Browsing by Author "Kinabo, J. L."

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    Evaluation of fatty acid and mineral content of Tanzanian seeds and oils
    (ELSEVIER) Jumbe, T. J.; Li, W.; Kinabo, J. L.; Fenton, J. I.; Adjepong, M.; Pickens, C. A; Valentini, K.
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    Nutritional quality and utilization of local and improved cowpea varieties in some Regions in Tanzania
    (African Journal of Food Agriculuture Nutrition and Development) Mamiro, P. S.; Mbwaga, A. M.; Mamiro, D. P.; Mwanri, A. W.; Kinabo, J. L.
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    Thermic effect of food in man: effect of meal composition, and energy content
    (British Journal of Nutrition) Kinabo, J. L.; Durnin, J. V. G. A
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    Thermic effect of food in man: effect of meal composition, and energy content
    (British Journal of Nutrition, 1990-02) Kinabo, J. L.; Durnin, J. V. G. A
    The effect of meal composition and energy content on the thermic effect of food (TEF) was investigated in sixteen adult, non-obese female subjects. Each subject consumed four different test meals, each meal on a different day. Meals were of high-carbohydrate-low-fat (HCLF) with 0.70, 0.19 and 0.11 of the energy content from carbohydrate, fat and protein respectively, and low-carbohydrate-high-fat (LCHF) with 0.24, 0.65 and 0.11 of the energy content from carbohydrate, fat and protein respectively. The energy contents of the test meals for each composition were 2520 k J (600 kcal) and 5040 k J (1200 kcal). The basal metabolic rate (BMR) and the postprandial metabolic rate (PP-MR) were measured by open-circuit indirect calorimetry using the Douglas bag technique while the subjects were in the supine position. The mean BMR value was 3.63 (SE 0.07) kJ/min (087 kcal/min (SE 0.017)). The 5 h-TEF value for the 2520 k J (600 kcal) HCLF meal was 228 (SE 11.8) k J (54 kcal (SE 2%)) and for the LCHF meal was 228 (SE 9.6) k J (54 kcal (SE 2.3)). The corresponding values for the 5040 k J (1200 kcal) meals were 356 (SE 20.4) k J (85 kcal (SE 4.9)) and 340 (SE 15%) k J (81 kcal (SE 3.8)). There was no significant (P = 049) effect of meal composition on TEF, but the energy content of the meals had a significant (P < 0,001) effect on TEF. In all subjects and for all meals, PP-MR had not returned to premeal level 5 h after a meal, indicating that the TEF values measured underestimate total TEF. The present study suggests that TEF is significantly influenced by the energy content of a meal but not by meal composition.