← Back to Research Radar
Academic Publication Academic Publication

Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression

105
Citations
January 1, 2025
Published Date

Research Abstract & Technology Focus

Abstract

Background
Skeletal muscle mitochondria and capillaries are crucial for aerobic fitness, and suppressed levels are associated with chronic and age-related diseases. Currently, evidence-based exercise training recommendations to enhance these characteristics are limited. It is essential to explore how factors, such as fitness level, age, sex, and disease affect mitochondrial and capillary adaptations to different exercise stimuli.


Objectives
The main aim of this study was to compare the effects of low- or moderate intensity continuous endurance training (ET), high-intensity interval or continuous training (HIT), and sprint interval training (SIT) on changes in skeletal muscle mitochondrial content and capillarization. Secondarily, the effects on maximal oxygen consumption (VO2max), muscle fiber cross-sectional area, and fiber type proportion were investigated.


Methods
A systematic literature search was conducted in PubMed, Web of Science, and SPORTDiscus databases, with no data restrictions, up to 2 February 2022. Exercise training intervention studies of ET, HIT, and SIT were included if they had baseline and follow-up measures of at least one marker of mitochondrial content or capillarization. In total, data from 5973 participants in 353 and 131 research articles were included for the mitochondrial and capillary quantitative synthesis of this review, respectively. Additionally, measures of VO2max, muscle fiber cross-sectional area, and fiber type proportion were extracted from these studies.


Results
After adjusting for relevant covariates, such as training frequency, number of intervention weeks, and initial fitness level, percentage increases in mitochondrial content in response to exercise training increased to a similar extent with ET (23 ± 5%), HIT (27 ± 5%), and SIT (27 ± 7%) (P > 0.138), and were not influenced by age, sex, menopause, disease, or the amount of muscle mass engaged. Higher training frequencies (6 > 4 > 2 sessions/week) were associated with larger increases in mitochondrial content. Per total hour of exercise, SIT was ~ 2.3 times more efficient in increasing mitochondrial content than HIT and ~ 3.9 times more efficient than ET, while HIT was ~ 1.7 times more efficient than ET. Capillaries per fiber increased similarly with ET (15 ± 3%), HIT (13 ± 4%) and SIT (10 ± 11%) (P = 0.556) after adjustments for number of intervention weeks and initial fitness level. Capillaries per mm2 only increased after ET (13 ± 3%) and HIT (7 ± 4%), with increases being larger after ET compared with HIT and SIT (P  4 > 2 sessions/week) were associated with larger increases in VO2max. Women displayed greater percentage gains in VO2max compared with men (P = 0.008). Generally, lower initial fitness levels were associated with greater percentage improvements in mitochondrial content, capillarization, and VO2max. SIT was particularly effective in improving mitochondrial content and VO2max in the early stages of training, while ET and HIT showed slower but steady improvements over a greater number of training weeks.


Conclusions
The magnitude of change in mitochondrial content, capillarization, and VO2max to exercise training is largely determined by the initial fitness level, with greater changes observed in individuals with lower initial fitness. The ability to adapt to exercise training is maintained throughout life, irrespective of sex and presence of disease. While training load (volume × intensity) is a suitable predictor of changes in mitochondrial content and VO2max, this relationship is less clear for capillary adaptations.


Graphical Abstract
Read Full Literature

AI Semantic Synergy Context

Connecting this academic literature to real-world market discussions and products.

roipad.com › trend story
0%

I Spent 30 Days Strengthening My Feet — And It Changed How My Body Moves

Toe spacers, barefoot lifts, and the surprising link to longevity

crossref.org › academic paper
0%

Temporal dynamics of the multi-omic response to endurance exercise training

AbstractRegular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood1–3. Here, the Molecular Transducers of Physical Activit...

roipad.com › trend story
0%

The effect of plyometric training on physical performance in youth soccer players: A randomized controlled trial with maturation status as a covariate

Purpose Plyometric jump training (PJT) is an effective means of developing speed, strength, and neuromuscular parameters in youth athletes. However, the effect of PJT on performance outcomes as a f...

crossref.org › academic paper
0%

Mitochondrial dysfunction: mechanisms and advances in therapy

AbstractMitochondria, with their intricate networks of functions and information processing, are pivotal in both health regulation and disease progression. Particularly, mitochondrial dysfunctions ...

roipad.com › trend story
0%

Resistance training may boost longevity. But how much do you need?

Weight lifting and other forms of resistance training can increase bone density, lower diabetes risk and boost mental health

Frequently Asked Questions (FAQ)

Curated market intelligence mapped to this research.

What is the core focus of the research titled 'Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression'?

This literature focuses on: Abstract Background Skeletal muscle mitochondria and capillaries are crucial for aerobic fitness, and suppressed levels are associated with chronic and age-related diseases. Currently, evidence-based exercise tra...

Are there open-source GitHub repositories related to Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression?

Yes, open-source projects like karpathy/autoresearch (AI agents running research on single-GPU nanochat training automatically) are actively building upon these concepts.

Which startups are commercializing the technology behind Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression?

Products like kaizen are bringing this to market. Their focus is: Run training that adapts based on the running you do.

Are there commercial applications of 'Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression' in market news publications?

Yes, highly correlated activity was mapped. An entry titled 'I Spent 30 Days Strengthening My Feet — And It Changed How My Body Moves' discusses this: Toe spacers, barefoot lifts, and the surprising link to longevity

What other academic literature is closely related to 'Effects of Exercise Training on Mitochondrial and Capillary Growth in Human Skeletal Muscle: A Systematic Review and Meta-Regression'?

Yes, highly correlated activity was mapped. An entry titled 'Temporal dynamics of the multi-omic response to endurance exercise training' discusses this: AbstractRegular exercise promotes whole-body health and prevents disease, but the underlying molecular mechanisms are incompletely understood1–3. H...

Cite this Market Intelligence Report

Reference our AI-mapped synergy between this research and the commercial market to instantly build authority.

Commercial Realization

Startups and Open Source tools heavily associated with the concepts explored in this paper.

  • GitHub
    karpathy/autoresearch
    AI agents running research on single-GPU nanochat training automati...
  • GitHub
    WenyuChiou/awesome-agentic-ai-zh
    A structured, trilingual (繁中 / 简中 / English) learning roadmap f...
  • Product Hunt
    kaizen
    Run training that adapts based on the running you do
  • Product Hunt
    Vela
    Generate motion graphics with text. No After Effects

Associated Media Narrative