ライフサイエンスコーパス: limiting membrane

1 an increase in prominence of the OLM (outer limiting membrane).

2 ound together, and only with a torn internal limiting membrane.

3 that is likely specific to each organelle's limiting membrane.

4 al acuity, photoreceptor layer, and external limiting membrane.

5 nin-containing basement membrane - the inner limiting membrane.

6 ed thinning of the retina below the external limiting membrane.

7 re of the two transporter molecules in their limiting membrane.

8 ccumulation of the ESCRT protein IST1 on the limiting membrane.

9 internal vesicles enclosed within an outer, limiting membrane.

10 ly with the cone matrix sheath and the outer limiting membrane.

11 hin the retinas and in the area of the inner limiting membrane.

12 nt epithelium and disruption of the external limiting membrane.

13 istributing endocytosed CD1d to the lysosome limiting membrane.

14 thin the retina and in the area of the inner limiting membrane.

15 inner segment, connecting cilium, and outer limiting membrane.

16 e same organelles but remains exposed on the limiting membrane.

17 nelle and efficient translocation across its limiting membrane.

18 od network at a level distal to the external limiting membrane.

19 ndothelial cell nuclei anterior to the inner limiting membrane.

20 f the outer segments with an intact external limiting membrane.

21 retinal cell nuclei anterior to the internal limiting membrane.

22 horing vitreal collagen fibrils to the inner limiting membrane.

23 nt endothelial cells from crossing the inner limiting membrane.

24 nuclear layer (ONL) that ended at the outer limiting membrane.

25 processes in the ONL that ended at the outer limiting membrane.

26 , including capillaries, and in the internal limiting membrane.

27 maintain the integrity of the retinal inner limiting membrane.

28 milarly was stained to evaluate the internal limiting membrane.

29 ged phosphatidylserine (PS) at the endosomal limiting membrane.

30 uter nuclear layer and even beyond the outer limiting membrane.

31 ses escape infected cells by budding through limiting membranes.

32 dins kill microbes by forming pores in their limiting membranes.

33 ined to large membrane-bound structures with limiting membranes.

34 act sites, which represent a melding of both limiting membranes.

35 n form by phase separation in the absence of limiting membranes.

36 transmembrane protein composition of cells' limiting membranes.

37 olic signaling by the mTORC1 kinase on their limiting membranes.

38 number of nuclei extending beyond the inner limiting membrane (15.8 +/- 16.7, mean +/- SD) when comp

39 nin alpha1 and other components of the inner limiting membrane, a reduced integrity of this structure

40 and was especially prevalent in the internal limiting membrane adjacent to the vitreous body.

41 adation of laminin from the underlying inner limiting membrane and an increase in gelatinolytic metal

42 rreflective foci, disruption of the external limiting membrane and disorganization of the retinal inn

43 TICS appear to have no limiting membrane and do not colocalize with markers for

44 0/40 was higher in eyes with intact external limiting membrane and ellipsoid zone.

45 tomy was performed with peeling of the inner limiting membrane and gas tamponade.

46 nt reduction in LRP minireceptor within both limiting membrane and internal vesicles of the multivesi

47 of photoreceptor nuclei across the external limiting membrane and into the subretinal space from app

48 rer visual outcome, preservation of external limiting membrane and level of fibrosis relative to the

49 tinal deposits, followed by loss of external limiting membrane and loss of retinal pigment epithelium

50 d had CFCs with fine folding of the internal limiting membrane and mild pigment changes.

51 , and the average thickness between internal limiting membrane and outer retinal pigment epithelium c

52 bound fraction of Snx 17 is localized to the limiting membrane and recycling tubules of early endosom

53 ne particles induces damage to the endosomal-limiting membrane and results in the leakage of cathepsi

54 in the vitreous are connected with the inner limiting membrane and separation of the vitreal matrix f

55 observed in the OCT, correspond to the outer limiting membrane and the cone ellipsoids, respectively,

56 The disruption of the external limiting membrane and the ellipsoid zone was associated

57 he Pard3 protein was restricted to the outer limiting membrane and the outer and inner plexiform laye

58 esulted in punctate labeling of the external limiting membrane and the outer nuclear layer.

59 eal resistance (preservation of the external limiting membrane and the photoreceptor layer) in 6 pati

60 ubfield thickness (CSF) between the internal limiting membrane and the top of the retinal pigment epi

61 ese viruses enter cells without the aid of a limiting membrane and thus cannot fuse with host cell me

62 melanocytes and localizes to the melanosome-limiting membrane and, to a lesser extent, to endolysoso

63 taining the ligand-receptor complex in their limiting membranes and in small associated vesicular str

64 ogical changes, with obvious damage to their limiting membranes and loss of their cytoplasmic content

65 ge in microfluidic systems such as diffusion-limiting membranes and the flow injection setup are pres

66 mated segmentation of the anterior (internal limiting membrane) and the posterior boundary of the RNF

67 iary epithelium, lens capsule, retinal inner limiting membrane, and Bruch's membrane.

68 cency horizontal and vertical size, external limiting membrane, and ellipsoid zone defect.

69 vesicles as EGF receptor is sorted from the limiting membrane, and eventually mature to late endosom

70 ant cholesterol binding site at the lysosome limiting membrane, and may signal cholesterol availabili

71 estigated the role of the vitreous, internal limiting membrane, and posterior vitreous detachment in

72 s, mammalian proteins that line the lysosome limiting membrane, and protect it from lysosomal hydrola

73 Pt/C cathode; (3) an overlying glucose flux-limiting membrane; and (4) a resistor bridging the anode

74 fibrils with close adhesions to the internal limiting membrane are not always detectable by optical c

75 thickness (CRT), and status of the external limiting membrane as well as ellipsoid zone were also ev

76 it disorganized, concomitantly permits outer limiting membrane association, and this appears to be li

77 nized outer segment lamellae; although outer limiting membrane associations are maintained, normal in

78 Early recovery of the external limiting membrane at 3 months is a positive predictive v

79 In Group 2, the integrity of the external limiting membrane at 3 months postoperatively was the on

80 ulated during division in S. japonicus, thus limiting membrane availability and necessitating NE brea

81 The internal limiting membrane, Bruch's membrane/retinal pigment epit

82 The penetration of outer limiting membrane by photoreceptor nuclei and Muller cel

83 Preservation of the external limiting membrane carries a positive prognostic value in

84 cently shown to be enriched on the endosomal limiting membrane compared with PSEN1.

85 Inner limiting membrane continuity is irregular in these mutan

86 in none of the perfluorodecalin eyes; inner limiting membrane contraction was found in 58.4% of PFO

87 ing through the fovea showed extensive inner limiting membrane corrugations causing distorted foveal

88 Baseline BCVA, external limiting membrane damage, CNV area and CNV location corr

89 with higher rates of ellipsoid and external limiting membrane defects (P < 0.05) and with a higher r

90 the outer retina, with six showing internal limiting membrane detachment.

91 trast, mutant central vacuoles had distorted limiting membranes displaying domains with clumps of the

92 d a 4-month change in VA, DRIL, and external limiting membrane disruption was predictive of an 8-mont

93 ength of ellipsoid zone disruption, external limiting membrane disruption, area of the ERN in square

94 ers (DRIL), ellipsoid zone (EZ) and external limiting membrane disruption, cone outer segment tip (CO

95 resolution of the photoreceptor and external limiting membrane elevation.

96 er nuclear layer; disruption of the external limiting membrane, ellipsoid layer, and interdigitation

97 PM involve the outer nuclear layer, external limiting membrane, ellipsoid layer, and interdigitation

98 ayers (DRIL), and disruption of the external limiting membrane, ellipsoid zone, or interdigitation zo

99 ly lower in the eyes with disrupted external limiting membrane (ELM) (mean 40.3 +/- 21.3 letters) tha

100 cysts, and extent of disruption of external limiting membrane (ELM) and ellipsoid zone (EZ) were det

101 ow-up based on the integrity of the external limiting membrane (ELM) and ellipsoid zone (EZ): Type 1

102 was also upward displacement of the external limiting membrane (ELM) and mild transient thickening of

103 of the ellipsoid zone (EZ) and the external limiting membrane (ELM) and presence of cystoid spaces w

104 The external limiting membrane (ELM) and the cone outer segment tips

105 RT formation based on shapes of the external limiting membrane (ELM) descent (flat, curved, reflected

106 Disruption of external limiting membrane (ELM) integrity on spectral-domain opt

107 perreflective material, and loss of external limiting membrane (ELM) integrity.

108 /outer segment (IS/OS) junction and external limiting membrane (ELM) line.

109 urgery, 24 eyes (40%) showed normal external limiting membrane (ELM), 36 eyes (60%) showed normal ELM

110 ctivity of the ellipsoid zone (EZ), external limiting membrane (ELM), and outer nuclear layer (ONL) o

111 ayers (DRIL); and (6) disruption of external limiting membrane (ELM), ellipsoid zone (EZ), and interd

112 pithelial clumping, and the loss of external limiting membrane (ELM), ellipsoidal zone (EZ), and inte

113 embrane, outer nuclear layer (ONL), external limiting membrane (ELM), inner segment-outer segment (IS

114 ent/outer segment (IS/OS) junction, external limiting membrane (ELM), outer nuclear layer (ONL), and

115 resence of SND and integrity of the external limiting membrane (ELM).

116 The patients who had intact external limiting membranes (ELMs) at 1 month after surgery had b

117 re lined with a glycocalyx that protects the limiting membrane from the action of degradative enzymes

118 nce that the CLE originates as lamellar body-limiting membranes fuse with the plasma membrane: (i) AB

119 emorrhage in 5 eyes, premacular sub-internal limiting membrane hemorrhage in 2 eyes, an outer retinal

120 t sign" (evidence of significant subinternal limiting membrane hemorrhage).

121 (P = .002); (2) the outpouching of internal limiting membrane (ILM) (P = .004); (3) the breach of IL

122 Internal limiting membrane (ILM) abrasion is an alternative surgi

123 The internal limiting membrane (ILM) and BMO were manually segmented

124 ces containing 3-O-sulfation in the internal limiting membrane (ILM) and in the basement membrane of

125 The inner limiting membrane (ILM) and the vitreous body (VB) are m

126 The inner limiting membrane (ILM) creates a barrier separating the

127 interface abnormalities, including internal limiting membrane (ILM) detachment with retinal traction

128 Internal limiting membrane (ILM) drape sign is an important OCT c

129 device (OVD) to stabilize inverted internal limiting membrane (ILM) flap for the treatment of macula

130 functional outcomes of the inverted internal limiting membrane (ILM) flap technique and the complete

131 Internal limiting membrane (ILM) flap techniques are used for the

132 laries in some individuals, but the internal limiting membrane (ILM) had the most intense retinal imm

133 aining the structural integrity of the inner limiting membrane (ILM) in the developing retina.

134 ent study investigates the role of the inner limiting membrane (ILM) in the survival of ganglion cell

135 ntification in which the number of pre-inner limiting membrane (ILM) nuclei is counted in serial sect

136 rimarily to the vitreous cavity and internal limiting membrane (ILM) of the retina, where they were i

137 A PPV was combined with internal limiting membrane (ILM) peel in 94.1% and cataract surge

138 Lack of internal limiting membrane (ILM) peel, increasing hole size, hole

139 MHRD that underwent vitrectomy with internal limiting membrane (ILM) peeling and inverted flap (16 ey

140 ful pars plana vitrectomy (PPV) and internal limiting membrane (ILM) peeling for idiopathic MH from J

141 used with vitrectomy combined with internal limiting membrane (ILM) peeling for the treatment of idi

142 and gas tamponade, with or without internal limiting membrane (ILM) peeling.

143 Epiretinal membrane and internal limiting membrane (ILM) specimens were removed from eyes

144 after vitrectomy with the inverted internal limiting membrane (ILM) technique.

145 igh preoperative reflectance of the internal limiting membrane (ILM) to outer plexiform layer (OPL) w

146 After core vitrectomy, internal limiting membrane (ILM) was peeled between the optic ner

147 llary protrusion of sRNFL above the internal limiting membrane (ILM) were documented.

148 y intravitreally delivered AAVs is the inner limiting membrane (ILM), a basement membrane rich in hep

149 to their propitious location above the inner limiting membrane (ILM), allowing direct visualization o

150 form ectopic cell clusters beyond the inner-limiting membrane (ILM), phenocopying laminin mutants.

151 membrane and Muller cells (MCs) on the inner limiting membrane (ILM), providing polarity cues to adhe

152 Four masked operators delineated internal limiting membrane (ILM), retinal nerve fiber layer (RNFL

153 iris and covered the retina along the inner limiting membrane (ILM), sometimes penetrating into the

154 plana vitrectomy and peeling of the internal limiting membrane (ILM).

155 greatest reaction product near the internal limiting membrane (ILM).

156 eins of the vitreous body (VB) and the inner limiting membrane (ILM).

157 l, subhyaloid space, or beneath the internal limiting membrane (ILM).

158 went vitrectomy with peeling of the internal limiting membrane (ILM).

159 n delivered to the vitreous due to the inner limiting membrane (ILM).

160 (P = 0.03), and the peeling of the internal limiting membrane (ILM; P = 0.02), with a greater effect

161 in 3 eyes, noncompliance of native internal limiting membrane in 2 eyes, epiretinal membrane in 1 ey

162 d of counting cell nuclei above the internal limiting membrane in histologic sections is considered t

163 aration of the vitreal matrix from the inner limiting membrane in mutant mice indicate that collagen

164 ular-endothelial-cell nuclei above the inner-limiting membrane in P17 eyes.

165 nd vitreous collagen fibrils on the internal limiting membrane in specimens removed from eyes with an

166 d isolated hyperreflectivity of the external limiting membrane in the fovea, and the external limitin

167 tact ellipsoid zone (P = .0001) and external limiting membrane in the subfoveal area (P < .0001) at b

168 the lens capsule basement membrane and inner limiting membrane in the zebrafish eye.

169 obably due to the complete loss of the inner limiting membrane in these mice.

170 Pib2 associated with vacuolar and endosomal limiting membranes in unstressed cells in a manner that

171 the outer basal lamina adjacent to the glial limiting membrane increased with age and showed increasi

172 photoreceptor: inner nuclear layer-external limiting membrane (INL-ELM); external limiting membrane-

173 ternal limiting membrane (INL-ELM); external limiting membrane-inner segment outer segment (ELM-ISOS)

174 Glial scarring and outer limiting membrane integrity, features that change with d

175 ascular nuclei extending beyond the internal limiting membrane into the vitreous.

176 excimer laser ablation through the internal limiting membrane, into the Muller cell foot processes.

177 OCT image sets were evaluated for internal limiting membrane irregularities, abnormal retinal thick

178 rregularity (37%), IS-OS loss (6%), external limiting membrane irregularity (18%), outer nuclear and

179 at the normally intervening astrocytic glial limiting membrane is absent.

180 icate that Notch signaling from the lysosome limiting membrane is conserved and that receptor targeti

181 rk addresses whether peeling of the internal limiting membrane is necessary during vitrectomy for mac

182 the barrier at the cut axonal end had their limiting membrane labeled with the styryl dye and their

183 rior eye segment, interruptions of the inner limiting membrane led to small retinal ectopias and subs

184 er thinning (adjusted R(2) = 0.93), external limiting membrane loss (adjusted R(2) = 0.89), or choroi

185 host retinal cells upon disruption of outer limiting membrane, may impose two major barriers in LCAs

186 membrane partitioning into the permeability-limiting membrane microdomain is estimated from the solv

187 esicles of control cells but remained in the limiting membrane of chmp1a chmp1b MVBs.

188 es are formed when cargo-rich patches of the limiting membrane of endosomes bud inwards by an unknown

189 s so that active EGF.EGFRs accumulate on the limiting membrane of endosomes reveals that receptor pho

190 ted to vesicle membranes and is found in the limiting membrane of lamellar bodies.

191 ge-like coelomocytes, RME-8 localizes to the limiting membrane of large endosomes.

192 The limiting membrane of late endosomes can fuse with the pl

193 how that FasL and TRAIL are expressed on the limiting membrane of multivesicular bodies where, by mem

194 microscopy reveals Hrs-2 localization on the limiting membrane of multivesicular bodies, organelles i

195 al genome requires that the capsid cross the limiting membrane of the endocytic compartment and trave

196 to vesicles generated by invagination of the limiting membrane of the endosome or vacuole, ultimately

197 s the phosphorylated EGFR accumulates on the limiting membrane of the endosome with its carboxyl term

198 is initiated by the activated EGFR from the limiting membrane of the endosome.

199 Defects in the inner limiting membrane of the eye were associated with a redu

200 The limiting membrane of the lysosome contains a group of tr

201 e cytoplasmic tail that directs Notch to the limiting membrane of the lysosome for signaling.

202 wever, if HOPS and AP-3 deliver Notch to the limiting membrane of the lysosome, degradation of the No

203 ttached and detached state) and the internal limiting membrane of the retina is essential to understa

204 he ganglion cell layer, and around the outer limiting membrane of the retina.

205 However, the limiting membrane of the vacuole, which constitutes the

206 reticulum (ER), which then localizes to the limiting membrane of the vacuole.

207 hat the Fig4 phosphatase is localized to the limiting membrane of the vacuole.

208 MHC-II is restricted to the limiting membrane of these enlarged MVBs where it coloca

209 The presence of CD63/LAMP3 in the limiting membrane of WPBs has led to their classificatio

210 located predominantly in early endosomes and limiting membranes of endosome-to-lysosome transport int

211 ess involving (1) outward vesicle budding at limiting membranes of endosomes (outward = away from the

212 are absent in VSP33B-negative patients; (iv) limiting membranes of lamellar bodies are defective in l

213 he Anx2-Gag interaction likely occurs at the limiting membranes of late endosomes/multivesicular bodi

214 smooth endoplasmic reticulum (SER), and the limiting membranes of multivesicular bodies.

215 ochemistry, the antigen was localized to the limiting membranes of premelanosomes and presumed premel

216 nsP3 receptor to the inner nuclear layer and limiting membranes of the catfish retina.

217 th GDNF and BDNF accumulate at the external (limiting) membrane of multivesicular bodies within proxi

218 r inner segments (RIS) ellipsoid zone, outer limiting membrane (OLM) (mean 32, range < 1-44 ppm) and

219 in, and cytochrome oxidase 2), and the outer limiting membrane (OLM) (zonula occludens 1 and occludin

220 The outer limiting membrane (OLM) appeared disrupted in 50.0% of e

221 sses only intermittently penetrate the outer limiting membrane (OLM) beneath extensive detachments, t

222 al pigment epithelium (RPE) and at the outer limiting membrane (OLM) in the specialized adherens junc

223 previous position directly beneath the outer limiting membrane (OLM).

224 eovascular nuclei extending beyond the inner limiting membrane on retinal sections in animals treated

225 nd loss of RPE, ellipsoid zone, and external limiting membrane on SD OCT scan became evident.

226 fluorescence of the residual intact internal limiting membrane on the retinal surface also showed pos

227 Ps), enter cells by directly penetrating the limiting membrane or if they take advantage of endocytic

228 e outer segment tip visibility, and external limiting membrane or photoreceptor disruption and reflec

229 The internal limiting membrane, outer nuclear layer (ONL), external l

230 sruptions to the ellipsoid zone and external limiting membrane overlying the acquired vitelliform les

231 lective band (P = .006), and intact external limiting membrane (P = .036).

232 lana vitrectomy with epiretinal and internal limiting membrane peel was ineffective in the treatment

233 plana vitrectomy and epiretinal and internal limiting membrane peel.

234 plana vitrectomy and epiretinal and internal limiting membrane peel.

235 of fluorescein staining or with the internal limiting membrane peeled area, but were matched to the a

236 tment (JPL; 146 patients), PPV plus internal limiting membrane peeling (ILMP; 50 patients), PPV plus

237 A vitrectomy with internal limiting membrane peeling and an air tamponade was perfo

238 Internal limiting membrane peeling and endolaser are useful for f

239 nderwent pars plana vitrectomy with internal limiting membrane peeling and sulfur hexafluoride gas ta

240 Pars plana vitrectomy with internal limiting membrane peeling followed by a short-term nonsu

241 Internal limiting membrane peeling may not be necessary for acute

242 Internal limiting membrane peeling was associated negatively with

243 Internal limiting membrane peeling was associated with improved c

244 Internal limiting membrane peeling was associated with lower rate

245 ts underwent pars plana vitrectomy, internal limiting membrane peeling, and 17% hexafluoroethane gas

246 es underwent pars plana vitrectomy, internal limiting membrane peeling, and gas or silicone oil tampo

247 mentosa, ocular hypotensive lipids, internal limiting membrane peeling, and intravitreal triamcinolon

248 herical equivalent refraction (SE), internal limiting membrane peeling, tamponade choice, and concurr

249 er than in pure water, as expected from rate-limiting membrane permeation.

250 idually from inward budding of the endosomal limiting membrane, plant ILVs form as networks of concat

251 mulated through dynein activity, serves as a limiting membrane pool that sets nuclear surface growth

252 nstrate a novel role for the cytoskeleton in limiting membrane protein proteolysis, thereby regulatin

253 External limiting membrane recovered in all cases at 1 month.

254 eted vesicle fuses with the lysosome/vacuole limiting membrane, releasing its content into the organe

255 al processes attached to the outer and inner limiting membranes, respectively.

256 ethod with manual correction of the internal limiting membrane, RNFL, and retinal pigment epithelium

257 f the retina, including defects in the outer limiting membrane, rosette formation and a reduction in

258 d vitreous collagen remnants on the internal limiting membrane should be further elucidated in order

259 zed surgically excised flat-mounted internal limiting membrane specimens and epiretinal membrane spec

260 Internal limiting membrane specimens were removed from 10 eyes wi

261 integration in a model with an intact outer limiting membrane, strong gliotic response, and otherwis

262 and axonal development in the sensitivity to limiting membrane supply from the secretory pathway.

263 With no limiting membrane surrounding virions, nonenveloped viru

264 hemorrhage, perimacular ridge, and internal limiting membrane tear.

265 n proteins known to localize to the external limiting membrane, the equivalent of the zonula adherens

266 of the inner limiting membrane to the outer limiting membrane, the inner plexiform layer, and the in

267 The mechanism(s) are obscure by which its limiting membrane, the parasitophorous vacuolar membrane

268 quire massive fluxes of molecules across its limiting membrane, the tonoplast.

269 on processes within both the inner and outer limiting membrane; the beta(2) subunit localized to the

270 Retinal thickness from the inner limiting membrane to the Bruch membrane.

271 analysis of the mean thickness of the inner limiting membrane to the outer limiting membrane, the in

272 papillary microvasculature from the internal limiting membrane to the retinal nerve fiber layer (RNFL

273 tion of all retinal layers from the internal limiting membrane to the retinal pigment epithelium.

274 ch's membrane opening (BMO) and the internal limiting membrane to the standard sequential minimizatio

275 cytokine adjuvants, peeling of the internal limiting membrane, vital staining of the internal limiti

276 and "double peeling," in which the internal limiting membrane was also stained and peeled.

277 nded on the microtubule network and that VCC-limiting membrane was closely associated with KIF3A+ mic

278 S) was observed in 17 eyes (56.7%), external limiting membrane was discontinued in 10 eyes (33.3%), a

279 ting membrane in the fovea, and the external limiting membrane was hyperreflective above each optical

280 Internal limiting membrane was peeled under iOCT control to preve

281 The topography of the inner limiting membrane was studied by scanning electron micro

282 segment/outer segment line and the external limiting membrane were noted as a single blurry line at

283 Nuclei above the internal limiting membrane were then counted in a masked manner.

284 All retinal layers, except the inner limiting membrane, were thinner in patients with MS comp

285 indicate that it forms part of the internal limiting membrane when the vitreous is in its attached s

286 ype birds, it localized to the retinal outer limiting membrane, where it may have a role in the inter

287 nt membranes--the lens capsule and the inner limiting membrane--whereas Bruch's membrane is largely u

288 contingent on the integrity of the organelle-limiting membrane, whose disruption induces inflammation

289 These include a glia limiting membrane with basal lamina and similar associat

290 ing membrane, vital staining of the internal limiting membrane with indocyanine green dye, and variat

291 icles released after fusion of the endosomal limiting membrane with the plasma membrane.

292 es released following fusion of the endosoma limiting membrane with the plasma membrane; however, the

293 safety and efficacy of staining of the inner limiting membrane with trypan blue.

294 ntraluminal vesicles (ILVs) to the endosomal limiting membrane, with a subsequent decrease in APP C-t

295 ane, with very low staining, to the external limiting membrane, with heavy labeling.

296 cell processes, extending from the internal limiting membrane, with very low staining, to the extern

297 fovea, extending from the inner to the outer limiting membranes, with especially high concentrations

298 s: horizontal rim area between BMO and inner limiting membrane within the BMO plane; mean minimum rim

299 ixels occupied by vessels below the internal limiting membrane within the temporal area of the optic

300 nated nerve fiber layer (1.3%), and internal limiting membrane wrinkling (1.3%).