Modern medicine has largely approached human disease through organ-specific and molecule-centric frameworks. However, growing evidence indicates that human physiology operates as an integrated system involving microbial ecosystems, cellular energy metabolism, and bioelectrical signaling networks. This paper proposes a unified conceptual framework—the microbial–cellular–bioelectrical axis—to explain the systemic origins of chronic and lifestyle-related diseases. Disruption of this axis through modern dietary patterns, environmental exposures, pharmaceutical overuse, circadian misalignment, and chronic psychological stress may lead to metabolic dysfunction, persistent inflammation, impaired cellular signaling, and progressive multi-organ involvement. By examining metabolic, inflammatory, cardiovascular, neurological, and age-related disorders—particularly diabetes—through this integrative lens, this work aims to expand current disease models and highlight the necessity of systems-level preventive and restorative strategies.
Sumeru Ray (Sun,) studied this question.