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Felipe A. Contreras Briceño
Academic Researcher


+56 9 82288153


Insitute of Health Sciences

University of O'Higgins



The Effectiveness of NIRS-Based Wearable Devices in Estimating Physical Activity Intensity in Patients with Chronic Non-Communicable Diseases: A Structured Narrative Review.


Journal article


R. Caulier-Cisterna, Andrés Vega-Moraga, Daniel Ramos-López, Felipe Contreras–Briceño
Medical Science, 2026

Semantic Scholar DOI PubMed
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APA   Click to copy
Caulier-Cisterna, R., Vega-Moraga, A., Ramos-López, D., & Contreras–Briceño, F. (2026). The Effectiveness of NIRS-Based Wearable Devices in Estimating Physical Activity Intensity in Patients with Chronic Non-Communicable Diseases: A Structured Narrative Review. Medical Science.


Chicago/Turabian   Click to copy
Caulier-Cisterna, R., Andrés Vega-Moraga, Daniel Ramos-López, and Felipe Contreras–Briceño. “The Effectiveness of NIRS-Based Wearable Devices in Estimating Physical Activity Intensity in Patients with Chronic Non-Communicable Diseases: A Structured Narrative Review.” Medical Science (2026).


MLA   Click to copy
Caulier-Cisterna, R., et al. “The Effectiveness of NIRS-Based Wearable Devices in Estimating Physical Activity Intensity in Patients with Chronic Non-Communicable Diseases: A Structured Narrative Review.” Medical Science, 2026.


BibTeX   Click to copy

@article{r2026a,
  title = {The Effectiveness of NIRS-Based Wearable Devices in Estimating Physical Activity Intensity in Patients with Chronic Non-Communicable Diseases: A Structured Narrative Review.},
  year = {2026},
  journal = {Medical Science},
  author = {Caulier-Cisterna, R. and Vega-Moraga, Andrés and Ramos-López, Daniel and Contreras–Briceño, Felipe}
}

Abstract

Background: Near-infrared spectroscopy (NIRS)-based wearable devices offer non-invasive, continuous monitoring of muscle oxygenation, providing direct microvascular and metabolic information that complements indirect indices of intensity such as heart rate and accelerometry. Their clinical applicability in chronic non-communicable diseases (NCDs) remains under active development. Methods: A structured narrative review was conducted in PubMed, Scopus, Web of Science, and IEEE Xplore (January 2010-January 2026) using pre-specified search strings combining NIRS, muscle oxygenation, SmO2, StO2, wearable, exercise intensity, ventilatory/lactate threshold, and individual chronic disease terms. Eligible studies addressed technical validation of wearable NIRS, NIRS-derived exercise intensity estimation, clinical applications in NCDs, or rehabilitation implementation. Evidence was synthesized thematically; quality of validation studies was appraised against AMSTAR-2-informed, COSMIN-informed, or Cochrane RoB-2 criteria. Results: Wearable continuous-wave NIRS shows acceptable concurrent validity with frequency-domain laboratory systems (r = 0.79; range 0.69-0.88; ±8% SmO2 agreement in 95% of measurements) and good test-retest reliability for moderate-to-severe domains (ICC 0.72-0.91). NIRS-derived breakpoints align more reliably with the second ventilatory/lactate threshold (ICC = 0.80) than with the first (ICC = 0.53), constraining its use for prescribing lower-intensity domains. In chronic obstructive pulmonary disease, peripheral arterial disease, chronic respiratory failure and selected cardiovascular conditions, wearable NIRS detects disease-specific patterns of muscle deoxygenation and post-exercise reoxygenation that track responses to rehabilitation. Conclusions: Current evidence supports wearable NIRS as a complementary, intensity-aware monitoring tool-particularly for delineating the heavy/severe-intensity boundary and detecting peripheral metabolic limitations-rather than as a stand-alone replacement for ventilatory or lactate thresholds. Because much of the evidence derives from small, single-sex or athlete-only cohorts, these findings should be regarded as a promising basis requiring further validation in broader NCD populations. Implementation in NCDs requires standardized placement and calibration protocols, sex- and body composition-stratified reference values, motion-artifact mitigation, and adequately powered longitudinal trials in clinical populations.


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