Description

Insomnia is a prevalent sleep disorder characterized by difficulty initiating or maintaining sleep despite adequate sleep opportunities and an appropriate sleep environment. It affects 10-50% of the adult population worldwide, with several biological, sociodemographic, and psychological-behavioral factors contributing to its occurrence. Notably, its prevalence is higher in women than in men (risk ratio: 1.58, p<0.01) and increases with age, affecting 30-48% of older adults compared to 12-20% of young adults. Additionally, insomnia is more frequently reported among university students than in the general population (18.5% vs. 7.5%), and 13-70% of elite athletes experience persistent sleep disturbances indicative of insomnia.

Recent research has highlighted the long-term negative impact of insomnia on quality of life, as it induces chronic fatigue and excessive daytime sleepiness, which are strongly associated with reduced work productivity, academic performance, and athletic capabilities. Additionally, insomnia has been linked to an increased risk of cardiovascular and metabolic diseases, with a higher prevalence observed in individuals with obesity, type 2 diabetes, and hypertension.

Some studies have reported an inverse association between multiple indicators of insomnia and cardiorespiratory fitness in individuals without chronic diseases, further reinforcing the connection between insomnia and cardiovascular disease risk. This phenomenon may be driven by dysregulation of the hypothalamic-pituitary-adrenal (HPA) axis and the autonomic nervous system, both of which contribute to increased cardiac contractility and altered neuroendocrine function. Moreover, the observed negative correlation between insomnia and oxygen uptake capacity suggests that insomnia may compromise capillary and mitochondrial density as well as cardiovascular efficiency, which are key determinants of maximal oxygen consumption (VO₂max). Another plausible mechanism underlying this association is reduced heart rate variability (HRV) in individuals with chronic insomnia, likely resulting from elevated norepinephrine and cortisol levels, which are known to heighten sympathetic nervous system activity and impair cardiovascular function.

Beyond its cardiovascular implications, sleep deficiency disrupts metabolic homeostasis, promoting high-calorie food consumption through both hormonal (e.g., increased ghrelin secretion) and neurocognitive mechanisms (e.g., heightened hedonic drive for food intake). Over time, these physiological alterations contribute to body weight gain and insulin resistance, increasing the risk of metabolic disorders such as obesity and type 2 diabetes.

At the molecular level, chronic sleep deprivation has been shown to impair DNA repair cycles, which may contribute to the development of metabolic and cardiovascular diseases. Specifically, fragmentation of DNA strands has been observed following sleep restriction, leading to slower chromosomal dynamics and impaired cellular recovery. Additionally, sleep deprivation has demonstrated genotoxic effects in multiple organs and tissues, increasing oxidative DNA damage.

Despite the growing body of evidence linking insomnia to cardiovascular and metabolic dysfunction, most human studies have focused primarily on young adult males with low physical activity levels and without chronic diseases. Similarly, the genotoxic effects of sleep disorders have been assessed mainly in preclinical models, with limited investigation of their correlation with cardiovascular and metabolic biomarkers in humans.

Given these knowledge gaps, this study aims to examine the physiological and molecular consequences of insomnia across diverse populations, including athletes, older adults, university students, and individuals with metabolic syndrome. This research will provide valuable insights into the mechanisms underlying insomnia-related dysfunctions, ultimately contributing to the development of targeted interventions to mitigate its long-term health effects. The findings from this study will play a crucial role in guiding future clinical interventions aimed at improving sleep quality and metabolic health. Given that 27-40% of the Mexican adult population is affected by insomnia, addressing this disorder has become a public health priority. This research is aligned with the United Nations Sustainable Development Goals (SDGs), particularly in the areas of (i) health and well-being, (ii) quality education, and (iii) partnerships for achieving these objectives.

Additionally, the project will provide academic training opportunities for undergraduate and graduate students, reinforcing their competencies in research methodologies, data analysis, and clinical evaluations. Furthermore, collaboration with the National Institute of Public Health and the University of Granada will foster international research partnerships, enhancing the study's scientific impact.

By addressing the underlying insomnia and its multisystem effects, this project will contribute significantly to the prevention, diagnosis, and treatment of sleep disorders in vulnerable populations, ultimately improving overall public health and quality of life.