ABSTRACT
AIM: To study the effects of the specific simulated luminous environment on the visual performance of people with different vision, so as to provide an experimental basis for revising pilots' vision standards. METHODS: A controlled randomized trial was conducted. Twenty-four volunteers were recruited and divided into four groups(1.0/1.0, 0.8/0.8, 0.6/0.6 and 0.4/0.4, decimal vision)according to right/left eye visual acuity, with six subjects in each group. Each subject was tested for static distant vision, kinetic visual acuity, color vision, depth perception error and visual search time under the simulated luminous environments of sunlight, twilight, and on-cloud, respectively, to compare changes in the impact of distinctive luminous surroundings on the visual performance indicators of human beings with different vision.RESULTS: There were main effect differences in static distant vision, kinetic visual acuity, color error, depth perception error and visual search time under different light environments(all P<0.01). The binocular static distant visual acuity, abilities of color discrimination, depth perception and visual search in simulated sunlight environment were higher than those in simulated twilight and on-cloud environments. In the 0.4/0.4 vision group, kinetic vision in simulated twilight and on-cloud environments were significantly lower than that in simulated sunlight environment(P<0.01). There were main effect differences in binocular static distant vision, kinetic visual acuity, depth perception error and visual search time among subjects with different vision(all P<0.05). Compared with 1.0/1.0 vision group, those with 0.6/0.6 and 0.4/0.4 vision had significant decrease in kinetic visual acuity, depth perception ability and visual search ability(all P<0.05). CONCLUSION: Different luminous environments have a great impact on the visual performance of people with low vision, which poses a potential threat to flight safety.
ABSTRACT
OBJECTIVE: To explore the influence of artificial luminous environment and preventive function of traditional Chinese medicine (TCM) intervention based on "Theory of yin-yang clock" on myopia. METHODS: A total of 45 New Zealand young rabbits were randomly divided into 5 groups, 9 for each group. Control group was exposed in natural light. Fluorescent group and full spectrum group were exposed in fluorescent light and full spectrum light, on which basis fluorescent TCM group and full spectrum TCM group were added with "Rizhong Yinyang Formulas", respectively. Optical parameters were measured and the influence of different lights on the serum and retinal dopamine (DA) levels as well as the retinal histopathological tissues was observed. RESULTS: The spectrum of fluorescent light mainly focused at 420-490 nm with the peak value of wavelength near 450 nm, whereas that of full spectrum was wider (400-800 nm) with the peak value near 600 nm. After 4 and 12 weeks, fluorescent group was evidently lower in serum and retinal DA levels (P<0.01), and there was no significant difference among full spectrum group, fluorescent TCM group and full spectrum TCM group (P>0.05). Histopathological observation showed that there was significant difference in pigment epithelium layer, photoreceptor and nerve fiber layer between fluorescent group and control group, but the difference among the test groups was not significant. CONCLUSIONS: Fluorescent light has certain influence on retinal histological construction and visual performance. However, TCM intervention may have some degree of protective function on retina.
ABSTRACT
OBJECTIVE@#To explore the influence of artificial luminous environment and preventive function of traditional Chinese medicine (TCM) intervention based on "Theory of yin-yang clock" on myopia.@*METHODS@#A total of 45 New Zealand young rabbits were randomly divided into 5 groups, 9 for each group. Control group was exposed in natural light. Fluorescent group and full spectrum group were exposed in fluorescent light and full spectrum light, on which basis fluorescent TCM group and full spectrum TCM group were added with "Rizhong Yinyang Formulas", respectively. Optical parameters were measured and the influence of different lights on the serum and retinal dopamine (DA) levels as well as the retinal histopathological tissues was observed.@*RESULTS@#The spectrum of fluorescent light mainly focused at 420-490 nm with the peak value of wavelength near 450 nm, whereas that of full spectrum was wider (400-800 nm) with the peak value near 600 nm. After 4 and 12 weeks, fluorescent group was evidently lower in serum and retinal DA levels (P0.05). Histopathological observation showed that there was significant difference in pigment epithelium layer, photoreceptor and nerve fiber layer between fluorescent group and control group, but the difference among the test groups was not significant.@*CONCLUSIONS@#Fluorescent light has certain influence on retinal histological construction and visual performance. However, TCM intervention may have some degree of protective function on retina.
ABSTRACT
Objective:To explore the influence of artificial luminous environment and preventive function of traditional Chinese medicine (TCM) intervention based on “Theory of yin-yang clock” on myopia.Methods:A total of 45 New Zealand young rabbits were randomly divided into 5 groups, 9 for each group. Control group was exposed in natural light. Fluorescent group and full spectrum group were exposed in fluorescent light and full spectrum light, on which basis fluorescent TCM group and full spectrum TCM group were added with “Rizhong Yinyang Formulas”, respectively. Optical parameters were measured and the influence of different lights on the serum and retinal dopamine (DA) levels as well as the retinal histopathological tissues was observed.Results: The spectrum of fluorescent light mainly focused at 420-490 nm with the peak value of wavelength near 450 nm, whereas that of full spectrum was wider (400-800 nm) with the peak value near 600 nm. After 4 and 12 weeks, fluorescent group was evidently lower in serum and retinal DA levels (P0.05). Histopathological observation showed that there was significant difference in pigment epithelium layer, photoreceptor and nerve fiber layer between fluorescent group and control group, but the difference among the test groups was not significant.Conclusions:Fluorescent light has certain influence on retinal histological construction and visual performance. However, TCM intervention may have some degree of protective function on retina.
ABSTRACT
Objective: To explore the influence of artificial luminous environment and preventive function of traditional Chinese medicine (TCM) intervention based on "Theory of yin-yang clock" on myopia. Methods: A total of 45 New Zealand young rabbits were randomly divided into 5 groups, 9 for each group. Control group was exposed in natural light. Fluorescent group and full spectrum group were exposed in fluorescent light and full spectrum light, on which basis fluorescent TCM group and full spectrum TCM group were added with "Rizhong Yinyang Formulas", respectively. Optical parameters were measured and the influence of different lights on the serum and retinal dopamine (DA) levels as well as the retinal histopathological tissues was observed. Results: The spectrum of fluorescent light mainly focused at 420-490 nm with the peak value of wavelength near 450 nm, whereas that of full spectrum was wider (400-800 nm) with the peak value near 600 nm. After 4 and 12 weeks, fluorescent group was evidently lower in serum and retinal DA levels (. P0.05). Histopathological observation showed that there was significant difference in pigment epithelium layer, photoreceptor and nerve fiber layer between fluorescent group and control group, but the difference among the test groups was not significant. Conclusions: Fluorescent light has certain influence on retinal histological construction and visual performance. However, TCM intervention may have some degree of protective function on retina.
