ライフサイエンスコーパス: OKN

1 OKN is driven by ON direction selective retinal ganglion

2 OKN testing may be useful as an additional, more objecti

3 (V(max)) at which subjects could maintain an OKN response.

4 Results indicate that MSE attenuates OKN gain so that OKN can be used as an objective proxy f

5 nt 2, we quantified the relationship between OKN gain (ratio of tracking eye-movement velocity to sti

6 st that V(max) in the presence of full-field OKN stimuli may provide an objective measure of VA and p

7 e results show that the activation sites for OKN studies are dependent on subject instruction which i

8 Horizontal OKN gain was uniformly reduced across gratings drifted a

9 Horizontal OKN is symmetrical in healthy adults, whereas symmetry o

10 visual stimuli were used to evoke horizontal OKN responses in 17 subjects.

11 had a statistically significant reduction in OKN responses compared to C57Bl/6 controls with both 2 d

12 red to investigate consistency of individual OKN asymmetry.

13 Look OKN areas included the culmen, parahippocampal, lingual,

14 The results reveal that look OKN generated significantly more cortical FMRI activatio

15 Specifically, voluntary look OKN involved more brain sites than stare OKN.

16 better responses for optokinetic nystagmus (OKN) and visually evoked potentials (VEPs) in one direct

17 the efficacy of using optokinetic nystagmus (OKN) as an objective measurement of vision in severely v

18 Optokinetic nystagmus (OKN) assists stabilization of the retinal image during h

19 Look optokinetic nystagmus (OKN) consists of voluntary tracking of details in a movi

20 characterize vertical optokinetic nystagmus (OKN) in normal human subjects, comparing the dynamic pro

21 ed from the reflexive optokinetic nystagmus (OKN) pattern.

22 imental conditions of optokinetic nystagmus (OKN) result in different outcomes and may not optimally

23 luntary eye movement, optokinetic nystagmus (OKN), could serve as an objective measure of visual-clar

24 th pursuit, saccades, optokinetic nystagmus (OKN), vestibulo-ocular reflex (VOR), and vergence using

25 inetic eye movements (optokinetic nystagmus [OKN]).

26 instruction on the anatomical correlates of OKN.

27 ty, specifically measuring the dependence of OKN-elicited by drifting spatial-frequency filtered nois

28 ion and recommend that FMRI investigators of OKN be cognizant of these effects.

29 VGluT3 cells in limiting the speed range of OKN.

30 ject instruction which influence the type of OKN generated.

31 Estimates of MSE based on OKN scores correlate well with estimates of MSE made usi

32 easures of MSE based on autorefraction or on OKN gain was + 0.05D (- 0.90 to + 1.01D), and the correl

33 on was assessed with a rotating optokinetic (OKN) drum at ages 13 and 18 months and neurologic phenot

34 In Experiment 1 we quantified OKN score-a measure of consistency with stimulus-directi

35 r = 0.75, P = 0.001) and for look and stare OKN (r = 0.66, P = 7.3 x 10(-5)) because of a strong cor

36 Look and stare OKN gain is strongly associated for downward moving stim

37 Horizontal and vertical look and stare OKN gains were recorded in 15 healthy volunteers (40 deg

38 Horizontal and vertical look and stare OKN symmetry was measured, and the consistency of indivi

39 Look and stare OKN were generated under identical stimulus "ON" conditi

40 sing new methods to delineate look and stare OKN.

41 n a second experiment, the symmetry of stare OKN was measured in nine volunteers varying velocity (20

42 ontal or vertical asymmetry in look or stare OKN gain for all volunteers grouped together.

43 ook OKN involved more brain sites than stare OKN.

44 tly more cortical FMRI activation than stare OKN.

45 ails in a moving visual field, whereas stare OKN is reflexive and consists of shorter slow phases of

46 ndicate that MSE attenuates OKN gain so that OKN can be used as an objective proxy for patient respon

47 Vertical OKN and saccades were recorded in 10 healthy adult subje

48 previous reports of horizontal and vertical OKN systems.

49 healthy adults, whereas symmetry of vertical OKN is controversial.

50 Although no horizontal or vertical OKN asymmetries existed for volunteers grouped together,

51 ed for volunteers grouped together, vertical OKN was characterized by idiosyncratic asymmetries that