diabetic rats (STZ-ra

226 Small, round clear spheres in vitreous on dilated biomicroscopic retinal examination.

227 Of the 137 eyes graded as showing attached vitreous on OCT, 129 eyes had attached vitreous at the t

228 Increased vitreous opacification was associated with a higher prob

229 ophthalmitis was associated with 50% or more vitreous opacities (P < 0.001), older age (P < 0.001), p

230 Punctate hyperreflective vitreous opacities and tractional vitreous bands predict

231 The presence of punctate hyperreflective vitreous opacities at least once was associated with a d

232 n 17 615 eyes, the surgery was linked to the vitreous opacities code exclusively, and not to epiretin

233 Patients with more severe vitreous opacities on ultrasound were more likely to be

234 RIS Registry, eyes undergoing vitrectomy for vitreous opacities returned to the operating room for an

235 Punctate hyperreflective vitreous opacities were identified in 61 of 92 infants (

236 e surgery within 1 year after vitrectomy for vitreous opacities were identified, as was the nature of

237 o one of the ICD-9-CM or ICD-10-CM codes for vitreous opacities were identified.

238 Dense vitreous opacities were present in all cases.

239 d quantification of punctate hyperreflective vitreous opacities within 5 foveal or parafoveal B-scans

240 The degree of vitreous opacities, defined as the largest area within t

241 ons) with right-eye punctate hyperreflective vitreous opacities, the vitreous opacity ratio from 2 gr

242 pseudophakic, were prone to have more severe vitreous opacities.

243 ed for patients who underwent vitrectomy for vitreous opacities.

244 tate hyperreflective vitreous opacities, the vitreous opacity ratio from 2 graders (F1 score, 0.82 +/

245 ities within 5 foveal or parafoveal B-scans (vitreous opacity ratio).

246 endophthalmitis was observed with increasing vitreous opacity severity (odds ratio, 3.97; confidence

247 almic Technology Assessment Committee Retina/Vitreous Panel to review in full.

248 anchoring molecule collected in the anterior vitreous, partially obscuring retinal visualization and

249 this research is to determine which role of vitreous plays in angiogenesis-related cellular response

250 s line of research not only demonstrate that vitreous promotes angiogenesis in vitro, but also reveal

251 The CAPN5-NIV vitreous proteome displayed characteristic enrichment of

252 glaucoma medications, anterior chamber tap, vitreous reflux, longer intervals between injections, an

253 ith masses of vitreous collagen and signs of vitreous remodeling in both groups.

254 howed positive culture results from either a vitreous sample or explanted tube shunt.

255 nefit from microbiological identification in vitreous samples by combined analysis using bacterial cu

256 ast test was more effective than cultures in vitreous samples collected after an IVI of antibiotics.

257 anced three-dimensional imaging technique of vitreous samples in near-native state has matured over t

258 en lymphoma patients (10 aqueous samples, 67 vitreous samples) and 84 uveitis patients (19 aqueous sa

259 84 uveitis patients (19 aqueous samples, 65 vitreous samples) treated between October 5, 1999, and S

260 For vitreous samples, the logistic regression model, ISOLD s

261 mistry on CNV tissue and protein analysis of vitreous samples.

262 us seeding, and further to determine whether vitreous seed classification (dust, spheres, cloud) is p

263 Thirty-eight eyes were eligible and showed vitreous seeding and normal intraocular pressure.

264 Retrospective review of patients with vitreous seeding from retinoblastoma treated with intrav

265 eous melphalan is an effective treatment for vitreous seeding in retinoblastoma, resulting in high ra

266 ravenous chemotherapy and IVM as salvage for vitreous seeding, and further to determine whether vitre

267 le intravitreous injections of melphalan for vitreous seeding.

268 ary body medulloepithelioma with aqueous and vitreous seeding.

269 There was 100% regression of vitreous seeds after intravitreal injection and no eye w

270 eatures at presentation, with the absence of vitreous seeds being a potential risk factor.

271 on of the clinical classification scheme for vitreous seeds in retinoblastoma.

272 toxicity of treating class 3 retinoblastoma vitreous seeds with ophthalmic artery chemosurgery (OAC)

273 oblastoma were analyzed to select those with vitreous seeds.

274 Vitreous separation reduced to a greater extent in the h

275 Aqueous and vitreous specimens are both sensitive and specific.

276 Micro and macro elements in vitreous specimens were determined by ICP-OES and were f

277 ratified patients (n = 288 eyes) by lens and vitreous status and the presence of primary open-angle g

278 tioxidant potential (TRAP) with glaucoma and vitreous status.

279 ing quantitative ultrasonography to evaluate vitreous structure and by measuring visual acuity and co

280 ing endotamponade might serve as a long-term vitreous substitute.

281 act lens, wound dressings, intraocular lens, vitreous substitutes, vitreous drug release hydrogels, a

282 Eleven patients (11 eyes) had undergone vitreous surgery and were included in the study.

283 erface with residual traction, and premature vitreous syneresis.

284 ose diagnosed and then treated either with a vitreous tap and intravitreal injection of antibiotics o

285 Needle vitreous tap and mechanical vitreous biopsy were more ef

286 Needle vitreous tap and mechanical vitreous biopsy with PPV wer

287 ials with aqueous tap in 46% of eyes, needle vitreous tap in 59% of eyes, and mechanical vitreous bio

288 s tap had a higher culture yield than needle vitreous tap in our series.

289 ses that underwent initial aqueous or needle vitreous tap required subsequent intervention with PPV.

290 2 cases with adequate sample (100%); needle vitreous tap yielded positive culture in 0 of 3 cases.

291 that underwent initial aqueous tap or needle vitreous tap.

292 Furthermore, in the left eye (OS), a vitreous thickening was observed in the nasal sector of

293 this case of MGS is caused primarily by the vitreous traction with further possible formation of the

294 both (13%), media opacity without RD (28%), vitreous traction without RD (11%), intraocular foreign

295 e complications were found such as bleeding, vitreous tube placement, bent tubes, etc.

296 ictive value of an OCT scan showing attached vitreous was 94%.

297 cans, we classified eyes as stage 3 when the vitreous was attached at the optic nerve and separated f

298 Attached vitreous was identified on OCT by visualizing the poster

299 The anterior and mid-vitreous were carefully examined using 12x to 16x magnif

300 major macromolecular component of the eye's vitreous, with therapeutic antibodies and proteins.