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1 long-term (i.e., 28 days) protection against corneal aberration and retinal injury after pilocarpine
2 and remained stable thereafter and posterior corneal aberrations changed constantly over 12 months.
3                            Environmental and corneal Acanthamoeba isolates from the American Type Cul
4  donor corneas can enhance graft survival in corneal allograft recipients with inflamed graft beds.
5 and CD4(+) cells, and significantly improved corneal allograft survival compared to saline-injected c
6                               By stimulating corneal angiogenesis with an alkali burn in Tie2-GFP flu
7 cularization, as well as models with induced corneal angiogenesis, are widely used to investigate the
8  patient with scleral-buckle-induced regular corneal astigmatism and a patient with keratoconus follo
9 laser lens surgery on anterior and posterior corneal astigmatism and total corneal refractive power (
10 e and safe method for the correction of high corneal astigmatism in complicated cases with different
11 on can be an effective method for correcting corneal astigmatism in patients with vitreoretinal disea
12                                              Corneal astigmatism J0 was different (p = 0.01) for the
13 h EL are flatter and have a higher degree of corneal astigmatism.
14                                              Corneal avascularity is critical for achieving transpare
15         Dysthyroidism may directly influence corneal biomechanics and represents a clinically relevan
16                   Hormonal changes affecting corneal biomechanics and topography during pregnancy cou
17 ry was used to analyze VEGF-R2 expression in corneal CD31 cells, and VEGF-A and IFNgamma expression i
18 cells, and VEGF-A and IFNgamma expression in corneal CD4 T cells.
19  from cornea organoids that include multiple corneal cell types and extracellular matrices.
20 ts with accelerated CXL, fewer morphological corneal changes were observed than after conventional CX
21   Outcome measures were the observed rate of corneal changes, differences between treatment groups an
22 and cytokines that persisted without loss of corneal clarity (subclinical inflammation).
23 epharospasm; increased intraocular pressure; corneal clouding at birth; and buphthalmos.
24        To evaluate the cost effectiveness of corneal collagen crosslinking (CXL) for progressive kera
25       To evaluate the safety and efficacy of corneal collagen crosslinking (CXL) for the treatment of
26 rment As opposed to corneal transplantation; corneal collagen crosslinking (CXL) is a relatively non-
27                                              Corneal collagen crosslinking affords the keratoconic pa
28                                              Corneal collagen crosslinking for progressive keratoconu
29                                              Corneal collagen crosslinking was effective in improving
30 lusion criteria were previous surgery, other corneal conditions or age above 50 years.
31                                      In vivo corneal confocal microscopy could be used in the assessm
32                      These data suggest that corneal confocal microscopy demonstrates axonal loss and
33 te riboflavin dosing intervals with standard corneal cross-linking (epithelial removal and 30-minute
34 sing iontophoresis (T-ionto CL) and standard corneal cross-linking (standard CL) for the treatment of
35 compare clinical outcomes of transepithelial corneal cross-linking using iontophoresis (T-ionto CL) a
36 ed to evaluate the effect of misalignment on corneal curvature measurements.
37 the impact of the altered anterior/posterior corneal curvature relationship.
38 relevant change in the anterior to posterior corneal curvature relationship; this needs to be taken i
39  and CATCRP, but do not affect the posterior corneal curvature significantly, as measured by Scheimpf
40 ment and repeatability of axial length (AL), corneal curvature, and anterior chamber depth measuremen
41 ues for refractive error, axial length (AL), corneal curvature, anterior chamber depth, lens thicknes
42                       The mean postoperative corneal cylinder was 1.2+/-1.0 and 1.2+/-0.8 diopters, r
43 l plugs with ocular lubricants in preventing corneal damage in mechanically ventilated and sedated cr
44 H2) is able to reduce oxidative stress after corneal damage induced by UVB irradiation.
45                                   The entire corneal data of pachymetry and elevation of both the ant
46  The Pentacam HR imaging system was used for corneal densitometry (12-mm corneal diameter) measuremen
47                                              Corneal densitometry decreased in all 4 layers over 2 ye
48          To investigate the 2-year course of corneal densitometry following Descemet membrane endothe
49                                          The corneal densitometry values were similar in all concentr
50 a powerful 3D model system for investigating corneal developmental processes and their disruptions in
51                                              Corneal diameter (CD) was measured in children undergoin
52 tem was used for corneal densitometry (12-mm corneal diameter) measurements.
53 (corneal epithelium to lens), and horizontal corneal diameter.
54 l state; on many genes, KLF7 antagonized the corneal differentiation-promoting KLF4.
55 t difference was that of more severe central corneal disease in DIF-negative patients.
56                      Mild ocular surface and corneal disease may be treated effectively with aggressi
57 age-related macular degeneration, as well as corneal diseases with abnormal angiogenesis.
58  and explains how two SNPs may contribute to corneal diseases.
59 hod may also be applicable to other heredity corneal diseases.
60 corneal dystrophy (FECD), the most prevalent corneal disorder requiring transplantation, we conducted
61    Donor tissue parameters of 84 consecutive corneal donor grafts used for big-bubble DALK surgery be
62                    The effect of diabetes on corneal donor tissue is unknown.
63 ether the 3-year rate of graft success using corneal donor tissue preserved 8 to 14 days is noninferi
64                             Fresh and frozen corneal donors offer similar clinical outcomes when used
65                   In addition, we used TGFBI corneal dystrophies as a model of autosomal dominant dis
66 K, performed primarily for Fuchs endothelial corneal dystrophy (96% of the cohort).
67 d the genetic aetiology of Fuchs endothelial corneal dystrophy (FECD), the most prevalent corneal dis
68                                     Granular corneal dystrophy (GCD) is an autosomal dominant heredit
69                            Fuchs endothelial corneal dystrophy was the fourth most common indication
70 sty (1255 eyes [94.4%] for Fuchs endothelial corneal dystrophy).
71 luding myotonic dystrophy, Fuchs endothelial corneal dystrophy, and C9orf72-ALS/FTD.
72 maximum K value, CDVA, and UDVA in eyes with corneal ectasia 1 year after treatment, with an excellen
73 agen crosslinking (CXL) for the treatment of corneal ectasia after laser refractive surgery.
74       One hundred seventy-nine subjects with corneal ectasia after previous refractive surgery.
75      Keratoconus (KC) is usually a bilateral corneal ectatic disease.
76 corneal thickness due to delayed drainage of corneal edema and a trend towards prolonged corneal opac
77 ectedly beneficial role in the regulation of corneal edema and transparency.
78 ) algorithm, the repeatability of successive corneal elevation measurements taken post-LASIK.
79 e current study, we performed in vivo rabbit corneal endothelial cell (CEC) injury via CEC scraping,
80 es of SiNPs (50, 100, and 150 nm) in a human corneal endothelial cell (HCEC) line, B4G12.
81 ly received PIOL implantation and have a low corneal endothelial cell count.
82                 Descemet's membrane supports corneal endothelial cell regeneration in rabbits after e
83                 Here, isolated primary human corneal endothelial cells (CEnCs) propagated using a dua
84                                        Human corneal endothelial cells (HCEnCs) are terminally differ
85 not induce acute significant cytotoxicity in corneal endothelial cells at concentrations up to 100 mi
86 DM) helps maintain phenotype and function of corneal endothelial cells under physiological conditions
87 vision for individuals with blindness due to corneal endothelial dysfunction.
88 ional regulatory compliant tissue-engineered corneal endothelial graft substitute can alleviate this
89                            We concluded that corneal endothelial wound healing in rabbits has differe
90  little is known about the function of DM in corneal endothelial wound healing process.
91 xpression of markers indicative of the human corneal endothelium, and can be tissue-engineered onto t
92 r fibrosis tissue did not originate from the corneal endothelium, and they maintained fibroblastic ph
93 understanding of the susceptibility of human corneal epithelial (HCE) cells to HSV-1 infection, we in
94                  Previously we reported that corneal epithelial barrier function against Pseudomonas
95 t NaNO2 (0.1 muM to 100 muM) increased human corneal epithelial cell (HCEC) viability and migration.
96 fies a role for KLF7 as a KLF4 antagonist in corneal epithelial cell differentiation, and explains ho
97  effects of 1,25(OH)2D3 and 24R,25(OH)2D3 on corneal epithelial cell proliferation, migration, and on
98 ssay and immunohistochemistry study of human corneal epithelial cells (HCECs) and human keratocytes (
99                        In VDR wildtype mouse corneal epithelial cells (WT), 1,25(OH)2D3 increased CYP
100 rived exosomes mediate communication between corneal epithelial cells and corneal keratocytes as well
101 te the effects of rapamycin on primary human corneal epithelial cells in vitro.
102                   Exosomes secreted by mouse corneal epithelial cells were found to fuse to keratocyt
103                             In human primary corneal epithelial cells, 24,25(OH)2D3 stimulated migrat
104 er, our work defines regulatory enhancers in corneal epithelial cells, highlights global gene-regulat
105 nd typical enhancers active in primary human corneal epithelial cells.
106 e a useful additive for ex vivo expansion of corneal epithelial cells.
107 d corneas and proliferation rate in cultured corneal epithelial cells.
108 mportant roles of KLF4 and KLF5 in promoting corneal epithelial differentiation.
109 re not effective in improving discomfort and corneal epithelial disease in all patients.
110 le to recover function in an animal model of corneal epithelial dysfunction after surgical transplant
111 el-like factor (KLF) motifs were enriched in corneal epithelial enhancers, consistent with the import
112  as tear clearance, goblet cells density and corneal epithelial integrity, suggesting that recruitmen
113 2 weeks, there was a significant increase in corneal epithelial nerve regeneration and substance P-po
114 ection and acheived long-term knockdown of a corneal epithelial reporter gene, demonstrating gene dis
115                                        Human Corneal epithelial stem cells (CESCs) have been identifi
116     In order to identify reliable markers of corneal epithelial stem cells, we employed an inducible
117 mycin treatment of HCEC prevents the loss of corneal epithelial stem/progenitor cells to replicative
118 ell types of the ectodermal lineage and that corneal epithelial super enhancers are already marked as
119 epresents a promising approach for xeno-free corneal epithelial tissue engineering for ocular surface
120 gulating collagen fibrillogenesis, promoting corneal epithelial wound healing, regulating gene expres
121 ike growth factor-1 are shown to promote the corneal epithelial wound healing.
122 etting and FACS sorting into a population of corneal epithelial-like progenitor cells.
123 d encoding S. pyogenes Cas9 and sgRNA to the corneal epithelium by intrastromal injection and acheive
124 inical relevance of promoting the healing of corneal epithelium debridement.
125 eneration of a functional and transplantable corneal epithelium derived from human induced pluripoten
126 ed by intracellular deposition of C3d in the corneal epithelium of vaccinated animals following chall
127 er (K), preoperative anterior chamber depth (corneal epithelium to lens), and horizontal corneal diam
128                    Specific factors from the corneal epithelium underlying the stimulation of stromal
129                            RNA-Seq data from corneal epithelium were compared to epidermal hair folli
130 he antioxidant and prooxidant enzymes in the corneal epithelium, followed by the imbalance between me
131 re localized in basal layer of entire murine corneal epithelium.
132  3-D in vitro CXL model, using primary Human corneal fibroblasts (HCFs) from healthy patients and Hum
133 ctive beta-catenin concentration in cultured corneal fibroblasts through p38 MAPK regulation of canon
134 tudy was to identify differences in clinical corneal findings after standard and accelerated epitheli
135                Seven patients presented with corneal findings ranging from superficial punctate epith
136 e clinical relevance of lymphangiogenesis in corneal fluid homeostasis.
137 s (P = .045) but not with tear breakup time, corneal fluorescein staining, or ocular medications used
138 o receive a B-KPro using a frozen or a fresh corneal graft carrier on the basis of tissue availabilit
139 erm clinical outcomes of fresh versus frozen corneal graft carriers for the Boston Keratoprosthesis t
140 ute can alleviate this reliance on cadaveric corneal graft material.
141             One hundred thirty-nine eyes (96 corneal grafts post penetrating keratoplasty or Descemet
142                                           In corneal grafts, in vivo relative thickening of the En/DM
143                                              Corneal haze was the most frequently reported CXL-relate
144 duction in both virus shedding and recurrent corneal herpetic disease.
145 and can cause potentially blinding recurrent corneal herpetic disease.
146 rus shedding in tears that trigger recurrent corneal herpetic disease.
147 , regulating gene expression and maintaining corneal homeostasis.
148 l for pump and barrier function required for corneal hydration and transparency.
149             To investigate the difference in corneal hysteresis (CH) and corneal resistance factor (C
150    All patients had undergone full-thickness corneal imaging by a LS-IVCM (Heidelberg Retina Tomograp
151 nderwent phacoemulsification with a temporal corneal incision and group B (superior group) including
152 nderwent phacoemulsification with a superior corneal incision.
153 y was to compare superior and temporal clear corneal incisions of uneventful phacoemulsification and
154            A very intriguing aspect of HSV-1 corneal infection is that the virus spread is normally r
155 hat influence immune responses to subsequent corneal infection or trauma.
156 anism that has the ability to cause blinding corneal infections following trauma and during contact l
157 the T-ionto CL group; 1 eye (8%) had sterile corneal infiltrates, which did not affect the final visu
158                                Surprisingly, corneal injury and treatment with PEDF + DHA induced tra
159 in a mouse model of diabetes with or without corneal injury.
160                                    Following corneal inoculation of mice, the mutant was not signific
161 etion, conjunctival goblet cells, epithelial corneal integrity, and reduce the pro-inflammatory cytok
162  of the eye, which on histology demonstrated corneal keloid, fibrous infiltration of the angle, ectro
163 ication between corneal epithelial cells and corneal keratocytes as well as vascular endothelial cell
164           An R124H mutation in primary human corneal keratocytes derived from a GCD2 patient was corr
165 GFBI mutation in GCD patient-derived primary corneal keratocytes via homology-directed repair (HDR).
166                                              Corneal keratometry, expressed in the form of M, J0 and
167            No differences were identified in corneal Langerhans cell density (19.84 cells/mm2 for the
168 ome measures included densitometry data in 4 corneal layers (anterior layer [AL], central layer [CL],
169                         Densitometry values (corneal light backscatter in grayscale units) measured b
170                                              Corneal light backscatter reduction was significantly hi
171        Regarding TL 0-2 mm, the reduction of corneal light backscatter was statistically significant
172 lowed for localization of these cells to the corneal limbus and their subsequent purification by FACS
173 fferential miRNA signatures of T1DM and T2DM corneal limbus harboring LESC and show that miR-10b coul
174 MS of elevation differences between anterior corneal measurements were statistically significant post
175 rficial punctate epitheliopathy to bilateral corneal melt with subsequent perforation.
176   However, outcomes remain poor secondary to corneal melting, scarring, and perforation.
177 al keratitis causes long-term changes in the corneal microenvironment that influence immune responses
178  anophthalmia, retinal dysplasia, keratitis, corneal neovascularization, cataracts, and calcification
179 mechanical drivers of angiogenesis in murine corneal neovessels.
180                                              Corneal nerve branch density and corneal nerve fiber len
181 hose with neuropathy and without neuropathy (corneal nerve branch density: 95.83/mm2 for the controls
182                                              Corneal nerve damage produced by aging, diabetes, refrac
183 questions regarding the relationship between corneal nerve density, morphology, and function.
184                                              Corneal nerve fiber density (mean [SE] difference, -6.78
185             Corneal nerve branch density and corneal nerve fiber length were reduced in patients with
186 53; 95.32% CI, -50.62 to -3.13; P = .01; and corneal nerve fiber length: 28.4 mm/mm2 for the controls
187 whether IVCCM can identify an abnormality in corneal nerve fibers and Langerhans cells in patients wi
188 ed at understanding the relationship between corneal nerve morphology and chronic disease may also ne
189 consider the effects of acute stimulation on corneal nerve morphology.
190 mbination with docosahexaenoic acid (DHA) on corneal nerve regeneration in a mouse model of diabetes
191 noic acid (DHA), has been shown to stimulate corneal nerve regeneration, but the mechanisms involved
192  Emerging technologies that allow imaging of corneal nerves in vivo are spawning questions regarding
193                  Animals were sacrificed and corneal nerves were examined using immunocytochemistry a
194 ar surface pathologies were noted, including corneal opacification, ulceration, neovascularization, a
195  corneal edema and a trend towards prolonged corneal opacification.
196 conventional imaging techniques in eyes with corneal opacification.
197 ion about the posterior segment in eyes with corneal opacification.
198                                     Cataract corneal opacities, refractive error and amblyopia, globe
199 rment due to glaucoma (0.71 [0.57-0.86]) and corneal opacity (0.54 [0.43-0.66]) were more common amon
200 n 1 patient (2%), and there were no cases of corneal opacity.
201 compared to the normal subjects, whereas the corneal pachymetry and Ambrosio relational thickness max
202                         However, neuropathic corneal pain (NCP) is currently an ill-defined disease.
203 ment (p = .975) did not significantly affect corneal parameters.
204 .28 times the odds of the patient developing corneal perforation and/or needing TPK (95% CI, 1.18-4.4
205 dentify those at highest risk for developing corneal perforation and/or needing TPK.
206 stics that predict a high risk of developing corneal perforation and/or the need to undergo therapeut
207 primary outcome of the trial was the rate of corneal perforation or the need for therapeutic penetrat
208 cuity (BSCVA), 3-month infiltrate/scar size, corneal perforation, and re-epithelialization rates stra
209 or chamber depth (ACD), lens thickness (LT), corneal power (CP), noncycloplegic subjective refraction
210 ative lens position, including axial length, corneal power (K), preoperative anterior chamber depth (
211 d 10 (16%) patients who directly underwent a corneal procedure and 24 (37.5%) patients who had endosc
212 nal procedures initially before undergoing a corneal procedure.
213 on in patients with poor prognosis for other corneal procedures.
214 9 to 15.5 years of age, with 6 being primary corneal procedures.
215 tion to decrease progression of this ectatic corneal process.
216  the Kruppel family member KLF7 promotes the corneal progenitor cell state; on many genes, KLF7 antag
217    Futhermore, correlations to biomechanical corneal properties and positional changes have not been
218 d in better prognostication and in reserving corneal reconstructive procedures for eyes with a favora
219  and posterior corneal astigmatism and total corneal refractive power (TCRP) astigmatism (CAant, CApo
220  toric intraocular lens (tIOL) or peripheral corneal relaxing incisions (PCRI) for keratometric astig
221 s when one utilizes mice as animal model for corneal research.
222 he difference in corneal hysteresis (CH) and corneal resistance factor (CRF) between Indian and Chine
223                                              Corneal resistance factor level was not associated indep
224 nanoparticles were "gulped" in conjunctival, corneal, retinal, and scleral cells, similar to the beha
225  conjunctival corkscrew vessels (P < 0.001), corneal scarring (P = 0.01) and pingueculae under the ag
226 causes of vision loss were cataract (19.7%), corneal scars (15.7%), refractive error and amblyopia (1
227                      There also was elevated corneal sensitivity and tear production in the treated c
228 iabetic mice showed significant decreases of corneal sensitivity, tear production, and epithelial sub
229 asive procedure that leads to an increase in corneal stiffness.
230 h as androgen, luteotropin, and estrogen, on corneal stroma bioenergetics.
231  all time points tested, infiltration of the corneal stroma by P. aeruginosa revealed a high degree o
232  cellular and molecular effects on the human corneal stroma post CXL, and promises to establish optim
233 and vascularized, immature APCs in the donor corneal stroma quickly mature and migrate to lymphoid ti
234 es of 84 patients with disorders of anterior corneal stroma were correlated to clinical outcome param
235 aped granular opacities are deposited in the corneal stroma.
236 lium, and can be tissue-engineered onto thin corneal stromal carriers.
237 order to evaluate the effect of CXL on human corneal stromal cells in vitro, we developed a 3-D in vi
238                         Decellularized human corneal stromal laminas transplantation seems safe and m
239 preservatives of antiglaucoma medications on corneal surface and tear function have been widely shown
240 active keratectomy in eyes with asymmetrical corneal surface and to compare such outcomes with a cont
241                                              Corneal surface glycosylation is modulated by IL-1R and
242             Here we explored their effect on corneal surface glycosylation using a metabolic label, t
243 ted to only a small fraction of cells on the corneal surface that connect with each other in a dendri
244 le (0.40 and 0.23 for anterior and posterior corneal surfaces, respectively) in different periods.
245 ), and topographic astigmatism (TA), central corneal thickness (CCT) and endothelial cell density 12
246 .0 mm diameter, lens thickness (LT), central corneal thickness (CCT) and white-to-white (WTW) distanc
247                                      Central corneal thickness (CCT) was also measured.
248 0-2 mm and peripheral zone 2-10 mm), central corneal thickness (CCT), best spectacle-corrected visual
249 cle corrected visual acuity (BSCVA), central corneal thickness (CCT), endothelial cell density (ECD)
250 cle-corrected visual acuity (BSCVA), central corneal thickness (CCT), endothelial cell density (ECD),
251 spherical equivalent refraction (D), central corneal thickness (CCT, micrometers) and endothelial cel
252 001) and a negative correlation with central corneal thickness (rs = -0.22; P = .02).
253 ical and demographic data (age, sex, central corneal thickness [CCT], intraocular pressure [IOP], ref
254  via VEGFR-3 inhibition results in increased corneal thickness due to delayed drainage of corneal ede
255 orrected distance visual acuity, and minimum corneal thickness were assessed.
256 ination to obtain axial length (AL), central corneal thickness, vitreous chamber depth (VCD), anterio
257 r chamber depth, lens thickness, and central corneal thickness.
258                        Keratoconus (KC) is a corneal thinning disorder that leads to severe vision im
259 d after 2 years owing to vascularization and corneal thinning.
260 r 12 months, there were changes in posterior corneal tilt, coma, and hexafoil in the PCRI group.
261                                        Human corneal tissue culture with 100 microg/ml concentrations
262 re incubation regimens reflective of current corneal tissue handling protocols.
263 thamoeba-endosymbiont coinfection in a human corneal tissue model representing clinical amoebic kerat
264 fect EpiCorneal cells, a 3-dimensional human corneal tissue model.
265           The role of hormones in regulating corneal tissue structure in homeostatic and pathological
266 oplasty fungal infection using corresponding corneal tissue.
267   The study aimed to characterize the entire corneal topography and tomography for the detection of s
268 alignment components on the repeatability of corneal topography maps.
269 -ionto CL, though the average improvement in corneal topography readings was slightly lower than the
270 To report a series of patients who developed corneal toxicity after exposure to aquarium coral palyto
271 re are few prior reports of coral-associated corneal toxicity and that some species of coral secrete
272             In the cornea, lumican maintains corneal transparency by regulating collagen fibrillogene
273 ents were included who had undergone a first corneal transplant for keratoconus (KC), Fuchs endotheli
274 atibility, including H-Y incompatibility, on corneal transplant graft rejection and failure.
275                      Allogeneic T cells from corneal transplant hosts promote VEC proliferation, prob
276 upports allograft survival in vivo, prevents corneal transplant rejection, and attenuates the progres
277 cal lymphangiogenesis mediates diseases like corneal transplant rejection, dry eye disease, and aller
278 stantial mismatch between need and supply of corneal transplant.
279 utine endothelial keratoplasty procedure for corneal transplantation in human patients.
280                                              Corneal transplantation is the only treatment available
281                       In recent case series, corneal transplantation revealed unexpected damage to th
282  disease progression, and the probability of corneal transplantation, graft failure, or both were cal
283        In this study, using a mouse model of corneal transplantation, we investigated whether enrichm
284                                 In high-risk corneal transplantation, where the graft bed is inflamed
285 erve as an alternative to conventional donor corneal transplantation.
286 ds to severe vision impairment As opposed to corneal transplantation; corneal collagen crosslinking (
287 een accidentally transmitted by contaminated corneal transplants.
288  measures were follow-up inquiries from 6592 corneal transplants.
289 ed under topical anesthesia after creating a corneal tunnel with a femtosecond laser.
290   The most frequent pathogens that cause the corneal ulcers are P. aeruginosa and S. aureus.
291 ients with smear-positive filamentous fungal corneal ulcers who enrolled between May 2010 and August
292 ugh MUTT II could not find a benefit for all corneal ulcers, Fusarium keratitis may benefit from the
293                        Current treatments of corneal vascularization are limited in efficacy and elic
294  To develop a safe and effective therapy for corneal vascularization, adeno-associated virus (AAV) ge
295 ithelial-derived exosomes may be involved in corneal wound healing and neovascularization, and thus,
296 omal fibrosis and myofibroblast formation in corneal wound healing have not been fully elucidated.
297 e known, the mechanism by which NO modulates corneal wound healing remains unclear.
298            In addition, PEDF+DHA accelerated corneal wound healing, selectively recruited type 2 macr
299  the effect of exogenous NO donor (NaNO2) on corneal wound healing.
300 or KA and steeper posterior KM and the total corneal Z2(-2) was low at 1 and 12 months.

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