Sauna and Health: Systematic Review with ☸️SAIMSARA.

• Generated: 2025-10-12 17:27:52 CEST
• Plan: Premium (expanded craft tokens; source: Europe PMC)
• Source: Europe PMC
• Scope: All fields
• Keyword Gate: Fuzzy (≥60% of required terms, minimum 2 terms matched in title/abstract)
• Total Abstracts/Papers: 2917
• Downloaded Abstracts/Papers: 2917
• Included original Abstracts/Papers: 520
• Total study participants (naïve ΣN): 228632

• Cardiovascular Health and Mortality: Frequent sauna use (4-7 sessions/week) is associated with reduced risk of SCD [154], CVD mortality [142], and incident hypertension [160]. It may also mitigate mortality risk associated with elevated systolic blood pressure [26].
• Respiratory and Neurological Health: Frequent sauna bathing is linked to a reduced risk of pneumonia [155], acute and chronic respiratory conditions [161], and dementia and Alzheimer's disease [167].
• Metabolic and Inflammatory Markers: Sauna bathing can influence metabolic parameters, with some studies showing improvements in blood pressure [48, 148, 156], arterial stiffness [148, 156], and C-reactive protein levels [157]. However, a single session did not improve glucose handling in type 2 diabetes [14].
• Athletic Performance and Recovery: Sauna use post-exercise may attenuate performance drops [37] and improve power output [30], although adding it to exercise routines may not further improve heart rate variability [3]. Heat acclimation via sauna can enhance heat tolerance and exercise performance in athletes [99, 163].
• Mental Health and Well-being: Sauna bathing can improve mood parameters [17], reduce perceived fatigue [37], and is associated with higher levels of happiness and energy [9]. It may also lead to a more efficient brain state, with increased theta and alpha brain activity [20, 27].
• Weight Management and Body Composition: Sauna use is a common method for weight cutting in athletes [13, 43, 61, 113, 114, 127, 245, 272, 273, 306, 356, 364, 394], but it can lead to significant body mass loss and dehydration [45, 228]. Repeated sauna use can induce physiological changes that intensify with successive treatments [141].
• Detoxification and Toxin Excretion: Sauna-induced sweating has been investigated for its potential to eliminate toxins and heavy metals [281, 379, 380, 391], with some studies showing higher ion concentrations in sweat from sauna use [38].

• Regular sauna use may be a beneficial lifestyle intervention for improving cardiovascular health and reducing the risk of several chronic diseases.
• Individuals with existing cardiovascular conditions or hypertension should consult healthcare providers before frequent sauna use, given the acute hemodynamic alterations [48, 148, 156].
• Athletes may benefit from sauna use for heat acclimation and performance enhancement, but caution is advised regarding hydration and potential overtraining [37, 99, 163].
• Sauna bathing appears safe for young men regardless of body fat levels [41], but individuals with type 2 diabetes should note that a single session did not improve glucose handling [14].
• The practice of rapid weight loss using saunas in combat sports necessitates careful supervision due to risks of dehydration and potential health consequences [13, 272, 273].

• Longitudinal effects on specific populations: The long-term cardiovascular and metabolic effects of regular sauna use in specific clinical populations (e.g., those with type 2 diabetes, coronary artery disease) require further detailed investigation [14, 21, 146, 265].
• Mechanisms of neuroprotection: The precise mechanisms by which frequent sauna bathing may reduce the risk of dementia and Alzheimer's disease warrant further exploration [162, 167].
• Optimal frequency and duration: While associations between frequency and health benefits are noted, optimal sauna bathing protocols (frequency, duration, temperature) for various health outcomes remain to be precisely defined.
• Impact on specific inflammatory markers: Further research is needed to clarify the consistent impact of sauna use on various inflammatory markers and their long-term implications [106, 157, 169].
• Sex-specific responses: While some studies explore sex differences in physiological responses to heat [6, 78, 82], more research is needed to understand sex-specific health benefits and risks associated with sauna use.

• Observational Data: Many studies rely on observational data, limiting the ability to establish causality due to potential confounding factors.
• Heterogeneity of Protocols: Studies vary significantly in sauna type, temperature, duration, and frequency, making direct comparisons challenging.
• Self-Reported Data: Reliance on self-reported data for health behaviors and outcomes can introduce recall bias.
• Generalizability: Some studies focus on specific populations (e.g., Finnish men, firefighters, athletes), limiting the generalizability of findings to broader populations.
• Lack of Long-term Follow-up: Many studies have short follow-up periods, hindering the assessment of long-term health impacts.

• RCTs for specific conditions: Conduct RCTs to investigate the efficacy of sauna therapy for managing hypertension, type 2 diabetes, and improving cardiovascular function in specific patient groups.
• Mechanistic studies: Elucidate the molecular and physiological mechanisms underlying the observed health benefits, particularly for neuroprotection and cardiovascular adaptation.
• Standardized protocols: Develop and utilize standardized sauna protocols across studies to improve comparability and reproducibility of results.
• Sex-specific research: Conduct more research to understand potential sex-specific differences in physiological responses and health outcomes related to sauna use.
• Longitudinal studies on diverse populations: Initiate long-term cohort studies with diverse populations to further investigate the associations between frequent sauna bathing and chronic disease risk.