Chronic Passive Heating in Healthy Older Adults

Aging is associated with declines in cardiovascular health and cognitive function as well as chronic inflammation and the development of neurodegenerative conditions such as Alzheimer's and Parkinson's disease. Additionally, ageing results in a loss of muscle size and strength, commonly referred to as sarcopenia, leading to increased risk of falls or adverse exercise-related events. It is well understood that frequent exercise improves cardiovascular and metabolic health whilst lowering the risk of disease and all-cause mortality, acting as a treatment for many different health conditions. Despite the evidence of its efficacy, many individuals struggle with adherence to exercise programmes, particularly older adults and clinical populations, with many individuals within these populations unable to perform exercise due to physical limitations or medical contraindications. With one in six people expected to be over the age of 65 years by 2050 and corresponding increases in non-communicable diseases (e.g., cancer, diabetes, cardiovascular disease) anticipated from this aging population, the development of adjunct treatments or alternatives to exercise to improve general health in older populations is needed.

Recent work has shown that a potential solution could be the use of passive heat therapy (PHT) (e.g., hot water immersion, sauna), which can achieve health benefits comparable to exercise. Previous work by Brunt and colleagues using eight weeks of chronic heat therapy has demonstrated systemic macro- and microvascular adaptations in young, healthy individuals including improved endothelial function, reduced arterial stiffness and cutaneous vascular conductance. Chronic passive heat acclimation in young, healthy adults has also been shown to improve working memory. Additional studies have shown that ten weeks of passive heating improved muscle strength in middle-aged men and ten days of daily pulsed shortwave diathermy attenuated immobilization-induced muscle atrophy in young, healthy adults.

One potential mechanism for the physiological benefits obtained from PHT is the increase of cytoprotective heat shock proteins (HSP) (specifically HSP27, HSP60, HSP70 and HSP90) intracellularly (i) and extracellularly (e) in response to increases in deep body temperature. Increases in the expression of these HSPs have been shown to play a role in reducing inflammation and protecting the vasculature via increases in endothelial nitric oxide synthase activity. Increased HSP concentrations may also prevent the accumulation of harmful biomarkers in the brain that play a role in cognitive decline and development of neurodegenerative diseases. Aging, however, is associated with a reduction in HSP transcription activity in various tissues, resulting in an impaired heat shock response and development of a pro-inflammatory state. Previous work using acute hot water immersion has shown increases in eHSP70. The only study to test the effects of chronic hot water immersion on resting iHSP70 showed no effect, however, the magnitude of stimulus (39°C water) applied by Hoekstra and colleagues and the resultant changes in core temperature were likely too low to induce any changes in HSPs.

These studies provide promising evidence that health benefits from PHT similar to those from exercise could translate to older adults. However, most studies testing the effects of PHT on humans have been performed in young, healthy adults, whereas older individuals are likely to derive the greatest benefit from any positive effects of PHT. To date, no study has examined the longer-term effects of PHT on macrovascular, microvascular, cognitive or muscle function, or HSPs in older adults. Therefore, further research is needed to confirm that heat therapy confers the same beneficial health adaptations in older adults.