ライフサイエンスコーパス: visual field defect

1 e, arm, or leg weakness, speech disturbance, visual field defect).

2 n after taking into account the magnitude of visual field defect.

3 l rim thinning, RNFL loss, and corresponding visual field defect.

4 ide a more representative view of the actual visual field defect.

5 for some of the impairments caused by their visual field defect.

6 e spatial extent and absolute sensitivity of visual field defects.

7 s that may be useful in spatially localizing visual field defects.

8 ng the infusion air may reduce postoperative visual field defects.

9 y, and pupillary defect were associated with visual field defects.

10 hich corresponds to subjective and objective visual field defects.

11 ic stimuli are insensitive for demonstrating visual field defects.

12 such as FF120 may be useful for detection of visual field defects.

13 diction with a significantly reduced risk of visual field defects.

14 t pupillary defects, optic nerve pallor, and visual field defects.

15 rge role in the rehabilitation of homonymous visual field defects.

16 ations in the AH than did patients with mild visual field defects.

17 effects cause headache, hypopituitarism, and visual field defects.

18 judged the similarity and the extent of the visual field defects.

19 sual field asymmetry and summary measures of visual field defects.

20 64%), pale optic discs (65% versus 27%) and visual field defects (72% versus 30%) could be observed

21 r-old woman had left eye RAO and a bilateral visual field defect after CaHA injection into the glabel

22 Glaucoma was defined by visual field defect alone.

23 This allowed change in one pattern of visual field defect (along one axis) to be assessed rela

24 The discrepancy between the visual field defect and the optic nerve head morphology,

25 There was no correlation between visual field defect and TLCPD, IOP, or ICP and in any bo

26 pathy; 70% of CRD showed absolute peripheral visual field defects and 37% of CD developed rod involve

27 lateral visual loss, but extensive bilateral visual field defects and bilateral optic nerve head swel

28 SAP measures of visual field defects and OCT measures of RNFL defects ar

29 Associations between global visual field defects and predictors were examined.

30 -adapted ERGs of macaque monkeys with severe visual field defects and substantial retinal ganglion ce

31 ograms (ERGs) of macaque monkeys with severe visual field defects and substantial retinal ganglion ce

32 on cells (RGCs) in glaucoma are the cause of visual field defects and thinning of the retinal nerve f

33 After significant visual field defects and/or typical clinical glaucomatou

34 ted with unexplained loss of central vision, visual field defects, and/or photopsia were diagnosed wi

35 Although glaucomatous visual field defects are more common in the superior fie

36 drugs and the mechanisms that lead to these visual field defects are uncertain.

37 ted glaucoma, vertical cup-to-disc ratio and visual field defects as found on frequency doubling tech

38 29 eyes with open angle glaucoma and visual field defects, as well as 20 eyes of 10 age-match

39 a at earlier ages, sometimes with associated visual field defects at normal intraocular pressures.

40 % CI, 70%-91%) when only absolute peripheral visual field defects at standard conventional perimetry

41 ss appears to be necessary before functional visual field defects become detectable.

42 Age, gender, body mass index, severity of visual field defect, best-corrected visual acuity, and S

43 d early (35%) or moderate (31%) glaucomatous visual field defects, but 134 subjects (33%) had advance

44 btained from rhesus monkeys with significant visual field defects caused by experimental glaucoma.

45 Visual field defects caused by glaucoma can be improved

46 n acute unilateral decrease in vision, (2) a visual field defect consistent with NAION, (3) a relativ

47 The visual field defect demonstrated bilateral enlarged blin

48 Subjects with severe visual field defects demonstrated the greatest odds of d

49 Subjects with severe visual field defects demonstrated the greatest odds of d

50 visually impaired by symptomatic paracentral visual field defects despite a normal VA.

51 Use of steroids, headaches, and visual field defects did not differ by dose or seizure r

52 two groups according to location of initial visual field defect (either paracentral or peripheral).

53 diation who present with sudden or transient visual field defects, even in the absence of other conve

54 Patients with homonymous visual field defects experience disabling functional imp

55 visual acuity (BCVA), fundus abnormalities, visual field defects, ffERG changes, and presence of ant

56 Visual field defects gradually resolved and visual acuit

57 After significant visual field defects had developed, the retinas were col

58 Subjects with greater severity of visual field defects had greater difficulty with vision-

59 Subjects with severe visual field defects had greater odds of worrying about

60 Patients with severe visual field defects had higher IL-8 concentrations in t

61 en the clear negative effect that homonymous visual field defect has on patients' lives, these therap

62 n approaches to rehabilitation of homonymous visual field defect have been pursued in recent years an

63 ut procedures to quantify neural losses from visual field defects have not been developed.

64 on SD OCT B-scan in all and a corresponding visual field defect in 83%.

65 ms not be as efficient as the HVF in finding visual field defects in glaucoma subjects, and is theref

66 To investigate the prevalence of visual field defects in glaucomatous eyes, glaucoma susp

67 ificity similar to that of CAP for detecting visual field defects in patients with optic neuropathies

68 otentially associated with early paracentral visual field defects in primary open-angle glaucoma pati

69 requent in the U.S. POAG patients with early visual field defects in the paracentral regions compared

70 rity were defined based on visual acuity and visual fields defects in the worse eye.

71 tatus; the proportion of subjects with worse visual field defects increased with worsening myopia sev

72 nt, volunteers were randomized to 1 of the 3 visual field defects listed above.

73 Visual field defects may be detected more often by FDT a

74 o screen out patients in whom progression of visual field defects may be due to diffuse loss from cat

75 The association between myopia and visual field defects may represent an increased risk of

76 r VEP can provide an objective assessment of visual field defects not yet present on automated perime

77 rms of glaucoma are painless and symptomatic visual-field defects occur late.

78 The most frequent neurologic complication is visual field defect occurring from temporal lobe resecti

79 Visual field defects of various depths, ranging from a s

80 from 6% to 57%, at the time of the earliest visual field defect on SAP.

81 All patients had repeatable visual field defects on standard automated perimetry (SA

82 on the number of RGCs associated with early visual fields defects on SAP.

83 None of the deficits could be explained by a visual field defect or primary motor deficit.

84 ld contribute to different susceptibility to visual field defect or vascular dysfunction in the super

85 resident group had more severe preoperative visual field defects, poorer long-term postoperative vis

86 The severity of glaucomatous visual field defects ranged from early to severe (averag

87 d in 2 patients, in 1 case associated with a visual field defect reduced after discontinuation of the

88 25 of 26 (96%), and 25 of 25 (100%) had 10-2 visual field defects, respectively.

89 d 2% demonstrated mild, moderate, and severe visual field defects, respectively.

90 of the central and peripheral EVC following visual field defects specifically affecting central or p

91 (kappa = 0.54 +/- 0.08) on the presence of a visual field defect than did SAP-SITA (kappa = 0.34 +/-

92 ecause of atypical optic disc morphology and visual field defects that can mimic glaucoma.

93 teristic degeneration of the optic nerve and visual field defects that is often associated with an el

94 To be classified as a hemianopic visual field defect, the abnormal test location had to b

95 is the commonest form of acquired homonymous visual field defect; the usual causes are stroke, head i

96 e AGIS score, compared with patients with no visual field defect, those with severe defects (scores 1

97 l eye counts) was compared with the depth of visual field defect (treated to control eye thresholds)

98 Other parietal deficits included a small visual field defect, visual hallucinations, prosopagnosi

99 ents with pituitary apoplexy, improvement in visual field defects, visual acuity, and diplopia is typ

100 Partial homonymous visual field defect was detected in 80 % (8/10) of the p

101 ge RGC count estimate in the eyes with early visual field defects was 652057 +/- 115829 cells, which

102 subgroup of the glaucoma patients with early visual field defects was calculated separately.

103 Visual field defects were assessed using behavioral stat

104 Peripheral visual field defects were found in 28% (95% CI, 25%-31%)

105 t OP RMS in all locations studied, even when visual field defects were moderate (MD = -5 to -10 dB; P

106 Although some regions with visual field defects were not detected in the mVEP due t

107 Aphasia, agnosia, seizures and visual field defects were observed.

108 Repeatable 10-2 visual field defects were present in 89 of 180 subjects

109 Central/paracentral visual field defects were seen in 9 eyes.

110 Odds of any visual field defects were significantly increased in mil

111 les (such as strabismus, pale optic disc and visual field defects) were compared.

112 test is a valuable tool to detect peripheral visual field defects when standard conventional perimetr

113 A partial arcuate visual field defect with an enlarged blind spot was the

114 c was classified as symptomatic if it showed visual field defects with a mean deviation (MD) of P < 2

115 metry) and 189 subjects without glaucoma (no visual field defects with healthy-appearing optic disc a

116 with glaucoma (defined as having repeatable visual field defects with standard automated perimetry)

117 ymptoms, may have mild acuity loss, and have visual field defects, with predominantly arcuate loss an

118 ts with RP who had acuity > or =20/32 and no visual field defects within 6 degrees from the fovea.