Project Summary A number of neuropsychiatric disorders, including psychotic spectrum disorders (PSD), have been associated with developmental changes in brain structure and function. Adolescence is a period of special importance, with alterations of synaptic pruning and myelination trajectories proposed as neural mechanisms underlying PSD. There is also a growing interest in ways that neurodevelopmental changes may be leveraged as treatment targets. Unfortunately, such efforts are limited by the technology currently available for monitoring microstructural change. Neuroimaging is ideal for investigating in-vivo developmental changes, due to its non- invasive nature. However, the measures used are often indirect, and the extent to which they are sensitive to neural microstructure is not always clear. Accordingly, the imaging methods community continues to develop increasingly sophisticated techniques to improve our estimation of tissue characteristics, but there is often substantial delay in translating new methodologies to clinical populations. One modality that has the potential to improve our understanding of brain microstructure is multishell diffusion weighted imaging (mDWI). One emerging mDWI method is neurite orientation dispersion and density imaging (NODDI), which can yield sophisticated estimates of microstructural architecture. In particular, NODDI allows estimation of three factors relevant to development: neurite orientation, reflecting dendritic density and the complexity of dendritic branching, neurite density, which is correlated with myelination, and cellular density. Although these measures are relevant to many neuropsychiatric disorders, this technique has not been broadly adopted, with little existing work using NODDI in PSD and no work in adolescent or young adult patients. This project will employ NODDI as well as standard structural grey and white matter imaging measures in a sample of healthy adolescents and adolescents with PSD (age 12-18), in order to establish the utility of NODDI as a measure of synaptic pruning and myelination. First, the degree to which NODDI measures are similar or different to standard measures of grey matter thickness and white matter integrity will be assessed. Secondly, whether NODDI measures are sensitive to differences in pruning across adolescence by comparing cross sectional age related differences between groups. And the final assessment will be whether NODDI is more or differently sensitive than standard measures by testing if it is more predictive of chronological age, functional connectivity, and patient status. If successful, this project would establish evidence that NODDI provides unique information that may be valuable for investigating neuropsychiatric disorders, and further, that the measure can detect maturational differences between diagnostic groups, which could impact how clinical researchers perform diffusion imaging moving forward. In addition to the impact on the larger clini...