ライフサイエンスコーパス: emmetropization

1 and whether there is evidence of meridional emmetropization.

2 Foveal ablations had no apparent effect on emmetropization.

3 ible for form deprivation myopia and perhaps emmetropization.

4 rror were consistent with a visual basis for emmetropization.

5 o examine the impact of peripheral vision on emmetropization.

6 ither appeared to play a significant role in emmetropization.

7 that visual signals from the fovea dominate emmetropization.

8 e implications of albinism in the context of emmetropization.

9 that better motor and sensory fusion promote emmetropization.

10 than other children, suggesting a failure of emmetropization.

11 l regulation of axial growth associated with emmetropization.

12 es suggesting that lenses may interfere with emmetropization.

13 f how these three parameters interact during emmetropization.

14 in reducing strabismus and amblyopia, impede emmetropization?

15 ed and supporting the use of ID as a tool in emmetropization and myopia studies.

16 e spent on different visual tasks can affect emmetropization and refractive error development.

17 suggest that the mechanisms responsible for emmetropization are insensitive to stimulus orientation

18 ese findings in a non-human primate model of emmetropization are similar to those described in other

19 e profile of the subjects is consistent with emmetropization being impaired in albinism.

20 rome do not follow the expected trend toward emmetropization during infancy and early childhood.

21 ent of children with INS demonstrated little emmetropization during the first 8 years of life.

22 compensation and therefore probably not for emmetropization either.

23 Spectral composition affects emmetropization in both humans and animal models.

24 was whether early WTR astigmatism influences emmetropization in children with INS and whether there i

25 ror with age were consistent with meridional emmetropization in children with INS and WTR astigmatism

26 ntinuous light exposure on ocular growth and emmetropization in infant monkeys.

27 Form deprivation by diffusers disrupted emmetropization in marmosets over a range of ages.

28 n to determine the effects of astigmatism on emmetropization in monkeys.

29 sence of significant amounts of astigmatism, emmetropization is directed toward one of the two focal

30 ental period when ocular growth is rapid and emmetropization normally takes place.

31 With age, emmetropization occurred for both central and peripheral

32 ppeared to be the most influential factor in emmetropization of spherical equivalent refractive error

33 Whether either natural emmetropization or compensation for imposed spectacle le

34 intact fovea was essential for either normal emmetropization or the vision-induced myopic errors prod

35 or retinal image degradation below which the emmetropization process is not affected.

36 The role of early astigmatism in the emmetropization process is not clear.

37 ver, it is also possible that aspects of the emmetropization process may not operate as effectively u

38 , the temporal integration properties of the emmetropization process normally reduce the likelihood t

39 s in the normal-lighting group completed the emmetropization process, stabilizing at approximately (m

40 e the temporal integration properties of the emmetropization process, the authors investigated the ef

41 s may reflect operational constraints of the emmetropization process.

42 to achieve emmetropia and 2) disruptions of emmetropization resulting in myopia or hyperopia.

43 It appears that emmetropization seeks out the image plane that contains

44 Compensation may involve internal emmetropization signals that rise and become saturated d

45 lso can be explained in terms of "meridional emmetropization." The contrasting refractive profiles of

46 decode the eye's refractive error status for emmetropization warrants investigation.

47 Emmetropization was not affected by blue light, possibly

48 Emmetropization was not impacted in mice with perturbed

49 ly affected by ID in chickens, implying that emmetropization was unaffected and supporting the use of

50 Aspects of emmetropization were, however, unusual for three monkeys

51 t color vision may not be necessary in mouse emmetropization when other mechanisms are present.