Browsing by Author "Cochran, BJ"
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- ItemDetermining glucose metabolism kineticsuUsing 18F-FDG micro-PET/CT(MyJoVE Corporation., 2017-05-02) Cochran, BJ; Ryder, WJ; Parmar, A; Klaeser, K; Reilhac, A; Angelis, GI; Meikle, SR; Barter, PJ; Rye, KAThis paper describes the use of 18F-FDG and micro-PET/CT imaging to determine in vivo glucose metabolism kinetics in mice (and is transferable to rats). Impaired uptake and metabolism of glucose in multiple organ systems due to insulin resistance is a hallmark of type 2 diabetes. The ability of this technique to extract an image-derived input function from the vena cava using an iterative deconvolution method eliminates the requirement of the collection of arterial blood samples. Fitting of tissue and vena cava time activity curves to a two-tissue, three compartment model permits the estimation of kinetic micro-parameters related to the 18F-FDG uptake from the plasma to the intracellular space, the rate of transport from intracellular space to plasma and the rate of 18F-FDG phosphorylation. This methodology allows for multiple measures of glucose uptake and metabolism kinetics in the context of longitudinal studies and also provides insights into the efficacy of therapeutic interventions. © 2022 MyJoVE Corporation
- ItemIn vivo PET imaging with [18F]FDG to explain improved glucose uptake in an apolipoprotein A-I treated mouse model of diabetes(Springer Nature, 2016-05-18) Cochran, BJ; Ryder, WJ; Parmar, A; Tang, S; Reilhac, A; Arthur, A; Charil, A; Hamze, H; Barter, PJ; Kritharides, L; Meikle, SR; Grégoire, MC; Rye, KAType 2 diabetes is characterised by decreased HDL levels, as well as the level of apolipoprotein A-I (apoA-I), the main apolipoprotein of HDLs. Pharmacological elevation of HDL and apoA-I levels is associated with improved glycaemic control in patients with type 2 diabetes. This is partly due to improved glucose uptake in skeletal muscle.© 2016 Springer Nature