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1 almic practitioners to protect the patient's cornea.
2 ible for maintaining the transparency of the cornea.
3 s from central and limbal explants of murine cornea.
4 and the unique cellular architecture of the cornea.
5 HA increased nerve regeneration in the mouse cornea.
6 itis followed by re-establishment of a clear cornea.
7 ed by local CD4(+) T cell depletion from the cornea.
8 n of the nervous system and can occur in the cornea.
9 e would position a strain well to infect the cornea.
10 s and gammadelta T-cells) recruitment to the cornea.
11 did not result in added toxic effects to the cornea.
12 restoring normal rhythmicity in the diabetic cornea.
13 of ciliary neurotrophic factor (CNTF) in the cornea.
14 pression was also observed in the human MECD cornea.
15 ensity of nerve endings at the center of the cornea.
16 andidate genes using the human and zebrafish cornea.
17 ored the altered rhythmicity in the diabetic cornea.
18 the intracranial dura but not facial skin or cornea.
19 Furthermore, WNT7B is expressed in the human cornea.
20 approach is demonstrated in ex-vivo porcine cornea.
21 eaker wound electric signals than the normal cornea.
22 may reflect biomechanical differences of the cornea.
23 5% of iTregs converting into ex-Tregs in the cornea.
24 tivation, that fosters axon outgrowth in the cornea.
25 o the slow IgG diffusion rate in the healthy cornea.
26 king sites in skin, bone, tendon, aorta, and cornea.
27 c T cell-mediated inflammatory lesion in the cornea.
28 the relative En/DM thickening to the entire cornea.
29 , and characterize slow cycling cells in the cornea.
30 ection did not influence chemokine levels in cornea.
31 limbal regions of normal and diabetic human corneas.
32 h adherent bacteria in superficially-injured corneas.
33 al keratoplasty (DSAEK) using imported donor corneas.
34 ded to differentiate subclinical from normal corneas.
35 unwounded eyes compared with vehicle-treated corneas.
36 vity was seen in ex vivo cultures of porcine corneas.
37 nd Sri Lanka exported large numbers of donor corneas.
38 neration was also delayed in the DC-depleted corneas.
39 ients with keratoconus compared with healthy corneas.
40 neration and retarded regeneration in normal corneas.
41 differentiating forme fruste KC from normal corneas.
42 ber of intraepithelial DCs in unwounded (UW) corneas.
43 yes with diseased, scarred, and postsurgical corneas.
44 d faster egress of macrophages from inflamed corneas.
45 helial toxic effects were measured in stored corneas.
46 vices in differentiating normal from ectatic corneas.
47 performing keratoplasty with imported donor corneas.
48 and proliferation was studied on forty-eight corneas.
49 tively differentiate keratoconus from normal corneas.
50 pacities occurring secondarily in post-DSAEK corneas.
51 neutrophil infiltration in diabetic wounded corneas.
52 an-induced endothelial damage occurred in 59 corneas (0.2%) but was not associated with the presence
53 related families had typical signs of GCD on corneas; 5 patients from 5 unrelated families had atypic
62 educed myeloid and T-cell populations in the cornea and did not affect viral contents at 4 and 8 days
64 b that was upregulated in limbus vs. central cornea and in diabetic vs. normal limbus also showed sig
65 Pax and Six genes incorporate into the lens, cornea and iris, and the eye placode is the sole source
67 vision by providing nutritive support to the cornea and lens, and by maintaining intraocular pressure
68 ll as higher TIMP2 expression in the central cornea and nasal sclera (Mann-Whitney tests, both p </=
69 atics transiently and selectively invade the cornea and regulate the resolution of corneal edema.
70 matrix organization, at five regions of the cornea and sclera in chickens developing high myopia and
72 ten leads to neurotrophic ulcerations in the cornea and skin; however, the underlying cellular mechan
74 ion reduction changes were restricted to the cornea and the anterior chamber, where they caused profo
76 e avian retina unidirectionally, through the cornea and the lens, and is often partially polarized.
77 ition alters the circadian rhythm in a mouse cornea and whether insulin can synchronise the corneal c
78 try, and Scheimpflug topography in 47 normal corneas and 23 keratoconic corneas from November 2014 to
80 ined from the anterior stroma of human donor corneas and decellularized with a sodium dodecyl sulfate
82 eased Ki-67 staining in human organ-cultured corneas and proliferation rate in cultured corneal epith
84 abetes altered the normal rhythmicity of the cornea, and insulin administration had a beneficial effe
85 evealed CPAMD8 expression in the lens, iris, cornea, and retina early in development, including stron
86 cells, the recruitment of leukocytes to the cornea, and the expression of main core clock genes (Clo
87 nly 70% of eyes with post-refractive surgery corneas, and (2) astigmatism accuracy within 0.5 D is ac
88 edly upregulated in inflamed human and mouse corneas, and galectin-8 inhibitors reduce inflammatory l
89 the outer coats of these abnormal eyeballs, cornea anteriorly and sclera posteriorly, are regulated
92 density remained reduced relative to healthy corneas at final follow-up (mean reduction, 8.5 mm/mm2 [
97 When differentiating subclinical from normal corneas, BAD-D was similar to the surface regularity ind
100 showed that the epithelium of healthy mouse corneas becomes vulnerable to Pseudomonas aeruginosa adh
103 t membrane (DM) was still in situ across the cornea (both of these eyes had required rebubbling); and
105 the eyes and spread a film of tears over the cornea, but also on several socio-emotional factors.
106 eally suited for controlled drug delivery to cornea, but incorporation of any drug loaded particulate
107 splayed similar GalNAz labeling to wild-type corneas, but labeling was reduced and patchy on IL-1 rec
111 nds-exert potent antifibrotic effects in the cornea by blocking phosphorylation of p38 mitogen-activa
112 transplant technology promise to repair the cornea by implanting healthy LSCs to encourage regenerat
115 hment of tolerogenic APCs (tolAPCs) in donor corneas can enhance graft survival in corneal allograft
116 previously found that UVB irradiation of the cornea caused the imbalance between the antioxidant and
117 nal study in comprehensive ophthalmology and cornea clinics at an academic institution among a conven
118 is type 1 (MPS1) patients, over 95% manifest cornea clouding with about 50% progressing to blindness.
122 crimal functional unit (LFU), comprising the cornea, conjunctiva, lacrimal gland and interconnecting
125 Transplantation of these tolAPC-enriched corneas decreased frequencies of interferon gamma (IFNga
126 usceptible to infection whereas the cultured corneas demonstrate a higher ability to restrict the inf
135 nsity and suitability for transplantation in cornea donors with type 1 or 2 diabetes and determine th
136 nsity and suitability for transplantation in cornea donors with type 1 or 2 diabetes and determine th
140 biomechanical and topographic changes of the cornea during pregnancy and the postpartum period and it
141 centration 0.5 ppm wt/vol, applied on rabbit corneas during UVB irradiation and healing (UVB doses 1.
142 supplementation and the control condition; 4 corneas each received the different amphotericin B conce
143 ath to refrigeration and preservation of the cornea, endothelial cell count, lens status, medical and
144 of 6 porcine eyes, 4 regions were obtained: cornea, equatorial and posterior sclera, and posterior p
145 tralization retarded reinnervation in normal corneas, exogenous CNTF accelerated nerve regeneration i
146 tal Fc receptor (FcRn) is upregulated in the cornea following infection or injury concomitant with in
147 eliminates the need for reaching the central cornea for successful pneumatic dissection and substanti
148 findings demonstrate that PS protects human cornea from hyperosmolarity-induced inflammation and oxi
153 s (C, n = 264), were compared to keratoconic corneas, further categorized as forme fruste (FFKc, n =
154 though placement of gamma-irradiated sterile cornea (GISC) as a patch graft over the tube is commonly
155 ratively visual outcomes following cataract, cornea, glaucoma, strabismus and oculoplastics procedure
156 e IOL calculation errors in eyes with normal corneas, greater difficulties in measuring corneal power
157 The tonometer tip cracks can irritate the cornea, harbor microbes, or allow disinfectants to enter
158 e organoids share features of the developing cornea, harboring three distinct cell types with express
164 vectors persisted only in the trauma-induced corneas; however, a neutralizing antibody response to th
165 fering RNA-mediated knockdown of FcRn in the cornea impeded protection against ocular HSV-1 challenge
167 ially expressed miRNAs in limbus vs. central cornea in normal and diabetic (DM) corneas including bot
168 ), a corneal disease that slowly deforms the cornea in young people; and sequellae of infectious kera
169 gatus hyphal growth in vitro and in infected corneas in a murine model of fungal keratitis; however,
171 g confocal microscopy of immunostained whole corneas in which cells and their interrelationships rema
172 se achieved in Western series using domestic corneas in which fresher tissues were available for tran
173 . central cornea in normal and diabetic (DM) corneas including both type 1 (T1DM/IDDM) and type 2 (T2
183 eruginosa adhesion to MyD88(-/-) and blotted corneas is not due to reduction in total surface glycosy
184 eatment labeled the surface of healthy mouse corneas, leaving most cells viable, and bacteria prefere
186 owever, it is important to know that central cornea may provide an alternative source of stem cells w
187 (Heidelberg Retina Tomograph 3 with Rostock Cornea Module; Heidelberg Engineering, Heidelberg, Germa
188 ral sensitization, and a group with abnormal cornea morphology parameters without and with signs of c
189 n a subgroup analysis: one group with normal cornea morphology without and with signs of central sens
190 tably, lymphatics are also detectable in the cornea of a patient with acute edema due to spontaneous
192 ratin expression profile was observed in the cornea of mutant mice, confirmed by western blot, RNA-se
193 the morphology of small nerve fibers of the cornea of patients with fibromyalgia in terms of density
195 y the third week of transplantation, whereas corneas of control rabbits remained significantly thicke
196 ccelerated nerve regeneration in the wounded corneas of diabetic mice and healthy animals, in which D
197 increased and remained elevated in inflamed corneas of IL-10(-/-) mice, indicating that IL-10 defici
200 phages are the predominant infiltrate in the corneas of mice that have been ocularly infected with he
202 otected C57BL/6 (B6) mice, but not in TG and corneas of nonprotected CXCL10(-/-) or CXCR3(-/-) defici
203 greater crossing angles were observed in the corneas of patients with keratoconus compared with healt
206 al nerve density of 10.3 (5.6) mm/mm2 in the corneas of patients with stage 1 or 2 keratoconus was re
207 CR3(+) CD8(+) T cells was detected in TG and corneas of protected C57BL/6 (B6) mice, but not in TG an
210 Neutrophils were found in the peripheral cornea on day 1 after infection and then declined, follo
212 ultures of multiple epithelia, including the cornea, oral and lingual epithelia, salivary gland, esop
213 s in a blinding inflammatory reaction in the cornea, orchestrated mainly by proinflammatory CD4 T cel
215 ulture modeling of diseases can benefit from cornea organoids that include multiple corneal cell type
218 cutive DSAEK procedures using imported donor corneas performed at a single university-based hospital
219 ard protocol group compared with 50.7% clear corneas pre-OP and a minimum of 40.8% in the accelerated
220 keratoplasty (DSAEK) is independent of donor cornea preservation time (PT) could increase the pool of
221 -90 years], 60.8% women, 93.0% white) in the Cornea Preservation Time Study that had not experienced
222 yes of 769 participants were included in the Cornea Preservation Time Study that had not experienced
223 thelial keratoplasty is similar across donor cornea preservation times (PTs) could increase the donor
224 reserved 8 to 14 days was similar to that of corneas preserved 7 days or less with respect to the pre
225 to conclude that the success rate with donor corneas preserved 8 to 14 days was similar to that of co
227 vibrating probe to demonstrate that diabetic corneas produced significantly weaker wound electric sig
228 es (P = 0.03 and P = 0.04, respectively) and cornea (protein; P = 0.04) of HR compared with low-risk
236 how the CXCL10/CXCR3 pathway affects TG- and cornea-resident CD8(+) T cell responses to recurrent ocu
237 tes reduces DC populations in UW and wounded corneas, resulting in decreased CNTF and impaired sensor
238 ticles entered the cells of the conjunctiva, cornea, retina, and sclera after subconjunctival deliver
239 dissected eye tissues from the conjunctiva, cornea, retina, and sclera were performed to determine t
240 netrating keratoplasty at Wills Eye Hospital Cornea Service between 2007 and 2015 were reviewed.
242 s of the ROP children also exhibited steeper corneas, shallower anterior chamber depths, thicker lens
243 MiR-10b transfected human organ-cultured corneas showed downregulation of PAX6 and DKK1 and upreg
245 in TGFbeta-stimulated in vitro primary human cornea stromal fibroblasts (pHCSFs) and in vivo in a pho
246 confused with infections of the superficial cornea, such as herpes simplex virus keratitis or Acanth
247 n, but not their activation from the skin or cornea, suggesting a potential explanation for selectivi
248 The greatest concern about the use of donor corneas supplied by foreign eye banks is the effect of t
249 esquamation; an irregular, poorly lubricated cornea surface; and exposure and sensitization of epithe
250 In conclusion, we uncovered here an active cornea-TG axis, driven by PEDF-R activation, that foster
251 to initiate an inflammatory reaction in the cornea that leads to tissue damage and loss of vision.
254 the inner stromal structure of a live mouse cornea, the fine structures inside the mouse pinna, and
255 erve density of 21.0 (4.2) mm/mm2 in healthy corneas, the mean (SD) preoperative subbasal nerve densi
256 en the virus was actively replicating in the cornea, they increased around 2-fold during the time whe
259 ion, especially pertaining to eyes with thin corneas, to not place reliance on GAT readings, and aban
260 r PK (405) for FED and BK from the Singapore Cornea Transplant Registry performed from 1991 to 2011.
263 , cells that had migrated toward the central cornea underwent a transient fibrotic endothelial-mesenc
264 change of a disc of full-thickness recipient cornea (up to the DSAEK stromal surface),7.0 mm in diame
265 e and thickness measurements over the entire cornea using the Zernike method based on the Pentacam HR
266 ring infection of ex vivo and in vivo rabbit corneas using multiphoton fluorescence and second harmon
267 Over 1.5 million individuals suffer from cornea vascularization due to genetic and/or environment
268 5/101 (54.5%) girls and 62/131 (47.3%) boys: cornea verticillata in 53/101 (52.5%) girls and 55/131 (
271 mmune response throughout the eye, including cornea, vitreous humor, and retina, suggesting a coordin
273 Cs and neutrophils infiltrating the infected corneas was significantly higher in NK1R(-/-) than C57BL
274 s acute and severe fluid accumulation in the cornea, we show that lymphatics transiently and selectiv
278 In a separate safety study, 12 pairs of corneas were divided between amphotericin B supplementat
279 65, control CRF 11.03 +/- 1.72, P = .01) and corneas were flatter in Marfan syndrome (Marfan syndrome
284 th accelerated CXL, significantly more clear corneas were seen at three (p = 0.015) and six (p = 0.00
287 ution of mouse CESCs is different from human cornea, where limbal stem cell concept has been well est
288 ties and increased magnetization transfer in cornea, whereas glyceraldehyde also increased magnetizat
289 -1) sets off an inflammatory reaction in the cornea which leads to both virus clearance and chronic l
290 te safe and efficient IDUA delivery to human corneas, which may prevent and potentially reverse MPS1-
291 ive and nitrosative stress in UVB irradiated corneas, which may represent a novel prophylactic approa
292 lution with enhancers and by irradiating the cornea with a 10 mW/cm(2) ultraviolet A device for 9 min
293 s can detect a single-photon incident on the cornea with a probability significantly above chance.
294 ratoplasty with random assignment of a donor cornea with a PT of 7 days or less (0-7d PT) or 8 to 14
296 e first postoperative year, suggesting donor corneas with donor age down to 17 years as safe donor ti
299 atial measurements illustrated that diabetic cornea wound currents at the wound edge but not wound ce
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