Optometry and Vision Sciences - Research Publications

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Start date: 2020 × End date: 2024 × Type: Abstract ×

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    The relationship between central and mid-peripheral motion perception and the hazard perception test in younger and older adults
    Sepulveda, JA ; Wood, JM ; Lacherez, P ; Anderson, AJ ; McKendrick, AM (WILEY, 2023-09)
    INTRODUCTION: Vision standards for driving are typically based on visual acuity, despite evidence that it is a poor predictor of driving safety and performance. However, visual motion perception is potentially relevant for driving, as the vehicle and surroundings are in motion. This study explored whether tests of central and mid-peripheral motion perception better predict performance on a hazard perception test (HPT), which is related to driving performance and crash risk, than visual acuity. Additionally, we explored whether age influences these associations, as healthy ageing impairs performance on some motion sensitivity tests. METHODS: Sixty-five visually healthy drivers (35 younger, mean age: 25.5; SD 4.3 years; 30 older adults, mean age: 71.0; SD 5.4 years) underwent a computer-based HPT, plus four different motion sensitivity tests both centrally and at 15° eccentricity. Motion tests included minimum displacement to identify motion direction (Dmin ), contrast detection threshold for a drifting Gabor (motion contrast), coherence threshold for a translational global motion stimulus and direction discrimination for a biological motion stimulus in the presence of noise. RESULTS: Overall, HPT reaction times were not significantly different between age groups (p = 0.40) nor were maximum HPT reaction times (p = 0.34). HPT response time was associated with motion contrast and Dmin centrally (r = 0.30, p = 0.02 and r = 0.28, p = 0.02, respectively) and with Dmin peripherally (r = 0.34, p = 0.005); these associations were not affected by age group. There was no significant association between binocular visual acuity and HPT response times (r = 0.02, p = 0.29). CONCLUSIONS: Some measures of motion sensitivity in central and mid-peripheral vision were associated with HPT response times, whereas binocular visual acuity was not. Peripheral testing did not show an advantage over central testing for visually healthy older drivers. Our findings add to the growing body of evidence that the ability to detect small motion changes may have potential to identify unsafe road users.
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    Tyro3 is a key regulator of myelin structure and retinal function in the central nervous system
    Blades, F ; Wong, VHY ; Nguyen, CTON ; Bui, BV ; Kilpatrick, TJ ; Binder, MD (SAGE PUBLICATIONS LTD, 2020-03)
    Background: While it is evident how critical myelin is for neural signalling in the CNS, the biological processes underpinning myelination remain unknown. Previously, we have shown that the receptor tyrosine kinase, Tyro3, regulates developmental myelination and myelin thickness in the CNS. Objectives: The aim of this study was to extend on our previous data by assessing the role of Tyro3 in regulating other myelin structures such as the node of Ranvier; and to assess the effect of Tyro3 loss on axonal conductivity and retinal function. Methods: To investigate node of Ranvier microstructure, we used electron microscopy and manually assessed paranodal loops. We measured nodal and paranodal widths using fluorescent immunohistochemistry staining and ImageJ software. To investigate neural conduction velocities, we measured visual evoked potentials in vivo and compound action potentials in slice cultures. Lastly, full-field electroretinograms and optical coherence tomographies were performed to assess retinal function. All experiments were wild-type to constitutive Tyro3 KO comparisons. Results: We show that Tyro3 receptor loss results in wider nodes of Ranvier and dysregular paranodal loop attachment at nodes. KO mice did not show significant alterations to axonal conduction in visual evoked potentials but did have reduced response amplitudes in compound action potentials. Finally, we show that Tyro3 loss results in a decrease in signal output from photoreceptor, bipolar and particularly retinal ganglion cells. Conclusion: Signalling via Tyro3 is key for the attachment of paranodal loops at nodes of Ranvier. Tyro3 deficient myelin results in a decrease in neural response amplitude. Tyro3 is important for the function of photoreceptor, bipolar and retinal ganglion cells of the retina.