Optometry and Vision Sciences - Theses
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ItemPerceptual suppression mechanisms in healthy ageing( 2017)Healthy ageing alters contextual spatial interactions such as centre surround contrast suppression and spatial suppression of motion discrimination. However, the exact neural mechanisms that underlie age related changes to contextual spatial interactions are still elusive. The body of work reported in this thesis explored the perceptual mechanisms behind altered contextual spatial interactions in younger and older adults using psychophysical and neuroimaging methods. Experiment 1 investigated the strength of foveal centre surround contrast suppression under intraocular and interocular viewing for two stimulus durations (40 ms and 200 ms) in younger and older adults. Foveal intraocular center surround contrast suppression decreased with longer stimulus duration whereas interocular surround suppression did not, suggesting contributions from separate mechanisms to these forms of suppression. In addition, intraocular center surround contrast suppression was increased in older adults compared to younger adults; however, interocular suppression was similar in both groups. Experiment 2 studied the effect of orientation of the surround grating in relation to the orientation of the centre grating (surround orientation effect) on centre surround contrast suppression under intraocular and interocular viewing in younger and older adults. Interocular and intraocular centre surround contrast suppression showed different surround orientation effect, and older adults demonstrated unaltered levels of surround orientation effect compared to younger adults under both intraocular and interocular viewing. Experiment 3 measured Gamma Aminobutyric Acid (GABA, the principal inhibitory neurotransmitter of the adult brain) levels in visual cortex of younger and older adults using magnetic resonance spectroscopy. Visual cortical GABA levels were increased in older adults compared to younger adults. In addition, visual cortical Glx (combined estimate of glutamate - the principal excitatory neurotransmitter, and glutamine) levels were reduced in older adults compared to younger adults. Neither GABA levels nor Glx levels in visual cortex correlated with foveal centre surround contrast suppression. The final experiment of this thesis (Experiment 4) investigated the relationship between visual cortical GABA levels and performance on two visual tasks that are hypothesised to be mediated, at least in part, by GABAergic inhibition: spatial suppression of motion discrimination and binocular rivalry. Both younger and adults participated in this experiment as well. Increased visual cortical GABA levels were associated with prolonged binocular rivalry percept durations and reduced spatial suppression of motion discrimination. The experimental frameworks used in the thesis were based on our modern understanding of cortical circuits that are implicated in mediating centre surround contrast suppression, and a neuroimaging technique that could potentially link physiology with behaviour. The novel findings reported in thesis answered some of the important questions related to perceptual surround suppression in younger and older adults. The current findings suggested that healthy ageing differentially affects distinct forms of suppression arising at various levels of the visual pathway, and challenged prior assumptions regarding age related changes to GABA levels within the visual cortex and its association with centre surround contrast suppression and spatial suppression of motion discrimination.
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ItemPerceptual centre-surround processing in older adults( 2012)The aim of this thesis was to investigate the effects of perceptual centre-surround suppression in older adults. It has previously been shown that older adults show increased contrast-contrast surround suppression for textured centre-surround stimuli. As the amount of centre-surround suppression is known to depend on stimulus parameters such as contrast, orientation and size, the purpose of the current experiments was to use a variety of stimulus parameters in order to assess under which conditions older observers demonstrate increased surround suppression compared to younger adults. Two groups of adult observers one young and one old participated in centre-surround contrast matching tasks. Experiment 1 aimed to investigate border cues between centre and surround stimuli. Surround suppression was measured when centre and surround were presented in-phase and when they were presented out-of-phase. Older observers produced greater amounts of suppression for both conditions when compared to younger observers indicating that the phase information at the border is not responsible for the increases in surround suppression. Additionally, Experiment 1 revealed that increases in surround suppression cannot be attributed to decreased contrast sensitivity of the older groups. Experiment 2 aimed to investigate surround suppression in older observers for drifting stimuli. Observers performed the contrast-contrast task as well as a motion discrimination task which has also been used to measure perceptual centre-surround suppression. Consistent with Experiment 1, older observers showed increased surround suppression for the contrast-contrast task, however performed similarly to younger observers for the motion discrimination task implying that the two tasks involve different mechanisms. Finally, Experiment 3 investigated the contrast ratios between the centre and surround. Results revealed that older adults showed increased surround suppression when contrasts were low, more specifically when centre contrast was low. When centre-surround contrasts were high (80/80%), younger and older observers performed similarly. The findings of this thesis demonstrate that perceptual contrast surround suppression is strengthened in older adults when compared to younger observers for a variety of stimulus conditions. The findings of Experiment 3 provide a possible explanation for the differences found between analogous perceptual tasks (contrast vs. motion tasks), with results enabling some inferences regarding neurophysiological mechanisms responsible for the age-related differences. Additionally, the results presented herein suggest that a series of perceptual tasks are needed in order to measure the balance of excitation and inhibition within the human visual system.