ライフサイエンスコーパス: binocular vision

1 in individuals with and without disorders of binocular vision.

2 Diagnosis of a disorder of binocular vision.

3 yes, likely a key step in the development of binocular vision.

4 e claims for beneficiaries with disorders of binocular vision.

5 ms in the mouse, we utilised the geometry of binocular vision.

6 s to a change in the developmental timing of binocular vision.

7 l geniculate nucleus (dLGN), are crucial for binocular vision.

8 ntralaterally to establish the circuitry for binocular vision.

9 ask, in human adults long deprived of normal binocular vision.

10 by animal species that lack highly developed binocular vision.

11 ncrossed projections, a pattern critical for binocular vision.

12 ensitivity in the amblyopic eye and abnormal binocular vision.

13 on about scale from both distance walked and binocular vision.

14 c fixation, severe initial amblyopia, and no binocular vision.

15 ered a few hours after restoration of normal binocular vision.

16 iod alter the cortical circuits that support binocular vision.

17 ralateral brain visual centers, critical for binocular vision.

18 nocular deprivation: reverse deprivation and binocular vision.

19 uences for visuomotor processing of removing binocular vision.

20 e two eyes on cortical mechanisms underlying binocular vision [1, 2], and experience's impact on this

21 of experience-dependent brain development is binocular vision, also called stereopsis.

22 these children at age 5 had no demonstrable binocular vision and 28.2% had visual acuity of 0.3 (log

23 developing visual cortex can cause impaired binocular vision and amblyopia.

24 OR) for the association between disorders of binocular vision and any of the 3 injury types was 2.23

25 set of connections following restoration of binocular vision and provide new insight into how recove

26 e been studied extensively in the context of binocular vision and rivalry [1], but it remains unknown

27 better results, allowing the development of binocular vision and stereopsis and reducing the inciden

28 Disorders of binocular vision are increasingly prevalent among fee-fo

29 toperative outcomes indicate improvements in binocular vision at far, intermediate, and near distance

30 in the visual cortex that reduce acuity and binocular vision by causing neurons to lose responsivene

31 This genetic hierarchy controls binocular vision by regulating the magnitude and source

32 de that some human adults deprived of normal binocular vision can recover stereopsis at least partial

33 near visual symptoms in children with normal binocular vision compared with symptoms caused by prefer

34 (BiS), or improvement in visual acuity using binocular vision compared with the better eye alone, is

35 This study examines whether brief periods of binocular vision could preserve stereopsis in monkeys re

36 e six monkeys wore prisms but had 2 hours of binocular vision daily, one for 4, one for 6, and two fo

37 The results demonstrate that early binocular vision development in monkeys is not constrain

38 To resolve this fundamental issue in binocular vision development, we measured the responsive

39 sodes of abnormal vision will cause abnormal binocular vision development.

40 ia and as an outcome measure for recovery of binocular vision following therapy.

41 ctions, and in revealing the independence of binocular vision from eye movements.

42 Medicare beneficiaries with a disorder of binocular vision have significantly higher odds of susta

43 te hemisphere, a pattern critical for proper binocular vision, have not been identified.

44 Binocular vision in amblyopes is often disrupted by inte

45 eopening of plasticity in the adult restores binocular vision in amblyopic mice.

46 nsitivity) showed only slight differences in binocular vision in favour of the expedited-surgery grou

47 thfinding, development events fundamental to binocular vision in the adult animal.

48 ical and psychophysical studies confirm that binocular vision is crucial for the accurate planning an

49 Development or restoration of binocular vision is one of the key goals of strabismus m

50 y of rivalry provides the mechanism by which binocular vision is optimized for viewing natural images

51 uidance at the midline and for analyzing how binocular vision is patterned.

52 One of the fundamental challenges of binocular vision is that objects project to different po

53 Binocular vision is traditionally treated as two process

54 enomena, which indicate that a wider view of binocular vision is warranted.

55 Two hours of daily binocular vision largely preserves local and global ster

56 n stereo blindness, whereas daily periods of binocular vision limited the reduction to a twofold loss

57 Electrophysiological evidence indicates that binocular vision may be particularly important for the v

58 (up to 60 degrees ), suggesting that extreme binocular vision may facilitate tool use.

59 isual deprivation persists for days, even if binocular vision precedes monocular deprivation.

60 Daily periods of binocular vision preserved stereopsis over 16 weeks of o

61 One article this year discusses binocular vision recovery in bilateral keratoplasty and

62 Mammalian binocular vision relies on the divergence of retinal gan

63 Functional binocular vision requires that inputs arising from the t

64 Binocular vision requires us to match up the different v

65 onkeys treated for 4 weeks, daily periods of binocular vision rescued stereopsis from the 10-fold red

66 In animals with binocular vision, retinal ganglion cell (RGC) axons eith

67 In animals with binocular vision, retinal ganglion cell (RGC) axons from

68 orn), the initial severity of the amblyopia, binocular vision status, fixation of the amblyopic eye,

69 initial severity of amblyopia, fixation, and binocular vision status; treatment factors: refractive a

70 5 (4.5%) had at least 1 reported disorder of binocular vision (strabismus, 2.3%; diplopia, 2.2%; ambl

71 has examined the influence that disorders of binocular vision (strabismus, amblyopia, diplopia, and n

72 Albinos usually have such poor binocular vision that they perform very poorly on clinic

73 cent study provides compelling evidence that binocular vision uses two separate channels; one channel

74 f cortical binocularity after restoration of binocular vision was similarly unaffected by HSV-mCREB t

75 practice, 100 children aged 9-18 with normal binocular vision were recruited to receive either the or

76 Patients with binocular vision will be sensitive to diplopia in any ga