Derek C. Macallan scite author profile

Derek C. Macallan

3Publications

219Citation Statements Received

38Citation Statements Given

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185

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St George’s University Hospitals NHS Foundation Trust, St George's, University of London, St George's Hospital

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Whole Body Protein Metabolism in Human Pulmonary Tuberculosis and Undernutrition: Evidence for Anabolic Block in Tuberculosis

Macallan

McNurlan

Kurpad

et al. 1998

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1. Differing patterns of protein metabolism are seen in wasting due to undernutrition and wasting due to chronic infection. 2. We investigated whole body energy and protein metabolism in nine subjects with pulmonary tuberculosis, six undernourished subjects (body mass index < 18.5 kg/m2) and seven control subjects from an Indian population. Fasting subjects were infused with L-[1-13C]leucine (2.3 mumol.h-1.kg-1) for 8 h, 4 h fasted then 4 h fed. Leucine kinetics were derived from 13C-enrichment of leucine and alpha-ketoisocaproic acid in plasma and CO2 in breath. 3. Undernourished subjects, but not tuberculosis subjects, had higher rates of whole body protein turnover per unit lean body mass than controls [163.1 +/- 9.4 and 148.6 +/- 14.6 mumol compared with 142.8 +/- 14.7 mumol leucine/h per kg, based on alpha-ketoisocaproic acid enrichment (P = 0.039)]. 4. In response to feeding, protein oxidation increased in all groups. Tuberculosis subjects had the highest fed rates of oxidation (47.0 +/- 10.5 compared with 37.1 +/- 5.4 mumol.h-1.kg-1 in controls), resulting in a less positive net protein balance in the fed phase (controls, 39.7 +/- 6.2; undernourished subjects, 29.2 +/- 10.6; tuberculosis subjects, 24.5 +/- 9.3; P = 0.010). Thus fed-phase tuberculosis subjects oxidized a greater proportion of leucine flux (33.2%) than either of the other groups (controls, 24.0%; undernourished subjects, 24.0%; P = 0.017). 5. Tuberculosis did not increase fasting whole body protein turnover but impaired the anabolic response to feeding compared with control and undernourished subjects. Such 'anabolic block' may contribute to wasting in tuberculosis and may represent the mechanism by which some inflammatory states remain refractory to nutrition support.

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Whole-body protein turnover from leucine kinetics and the response to nutrition in human immunodeficiency virus infection

Macallan

McNurlan

Milne

et al. 1995

The American Journal of Clinical Nutrition

106

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Whole-body protein metabolism was investigated in human immunodeficiency virus (HIV) infection by primed constant infusion of L-[1-13C]leucine in 8 control and 22 HIV-infected subjects (8 stage II; 14 stage IV disease), in postabsorptive and fed states. Postabsorptive leucine flux was increased 25% in subjects with stage IV HiV infection vs that in control subjects (130 +/- 13 vs 103 +/- 10 mumol leucine.kg-1.h-1, P < 0.001); both leucine disposal by protein synthesis (111.6 +/- 12.1 vs 82.3 +/- 9.2, P < 0.001) and release by protein degradation (129.7 +/- 13.1 vs 103.4 +/- 10.2, P < 0.001) were increased. No difference in leucine balance or oxidation was found but fat oxidation was greater in subjects with HIV infection (61.1 +/- 13.0% of energy) than in control subjects (47.6 +/- 13.7% of energy, P < 0.025). Stage II subjects had intermediate values of leucine flux, not significantly different from those of control subjects. Provision of parenteral nutrition for 4 h increased leucine flux with a switch in leucine balance from net loss to net gain; this response was quantitatively similar in all groups. HIV infection increases whole-body protein turnover but does not quantitatively impair the acute anabolic response to intravenous nutrition.

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IgG Seroconversion and Pathophysiology in Severe Acute Respiratory Syndrome Coronavirus 2 Infection

Staines¹,

Kirwan²,

Clark³

et al. 2021

Emerg. Infect. Dis.

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Derek C. Macallan

Whole Body Protein Metabolism in Human Pulmonary Tuberculosis and Undernutrition: Evidence for Anabolic Block in Tuberculosis

Whole-body protein turnover from leucine kinetics and the response to nutrition in human immunodeficiency virus infection

IgG Seroconversion and Pathophysiology in Severe Acute Respiratory Syndrome Coronavirus 2 Infection

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