1 P <.0001), renal (59.7% vs. 20.2%, P <.001),
ophthalmologic (
10.5% vs. 0.9%, P =.01), respiratory (24
2 Ophthalmologic abnormalities have been described in pati
3 all for gestational age, and the presence of
ophthalmologic abnormalities were significantly associat
4 ental retardation, delayed motor milestones,
ophthalmologic abnormalities, constitutive achlorhydria,
5 rmalities, ocular surface pathologies, neuro-
ophthalmologic abnormalities, lens and retinal abnormali
6 e locus exhibit a wide range of auditory and
ophthalmologic abnormalities, which are similar to those
7 order characterized by severe neurologic and
ophthalmologic abnormalities.
8 rage disease characterized by neurologic and
ophthalmologic abnormalities.
9 9% (147 of 388) of the EPT children had some
ophthalmologic abnormality compared with 6.2% (18 of 290
10 A DW was successfully implemented in an
ophthalmologic academic environment to support and facil
11 he recent literature pertaining to the neuro-
ophthalmologic advances in the basal ganglia disorders (
12 Ophthalmologic analysis included a comprehensive clinica
13 Patients have mental retardation and
ophthalmologic and cerebellar defects.
14 Ophthalmologic and dental treatment was applied simultan
15 r older from the Alienor Study with complete
ophthalmologic and dietary data were included in the pre
16 Patients underwent full
ophthalmologic and electrophysiologic examinations.
17 ties of the brain and impaired neurological,
ophthalmologic and gastric function.
18 ticipants were examined with a comprehensive
ophthalmologic and general examination including the Hir
19 imbs; gastroesophageal dysfunction; cardiac,
ophthalmologic and genitourinary anomalies; hirsutism; a
20 Detailed
ophthalmologic and medical histories were assembled.
21 This correspondence of metabolic,
ophthalmologic and movement abnormalities between humans
22 me, congenital microcephaly, and devastating
ophthalmologic and neurologic developmental abnormalitie
23 eye-movement recordings in the diagnosis of
ophthalmologic and neurologic disorders and in the inves
24 All patients underwent DWI, comprehensive
ophthalmologic and neurologic examination, and diagnosti
25 The patient underwent a complete
ophthalmologic and systemic evaluation to explore possib
26 rome characterized by a distinct neurologic,
ophthalmologic,
and facial phenotype.
27 High rates of any neurologic,
ophthalmologic,
and hearing abnormalities were observed
28 High rates of any neurologic,
ophthalmologic,
and hearing abnormalities were observed
29 0s, when cocaine was first used as a topical
ophthalmologic anesthetic, many ester-and amide-based lo
30 havioral problems, structural CNS anomalies,
ophthalmologic anomalies, congenital heart defects, and
31 ectual disability, congenital malformations,
ophthalmologic anomalies, feeding difficulties, deafness
32 a with brainstem dysgenesis, and cardiac and
ophthalmologic anomalies, such as microphthalmia and cat
33 Preterm and term infants underwent an
ophthalmologic assessment (best-corrected visual acuity,
34 At 30 months' corrected age, an
ophthalmologic assessment was performed in 411 of 491 ch
35 oved care and outcomes compared with current
ophthalmologic assessment.
36 All patients underwent a comprehensive
ophthalmologic assessment.
37 controls (matched for age and sex) underwent
ophthalmologic assessments, including corneal esthesiome
38 Online PEMs on major
ophthalmologic association websites are written well abo
39 Online ophthalmologic materials from major
ophthalmologic associations should be written at an appr
40 eurologic, orthopedic, cardiac, respiratory,
ophthalmologic,
audiologic, and endocrinologic outcomes.
41 ism, and the number of outpatient visits for
ophthalmologic care during the follow-up period, stratif
42 acterize these differences to predict future
ophthalmologic care needs.
43 cation was associated with higher outpatient
ophthalmologic care utilization.
44 easure was patient utilization of outpatient
ophthalmologic care.
45 nition and treatment important components of
ophthalmologic care.
46 real-time data warehouse (DW) in an academic
ophthalmologic center to gain scientific use of increasi
47 RM over a 2-year period in a single tertiary
ophthalmologic center were reviewed.
48 ve cohort study was conducted at 17 referral
ophthalmologic centers in Europe.
49 d for iris melanoma patients from 3 regional
ophthalmologic centers referred to and treated at a sing
50 patients with iris melanoma from 3 regional
ophthalmologic centers.
51 We analyzed the natural history and
ophthalmologic characteristics of 4 persons homozygous f
52 observational study at an academic pediatric
ophthalmologic clinic with an average of 4 years of foll
53 Longitudinal
ophthalmologic clinical trials in young children require
54 All 4,203
ophthalmologic clinical trials registered on ClinicalTri
55 erefore represent a considerable workload on
ophthalmologic clinics and will continue to do so in the
56 ction of such an extended role for nurses in
ophthalmologic clinics has not earlier been investigated
57 e provider, excluding those with other major
ophthalmologic comorbidities.
58 However, the incidence of this
ophthalmologic complication resulting from gamma knife r
59 Ophthalmologic complications after preterm birth are com
60 c disorders, it is not surprising that neuro-
ophthalmologic complications are being recognized with i
61 produced by well known medications and neuro-
ophthalmologic complications produced by new medications
62 ously unreported (or rarely described) neuro-
ophthalmologic complications produced by well known medi
63 umatic, ear-nose-throat, neurocognitive, and
ophthalmologic complications.
64 verall, 21,673 participants self-reported an
ophthalmologic condition, and 12,462 had at least 1 outp
65 ve the potential to reduce risks of blinding
ophthalmologic conditions for which age is a major risk
66 All 8
ophthalmologic conditions were represented by at least 1
67 alth problems such as dental caries, anemia,
ophthalmologic conditions, and hypertension were found i
68 With regard to
ophthalmologic conditions, this study encourages that ce
69 al dominant condition, manifest a variety of
ophthalmologic conditions.
70 ure of 25 mmHg or more, or other significant
ophthalmologic conditions.
71 r the diagnosis and management of many neuro-
ophthalmologic conditions.
72 , which have expanded the knowledge of neuro-
ophthalmologic conditions.
73 s between patients and physicians for common
ophthalmologic conditions.
74 al dominant condition, manifest a variety of
ophthalmologic conditions.
75 ng clinician, including suggestions for when
ophthalmologic consultation is warranted.
76 s with positive fungal cultures referred for
ophthalmologic consultation.
77 tic multiple bilateral PEDs during a routine
ophthalmologic consultation.
78 5%), urine (22%), cerebrospinal fluid (24%),
ophthalmologic cultures (8%), and sterile sites (20%).
79 Epidemiologic and
ophthalmologic data at baseline and during follow-up of
80 Ophthalmologic data collected included visual acuity, oc
81 Retrospective medical, procedural, and
ophthalmologic data were collected, including preprocedu
82 Medical history and
ophthalmologic data were obtained from 372 patients.
83 d with increasing toxicity, however based on
ophthalmologic data, L-AmB appears to be less toxic than
84 on-based data suggested an increased risk of
ophthalmologic diagnoses in children with ASD.
85 MainOutcomeMeasurements: prevalence of an
ophthalmologic diagnosis (amblyopia, strabismus, optic n
86 The prevalence of any
ophthalmologic diagnosis considered in this study was 3.
87 The most common
ophthalmologic diagnosis was panuveitis (42.4%).
88 number of studies discuss the growing direct
ophthalmologic,
direct nonophthalmologic, and indirect c
89 Exciting new insights into treatment of
ophthalmologic disease have resulted from the applicatio
90 xamined 10 additional persons with HSAN1 for
ophthalmologic disease.
91 Any relationship between
ophthalmologic disorders and ASD is poorly understood.
92 to further clarify the relationship between
ophthalmologic disorders and autistic symptoms and sever
93 erapeutic approaches for mitochondrial-based
ophthalmologic disorders directed at optimizing mitochon
94 ed as playing a causative role in the common
ophthalmologic disorders in aging.
95 The aim of the study was the analysis of
ophthalmologic disorders in children born to mothers aft
96 his study was to calculate the prevalence of
ophthalmologic disorders in children with ASD.
97 from the LTx, RTx, and control groups had no
ophthalmologic disorders in more than 80%.
98 Advances in the radioimaging of neuro-
ophthalmologic disorders may evolve from the clinical or
99 on is also increasingly implicated in common
ophthalmologic disorders of aging, including diabetic re
100 ethnic populations for primary mitochondrial
ophthalmologic disorders that commonly affect the optic
101 er-based devices and methods to treat common
ophthalmologic disorders, with particular emphasis on ne
102 iomarkers and therapeutic targets for common
ophthalmologic disorders.
103 d emerging therapies for mitochondrial-based
ophthalmologic disorders.
104 Ophthalmologic drug development, to date, largely relies
105 Amelioration of
ophthalmologic education in diabetic programs might take
106 entral retinal artery occlusion (CRAO) is an
ophthalmologic emergency that can result in blindness.
107 evealed inconsistent disinfection of bedside
ophthalmologic equipment and limited glove use.
108 a NICU associated with contaminated handheld
ophthalmologic equipment used during retinopathy of prem
109 utbreaks can result from use of contaminated
ophthalmologic equipment.
110 All patients underwent
ophthalmologic evaluation at 2 university teaching hospi
111 rolled in clinical trials requiring protocol
ophthalmologic evaluation at our center were reviewed.
112 sent primary intraocular lymphomas; thorough
ophthalmologic evaluation in patients with visual sympto
113 bnormalities and development of RD, complete
ophthalmologic evaluation including measurement of intra
114 ns in patients with phacomatoses makes neuro-
ophthalmologic evaluation particularly important in diag
115 At both visits, patients received a complete
ophthalmologic evaluation that included OCT.
116 nts with diagnoses of IPT underwent standard
ophthalmologic evaluation that included visual acuity te
117 who were referred from diabetes clinics for
ophthalmologic evaluation.
118 sualization broadened the scope of AS-OCT in
ophthalmologic evaluation.
119 Neuroimaging and
ophthalmologic evaluations were also performed.
120 , neurocognitive events (1.2% vs. 0.5%), and
ophthalmologic events (2.9% vs. 1.9%).
121 All subjects underwent a comprehensive
ophthalmologic examination and an evaluation of the reti
122 The patients underwent a detailed neuro-
ophthalmologic examination and computed tomography of th
123 All patients underwent complete
ophthalmologic examination and had a minimum of 6 months
124 ferring high-risk patients for comprehensive
ophthalmologic examination and in more actively particip
125 Results of
ophthalmologic examination and molecular genetic analysi
126 ft eye and bilateral NTG, as a result of the
ophthalmologic examination and the other findings.
127 1, 2013, and June 30, 2014, after a complete
ophthalmologic examination at a tertiary glaucoma referr
128 Children underwent
ophthalmologic examination before and after corneal graf
129 Participants underwent standardized
ophthalmologic examination for Moebius syndrome minimum
130 Detailed
ophthalmologic examination found bilateral vision 10/10,
131 Participants underwent a complete
ophthalmologic examination in addition to corneal pachym
132 ants with GA >/= 37 weeks underwent detailed
ophthalmologic examination in the age of 4-10 years and
133 es of 83 healthy patients underwent complete
ophthalmologic examination in this prospective study.
134 Ophthalmologic examination included axial length measure
135 All patients underwent a complete
ophthalmologic examination including color fundus photog
136 Patients underwent a complete
ophthalmologic examination including fluorescein angiogr
137 Each participant received a complete
ophthalmologic examination including standard automated
138 ral centers worldwide and underwent complete
ophthalmologic examination including structural OCT, OCT
139 An
ophthalmologic examination is an important part of the e
140 amage, but this is still unclear because the
ophthalmologic examination performed at 2 mo of age was
141 Review of patient demographics,
ophthalmologic examination results, and retinal imaging
142 with neurologic manifestations and abnormal
ophthalmologic examination results.
143 Ophthalmologic examination revealed macular pigment stip
144 Based on a complete
ophthalmologic examination the patient was diagnosed wit
145 Ophthalmologic examination was normal, the brain magneti
146 Ophthalmologic examination was performed before therapy
147 A complete
ophthalmologic examination was performed, including fund
148 nch, Spanish or Italian documenting detailed
ophthalmologic examination were included.
149 ut two of the patients, the results of neuro-
ophthalmologic examination were normal.
150 ial improvement of visual acuity at the last
ophthalmologic examination, 18 months after the initial
151 All patients had a full neuro-
ophthalmologic examination, a formal neurological and ne
152 case-patients (100%) had undergone a recent
ophthalmologic examination, and 54% of neonates undergoi
153 results of neuroimaging, corticosteroid use,
ophthalmologic examination, and CSF cytology.
154 Medical history,
ophthalmologic examination, and laboratory tests were pe
155 serum and cerebrospinal fluid (CSF) studies,
ophthalmologic examination, and tissue biopsy in the dia
156 are completeness of documenting the complete
ophthalmologic examination, as well as disease-specific
157 Ophthalmologic examination, B-scan ultrasonography, and
158 Ophthalmologic examination, color fundus photography, de
159 ted with a detailed medical history, dilated
ophthalmologic examination, color fundus photography, fu
160 All patients underwent a comprehensive
ophthalmologic examination, fluorescein angiography (FA)
161 ts with choroidal osteoma underwent complete
ophthalmologic examination, fundus photography, and mult
162 Detailed
ophthalmologic examination, fundus photography, fundus a
163 A complete
ophthalmologic examination, fundus photography, fundus a
164 Patients underwent a full comprehensive
ophthalmologic examination, fundus retinography, Goldman
165 The patients were submitted to a complete
ophthalmologic examination, gray-scale and Doppler ultra
166 A complete
ophthalmologic examination, including applanation tonome
167 dystrophy of the retina underwent a complete
ophthalmologic examination, including assessment of best
168 Ocular Surface Disease Index) and a complete
ophthalmologic examination, including assessment of best
169 All patients underwent a complete
ophthalmologic examination, including best-corrected vis
170 All patients underwent a complete
ophthalmologic examination, including best-corrected vis
171 All patients underwent a complete
ophthalmologic examination, including best-corrected vis
172 All patients underwent a complete
ophthalmologic examination, including best-corrected vis
173 Ophthalmologic examination, including best-corrected vis
174 e patients with dry AMD underwent a complete
ophthalmologic examination, including best-corrected vis
175 Each patient underwent a complete
ophthalmologic examination, including electro-oculogram
176 All patients underwent a complete
ophthalmologic examination, including genetic characteri
177 They also received
ophthalmologic examination, including medical history re
178 atment-naive active CSC underwent a complete
ophthalmologic examination, including swept-OCT at study
179 All participants underwent a standardized
ophthalmologic examination, including the MMDT and Heide
180 All the patients had undergone a full
ophthalmologic examination, including visual acuity, opt
181 to the Clinic of Ophthalmology for a regular
ophthalmologic examination.
182 cious optic nerve head findings for complete
ophthalmologic examination.
183 Participants underwent a complete
ophthalmologic examination.
184 th structured interviews and a comprehensive
ophthalmologic examination.
185 with SAS and 54 normal subjects) had a full
ophthalmologic examination.
186 All subjects underwent a full
ophthalmologic examination.
187 bands, or posterior pole granuloma noted on
ophthalmologic examination.
188 draft board in 2006 to 2014 who underwent an
ophthalmologic examination.
189 rmal vision screening could replace a formal
ophthalmologic examination.
190 lar surface disease were assessed on bedside
ophthalmologic examination.
191 , 10 patients from 9 families underwent full
ophthalmologic examination.
192 articipants underwent baseline and follow-up
ophthalmologic examinations 8 years apart.
193 a relatively common disease in which routine
ophthalmologic examinations are required, no formal reco
194 a relatively common disease in which routine
ophthalmologic examinations are required, no formal reco
195 All patients underwent
ophthalmologic examinations at regular intervals or as n
196 Ophthalmologic examinations included cover testing, best
197 Complete
ophthalmologic examinations including assessment of best
198 Comprehensive
ophthalmologic examinations including intraocular pressu
199 Complete
ophthalmologic examinations including optical coherence
200 Results of
ophthalmologic examinations of the patients with nonsynd
201 infants with CZS who had undergone previous
ophthalmologic examinations on March 17, 2016, and in 1
202 CT scanning may replace routine
ophthalmologic examinations to identify patients at risk
203 od between 01 January 2010 and 30 June 2012,
ophthalmologic examinations were performed in 37 childre
204 Ophthalmologic examinations were performed.
205 Ophthalmologic examinations, brain magnetic resonance im
206 adults 50 years and older underwent complete
ophthalmologic examinations, including measurement of pr
207 Each participant underwent an interview and
ophthalmologic examinations, including refraction, deter
208 All patients underwent full
ophthalmologic examinations, including visual field asse
209 A subset of participants underwent
ophthalmologic examinations.
210 cutive patients were evaluated at a tertiary
ophthalmologic facility with coincident uveitis and cuta
211 The most common neuro-
ophthalmologic finding was minimal pupillary reaction to
212 The absolute reliance on abnormal neuro-
ophthalmologic findings as signposts for particular lesi
213 Ophthalmologic findings consisted of chronic uveitis (9
214 ic corticosteroid-resistant uveitis or neuro-
ophthalmologic findings consistent with WD.
215 This study summarizes the
ophthalmologic findings from a number of studies and com
216 Various
ophthalmologic findings have been associated with trisom
217 Strabismus is one of the most common
ophthalmologic findings in children with developmental d
218 tinal vascular occlusion and the spectrum of
ophthalmologic findings in patients with established ant
219 Ophthalmologic findings included loss of limbal architec
220 Ophthalmologic findings included markedly reduced visual
221 The
ophthalmologic findings of angiolymphoid hyperplasia wit
222 The
ophthalmologic findings of the patients in this case ser
223 To establish that the intracranial and
ophthalmologic findings present in victims of abusive he
224 Ophthalmologic findings such as refractive errors, strab
225 The intracranial and
ophthalmologic findings that are characteristic of abusi
226 e purpose of this review is to outline neuro-
ophthalmologic findings that can help in diagnosis, trea
227 cases of shaken adults with intracranial and
ophthalmologic findings that resulted from repetitive ac
228 type of NMSC, number of nonperiocular NMSCs,
ophthalmologic findings, and periocular sequelae after t
229 with XP exhibit different rates of important
ophthalmologic findings, including neoplasia.
230 by more complex investigations according to
ophthalmologic findings.
231 An
ophthalmologic follow-up for Ebola-infected patients sho
232 These findings may have implications for
ophthalmologic follow-up of children and adults born ver
233 iretroviral therapy and had > or =2 years of
ophthalmologic follow-up without anti-CMV therapy or ret
234 Herein are current reviews of a variety of
ophthalmologic genetic disorders such as anophthalmia, a
235 Complete
ophthalmologic history and examination were performed.
236 Many vitreoretinal and other
ophthalmologic interventions confer considerable patient
237 r intravitreal anti-VEGF treatment, invasive
ophthalmologic interventions, and laser treatments withi
238 For
ophthalmologic interventions, in which length-of-life is
239 Potential associations between the
ophthalmologic manifestations and their physiopathology
240 Ophthalmologic manifestations of IIH such as papilledema
241 ogress made toward understanding the various
ophthalmologic manifestations of primary mitochondrial d
242 Although rare,
ophthalmologic manifestations that are rapidly recognize
243 e being actively investigated to treat these
ophthalmologic manifestations, as in Leber's hereditary
244 Online
ophthalmologic materials from major ophthalmologic assoc
245 All oral and
ophthalmologic medications were recorded.
246 ensus statement provides recommendations for
ophthalmologic monitoring, outlines treatment indication
247 Ophthalmologic morbidity among these children is common.
248 aining in the visual arts on the general and
ophthalmologic observational skills of medical students.
249 Ophthalmologic or optometric cycloplegic refraction were
250 Objectives: To investigate the
ophthalmologic outcome of a national cohort of EPT child
251 cular diseases, especially retinal and neuro-
ophthalmologic pathologic conditions.
252 A recent study of
ophthalmologic patients found a strong association betwe
253 non-hematopoietic expression of FPR1 and an
ophthalmologic phenotype.
254 s (HCMV) retinitis continues to be a chronic
ophthalmologic problem among human immunodeficiency viru
255 megalovirus (HCMV) retinitis remains a major
ophthalmologic problem worldwide.
256 In modern neonatal intensive care settings,
ophthalmologic problems continue to account for a high p
257 side-effects manifesting primarily as neuro-
ophthalmologic problems.
258 70s presented with a facial lesion after an
ophthalmologic procedure that was discovered to be a non
259 pital, but for whom we had detailed clinical
ophthalmologic records, were also included.
260 of ophthalmology at the Radboudumc (tertiary
ophthalmologic referral center) and the European Genetic
261 optical coherence tomography, at a tertiary
ophthalmologic referral center.
262 and vision disease burden should help guide
ophthalmologic research prioritization.
263 screening services put pressure on available
ophthalmologic resources in the United Kingdom.
264 es that monitor patients under conditions of
ophthalmologic routine clinical practice should be perfo
265 Ophthalmologic screening guidelines need to be defined t
266 [11.8%] of 152), but none were referred for
ophthalmologic screening, physical therapy, or nursing i
267 isk assessments are not consistently used in
ophthalmologic settings.
268 he latter is rarely recognized or treated in
ophthalmologic settings.
269 Cardiac arrhythmia and
ophthalmologic side effects occurred in 10 and nine pati
270 To better characterise this neuro-
ophthalmologic sign, 36 subjects were studied, 13 with p
271 , and retina, resulting in a wide variety of
ophthalmologic signs and symptoms.
272 , vitritis, and scotoma were the most common
ophthalmologic signs found on examination of patients wi
273 main associated clinical features, including
ophthalmologic,
skeletal, and vascular involvement, clin
274 The 2009 North American neuro-
ophthalmologic society (NANOS) conference featured MS-re
275 We report on complete
ophthalmologic,
sonographic and genetic evaluation of a
276 Preclinical
ophthalmologic studies demonstrated that aflibercept sup
277 An electronic survey was sent to 3020
ophthalmologic subspecialists belonging to the American
278 iseases, such as neoplasm and tenonitis, and
ophthalmologic surgical operations, such as some interes
279 of Blau uveitis highlight the need for close
ophthalmologic surveillance as well as a search for more
280 Our study highlights the need for
ophthalmologic surveillance of this population and suppo
281 These findings indicate the need for
ophthalmologic survey in the assessment and management o
282 years for NPR, screening of children without
ophthalmologic symptoms to identify treatment-requiring
283 olvement and that may initially present with
ophthalmologic symptoms.
284 conic aciduria (MGA) (MIM 258501) is a neuro-
ophthalmologic syndrome that consists of early-onset bil
285 d with impaired function of the auditory and
ophthalmologic systems.
286 Ophthalmologic telemedicine has the ability to provide e
287 logy-Based Eye Care Services (TECS), a novel
ophthalmologic telemedicine program.
288 Ophthalmologic telemedicine programs help to address the
289 PCO development include surgery performed by
ophthalmologic trainees and the use of hydrophilic or ot
290 ctors for visual loss, ensuring adherence to
ophthalmologic treatment and continuity of eye care, and
291 To review the newer, effective
ophthalmologic treatments for acute Stevens-Johnson synd
292 Uveal metastases are
ophthalmologic tumors that have historically been treate
293 pose was to assess differences in outpatient
ophthalmologic usage based on patient characteristics su
294 ndings demonstrate differences in outpatient
ophthalmologic utilization based on demographic and soci
295 important differences between groups in the
ophthalmologic variables.
296 unilateral involvement (p = 0.017), delayed
ophthalmologic visit (p = 0.022), initially presented wi
297 dition, and 12,462 had at least 1 outpatient
ophthalmologic visit.
298 education and risk assessment during retinal
ophthalmologic visits did not result in a reduction in H
299 y progression derived from the findings from
ophthalmologic visits; structured comparison and review
300 ico-historical Library preserves 2 series of
ophthalmologic wax models.