ライフサイエンスコーパス: refractive development

1 Red light induced a hyperopic shift in mouse refractive development.

2 us can influence both peripheral and central refractive development.

3 -resolution analysis of mouse eye growth and refractive development.

4 n interaction of genetics and environment in refractive development.

5 aminergic activity play a role in regulating refractive development.

6 ated the retina as a principal controller of refractive development.

7 assumed that signals from the fovea dominate refractive development.

8 ssessing the effects of visual experience on refractive development.

9 nd GABA(B) receptors modulate eye growth and refractive development.

10 ng a potential role for circadian rhythms in refractive development.

11 h a history of mild ROP and known courses of refractive development.

12 sual behavior patterns that may be linked to refractive development.

13 o develop novel mechanistic hypotheses about refractive development.

14 ID on chicken accommodation, eye growth, and refractive development.

15 s the view that several genes play a role in refractive development across populations.

16 Refractive development and axial dimensions were assesse

17 The effects of form deprivation on refractive development and eye growth in primates are me

18 We investigated the effects on refractive development and ocular growth of 2-zone conce

19 ual processing, retinal nAChRs may influence refractive development and ocular pathologies such as ne

20 al vision is not sufficient to ensure normal refractive development, and the fovea is not essential f

21 Refractive development, corneal power, and axial dimensi

22 ll other subjects with ROP, whose courses of refractive development had been toward emmetropia, and t

23 Hemiretinal form deprivation altered refractive development in a regionally selective manner,

24 Genes and environment interact to shape refractive development in chicks.

25 nfrared photorefraction were used to analyze refractive development in postnatal day (P)21 to P89 C57

26 fancy, the influence of astigmatism on early refractive development is unclear.

27 role of nicotinic acetylcholine receptors in refractive development is warranted.

28 heses to understand the mechanisms governing refractive development, not only in experimental animals

29 hosphate pesticide chlorpyrifos (CPF) on the refractive development of the eye were examined.

30 visual factors may influence the growth and refractive development of the human eye after puberty an

31 from the fovea are not essential for normal refractive development or the vision-induced alterations

32 ion of abnormal rod-mediated sensitivity and refractive development suggests that rod-mediated retina

33 Because of the retina's role in refractive development, this study was conducted to anal

34 nal, non-genetic heritable effects influence refractive development, using grandparental prenatal smo

35 Refractive development was assessed along the pupillary

36 Refractive development was assessed by cycloplegic retin

37 Refractive development was assessed by retinoscopy and A

38 Refractive development was assessed by retinoscopy perfo

39 Refractive development was assessed by streak retinoscop

40 Refractive development was assessed every 2 to 3 weeks b

41 More frequently, refractive development was biased toward the eye's least

42 Refractive development was measured in unmanipulated wil

43 visual conditions, only minor differences in refractive development were observed between the nob and

44 t eye or systemic conditions known to affect refractive development were recruited from four geograph