Motricidade (Apr 2024)

Combined Exercise Training, Body Composition, Glucose and Insulin Metabolism in Sedentary Workers

  • Fernanda Silva,
  • Pedro Duarte-Mendes,
  • Ana M. Teixeira,
  • Carlos Farinha,
  • Carlos M. Soares,
  • José Pedro Ferreira

DOI
https://doi.org/10.6063/motricidade.31647
Journal volume & issue
Vol. 20, no. S1

Abstract

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Sedentary behaviour (SB) and physical inactivity are two major risk factors for obesity, insulin resistance, type 2 diabetes, and cardiovascular disease development (Davies et al., 2018). Effective stress-reducing interventions, such as regular exercise, are essential to prevent the harmful impact of SB on metabolic outcomes (Pedersen, 2017). We aimed to analyse the effects of a combined training program on body composition, blood pressure (BP), and glucose and insulin metabolism markers in non-diabetic sedentary workers and to assess the associations between the changes promoted by the exercise intervention and the different variables studied. This is a single-blinded two-arm randomised controlled trial. Thirty-six participants (53.7±6.9 years old; BMI: 27.2±3.9 kg/m2) underwent 16 weeks of combined exercise training [CET (n=18), resistance (6-15 reps at 45-90% 1RM) and aerobic exercise (60-95% HRmax)], 3 times/week, 75 min/session, or a control group (n=18). Body composition, blood pressure (BP), and fasting blood samples were taken pre- and post-intervention. Body composition was determined by bioimpedance (Inbody 270, USA). Blood pressure was measured using an automated oscillometric cuff (NBP-24 NG, USA). Fasting glucose and insulin were analysed using standard enzymatic assays (Atellica CH Analyzer, USA) and ELISA (Crystal Chem, USA), respectively. Plasma HbA1c level was determined by the Ion-exchange HPLC method (Tosoh Bioscience, California). The homeostatic model assessment of insulin resistance (HOMA-IR) was calculated as (glucose x insulin/22.5). The CET group significantly decreased BMI, waist circumference, fat mass, visceral adipose tissue, and increased muscle mass after the exercise intervention (p0.05). Bivariate correlations showed a significant positive correlation between the change (D) in systolic BP and D HOMA-IR index (r=0.475, p=0.046). Our results suggest that a combined training program could be an effective strategy to improve body composition and maintain normal glucose and insulin metabolism, preventing the development of metabolic disorders as well as the vascular dysfunction associated with the insulin resistance phenotype.