Please use this identifier to cite or link to this item: http://hdl.handle.net/2440/98162
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dc.contributor.advisorSemmler, John Gregory-
dc.contributor.advisorRidding, Michael Charles-
dc.contributor.authorOpie, George McKenzie-
dc.date.issued2015-
dc.identifier.urihttp://hdl.handle.net/2440/98162-
dc.description.abstractWithin the primary motor cortex, the activity of local GABAergic interneurons is important in the generation of graded and specific patterns of muscle activation. This intracortical inhibitory tone is therefore an essential aspect of fine motor function. For this reason, abnormal inhibitory tone has often been investigated as a potential contributing factor in situations of altered motor control, such as is seen in healthy older adults. However, despite extensive investigation, studies assessing age-related changes in intracortical inhibition have produced inconsistent findings. The purpose of this thesis was to characterise how the ageing process affects intracortical inhibition, and to identify functional consequences of age-related changes in inhibitory tone. This was achieved by applying single-, paired- and triple-pulse transcranial magnetic stimulation (TMS) in young and old adults under a number of different conditions. In Chapters 2 and 3, the effects of age-related changes in corticospinal input/output properties on comparisons of short- (SICI) and long-interval intracortical inhibition (LICI) between young and old subjects was assessed. This study found that differences in corticospinal recruitment mainly affect age-related comparisons of inhibition during voluntary activation, with comparisons during relaxation mostly unaffected. Furthermore, significant reductions in post-synaptic GABAʙ-mediated inhibition were also observed in old adults. Subsequently, by investigating interactions between LICI and SICI, Chapters 4 and 5 assessed if these changes in GABAʙ-mediated inhibition involved the activity of pre-synaptic receptors. Furthermore, the modulation of SICI, LICI and LICI-SICI interactions during simple (abduction) and complex (precision grip) motor tasks was also compared between young and old subjects. These studies found age-related changes in both pre- and post- synaptic GABAʙ-mediated inhibition, as well as a reduced task-dependent modulation of intracortical inhibition in old adults. In the final experimental chapter (Chapter 6), the modulation of SICI and LICI in young and old adults was investigated during slow shortening and lengthening contractions of a hand muscle controlling the index finger, the performance of which is known to be impaired by ageing. While both groups showed disinhibition during movement, this was significantly greater in old adults for both SICI and LICI. Furthermore, disinhibition of SICI varied between contraction phases for young (but not old) adults, whereas disinhibition of LICI varied between contraction phases for old (but not young) adults. These findings suggest that old adults modulate GABAergic inhibition differently during movement. However, if and how this altered inhibitory modulation contributes to age-related motor deficits during movement remains unclear. This thesis has provided novel insights into the effects of age on GABAergic intracortical inhibition within primary motor cortex, some of which may contribute to the motor deficiencies that are commonly observed in healthy older adults. Furthermore, our findings have established several lines of investigation for future research, including some with the potential to produce positive clinical outcomes in older individuals. However, our results also demonstrate the need for an increased understanding of the functional relationship between TMS measures of inhibitory neurotransmission and motor output.en
dc.subjectageingen
dc.subjectmotor functionen
dc.subjectbrain functionen
dc.subjectTMSen
dc.subjectGABAen
dc.subjectmotor controlen
dc.subjectintracortical inhibitionen
dc.subjectcorticospinal systemen
dc.titleInvestigating intracortical inhibitory mechanisms contributing to age-related deficits in motor functionen
dc.typeThesesen
dc.contributor.schoolSchool of Medicineen
dc.provenanceThis electronic version is made publicly available by the University of Adelaide in accordance with its open access policy for student theses. Copyright in this thesis remains with the author. This thesis may incorporate third party material which has been used by the author pursuant to Fair Dealing exceptions. If you are the owner of any included third party copyright material you wish to be removed from this electronic version, please complete the take down form located at: http://www.adelaide.edu.au/legalsen
dc.description.dissertationThesis (Ph.D.) (Research by Publication) -- University of Adelaide, School of Medicine, 2015.en
Appears in Collections:Research Theses

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