Alcántara Alcántara, Juan Manuel

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https://academica-e.unavarra.es/handle/2454/51594

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Alcántara Alcántara

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Juan Manuel

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Ciencias de la Salud

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0000-0002-8842-374X

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1173629

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812411

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2020 - 20212
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Author: Ruiz, Jonatan R. × Subject: Energy expenditure ×

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Now showing 1 - 2 of 2
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    PublicationOpen Access
    Energy expenditure and macronutrient oxidation in response to an individualized nonshivering cooling protocol
    (Wiley, 2020) Sánchez Delgado, Guillermo; Alcántara Alcántara, Juan Manuel; Acosta, Francisco M.; Martínez Téllez, Borja; Amaro Gahete, Francisco J.; Merchán Ramírez, Elisa; Löf, Marie; Labayen Goñi, Idoia; Ravussin, Eric; Ruiz, Jonatan R.; Institute on Innovation and Sustainable Development in Food Chain - ISFOOD
    Objective This study aimed to describe the energy expenditure (EE) and macronutrient oxidation response to an individualized nonshivering cold exposure in young healthy adults. Methods Two different groups of 44 (study 1: 22.1 [SD 2.1] years old, 25.6 [SD 5.2] kg/m(2), 34% men) and 13 young healthy adults (study 2: 25.6 [SD 3.0] years old, 23.6 [SD 2.4] kg/m(2), 54% men) participated in this study. Resting metabolic rate (RMR) and macronutrient oxidation rates were measured by indirect calorimetry under fasting conditions in a warm environment (for 30 minutes) and in mild cold conditions (for 65 minutes, with the individual wearing a water-perfused cooling vest set at an individualized temperature adjusted to the individual's shivering threshold). Results In study 1, EE increased in the initial stage of cold exposure and remained stable for the whole cold exposure (P < 0.001). Mean cold-induced thermogenesis (9.56 +/- 7.9 kcal/h) was 13.9% +/- 11.6% of the RMR (range: -14.8% to 39.9% of the RMR). Carbohydrate oxidation decreased during the first 30 minutes of the cold exposure and later recovered up to the baseline values (P < 0.01) in parallel to opposite changes in fat oxidation (P < 0.01). Results were replicated in study 2. Conclusions A 1-hour mild cold exposure individually adjusted to elicit maximum nonshivering thermogenesis induces a very modest increase in EE and a shift of macronutrient oxidation that may underlie a shift in thermogenic tissue activity.
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    PublicationOpen Access
    Deciphering the constrained total energy expenditure model in humans by associating accelerometer-measured physical activity from wrist and hip
    (Nature Research, 2021) Fernández-Verdejo, Rodrigo; Alcántara Alcántara, Juan Manuel; Galgani, José E.; Acosta, Francisco M.; Migueles, Jairo H.; Amaro Gahete, Francisco J.; Labayen Goñi, Idoia; Ortega, Francisco B.; Ruiz, Jonatan R.; Osasun Zientziak; Institute on Innovation and Sustainable Development in Food Chain - ISFOOD; Ciencias de la Salud
    The constrained total energy expenditure (TEE) model posits that progressive increases in physical activity (PA) lead to increases in TEE; but after certain PA threshold, TEE plateaus. Then, a compensatory reduction in the expenditure of non-essential activities constrains the TEE. We hypothesized that high PA levels as locomotion associate with a compensatory attenuation in arm movements. We included 209 adults (64% females, mean [SD] age 32.1 [15.0] years) and 105 children (40% females, age 10.0 [1.1] years). Subjects wore, simultaneously, one accelerometer in the non-dominant wrist and another in the hip for ≥ 4 days. We analyzed the association between wrist-measured (arm movements plus locomotion) and hip-measured PA (locomotion). We also analyzed how the capacity to dissociate arm movements from locomotion influences total PA. In adults, the association between wrist-measured and hip-measured PA was better described by a quadratic than a linear model (Quadratic-R2 = 0.54 vs. Linear-R2 = 0.52; P = 0.003). Above the 80th percentile of hip-measured PA, wrist-measured PA plateaued. In children, there was no evidence that a quadratic model fitted the association between wrist-measured and hip-measured PA better than a linear model (R2 = 0.58 in both models, P = 0.25). In adults and children, those with the highest capacity to dissociate arm movements from locomotion—i.e. higher arm movements for a given locomotion—reached the highest total PA. We conclude that, in adults, elevated locomotion associates with a compensatory reduction in arm movements (probably non-essential fidgeting) that partially explains the constrained TEE model. Subjects with the lowest arm compensation reach the highest total PA.