Frontiers in Physics (Dec 2023)

Adding the latency period to a muscle contraction model coupled to a membrane action potential model

  • Nadia Roberta Chaves Kappaun,
  • Nadia Roberta Chaves Kappaun,
  • Ana Beatriz Nogueira Rubião Graça,
  • Gabriel Benazzi Lavinas Gonçalves,
  • Rodrigo Weber dos Santos,
  • Sara Del Vecchio,
  • Flávia Souza Bastos

DOI
https://doi.org/10.3389/fphy.2023.1323542
Journal volume & issue
Vol. 11

Abstract

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Introduction: Skeletal muscle is responsible for multiple functions for maintaining energy homeostasis and daily activities. Muscle contraction is activated by nerve signals, causing calcium release and interaction with myofibrils. It is important to understand muscle behavior and its impact on medical conditions, like in the presence of some diseases and their treatment, such as cancer, which can affect muscle architecture, leading to deficits in its function. For instance, it is known that radiotherapy and chemotherapy also have effects on healthy tissues, leading to a reduction in the rate of force development and the atrophy of muscle fibers. The main aim is to reproduce the behavior of muscle contraction using a coupled model of force generation and the action potential of the cell membrane, inserting the latency period observed between action potential and force generation in the motor unit.Methods: Mathematical models for calcium dynamics and muscle contraction are described, incorporating the role of calcium ions and rates of reaction. An action potential initiates muscle contraction, as described by the Hodgkin–Huxley model. The numerical method used to solve the equations is the forward Euler method.Results and Discussion: The results show dynamic calcium release and force generation, aligning with previous research results, and the time interval between membrane excitation and force generation was accomplished. Future work should suggest simulating more motor units at the actual scale for the possibility of a comparison with real data collected from both healthy individuals and those who have undergone cancer treatment.

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