Scientific Reports (Dec 2022)

Superior cardiometabolic and cellular adaptive responses to multiple versus single daily sessions of high-intensity interval training in Wistar rats

  • Bruno Ferreira Mendes,
  • Liliane Vanessa Costa-Pereira,
  • Júllia Alves de Andrade,
  • Caíque Olegário Diniz Magalhães,
  • Ramona Ramalho Souza de Pereira,
  • Elizabethe Adriana Esteves,
  • Ricardo Cardoso Cassilhas,
  • Eric Francelino Andrade,
  • Fernando Gripp,
  • Flávio Castro de Magalhães,
  • Kinulpe Honorato Sampaio,
  • Fabiano Trigueiro Amorim,
  • Marco Fabrício Dias-Peixoto

DOI
https://doi.org/10.1038/s41598-022-24906-y
Journal volume & issue
Vol. 12, no. 1
pp. 1 – 12

Abstract

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Abstract This study aimed to compare in rats the cardiometabolic and cellular adaptative responses to 8 weeks of high-intensity interval training (HIIT) performed in a single (1xHIIT) or three shorter daily sessions (3xHIIT). Male Wistar rats were assigned to untrained (n = 10), 1xHIIT (n = 10), and 3xHIIT (n = 10) groups. Both HIIT groups performed 15 min of a treadmill run five times per week for 8 weeks. The 1xHIIT performed single daily sessions of 15 min, and the 3xHIIT performed three daily sessions of 5 min with an interval of 4 h between sessions. Resting VO2 and VO2max were measured using a metabolic chamber; blood pressure and heart rate were measured by plethysmography; body composition was estimated by DEXA; Glucose and insulin tolerance tests were performed; after euthanasia, hearts, gastrocnemius, and visceral fat were harvested for analysis of cardiac function, histology, and morphology. Mitochondrial densities of the gastrocnemius and left ventricle muscles were determined by electron microscopy. 3xHIIT induced similar positive adaptative responses to 1xHIIT on resting VO2 and VO2max, cardiac function, and mitochondria density. 3xHIIT was superior to 1xHIIT in reducing visceral fat weight and adipocyte size and improving insulin tolerance. Multiple short daily bouts of HIIT may be superior to single HIIT daily sessions in improving cardiometabolic and cellular adaptations in rats.