What question did this study set out to answer?

The aim is to reconceptualize Parkinson's Disease as a failure of biological coherence across various systems rather than a single-origin disease.

February 22, 2026Open Access

Ecological Homeostasis (EH) Architecture Applied to Parkinson's Disease: A Systems-Based Coherence Framework for Clinical and Research Integration

Key Points

The aim is to reconceptualize Parkinson's Disease as a failure of biological coherence across various systems rather than a single-origin disease.
Introduced Ecological Homeostasis as an integrative framework for understanding PD.
Developed a Coherence Index for longitudinal studies.
Integrated evidence from various biological mechanisms affecting PD.
Highlighted the multisystem nature of PD beyond dopaminergic pathways.
Proposed a framework that accounts for immunological, iron, and gut-related factors.
Distinguished between established evidence and hypotheses regarding PD mechanisms.

Abstract

AbstractParkinson's disease (PD) is conventionally characterised as a progressivedopaminergic neurodegenerative disorder centred on the substantia nigra parscompacta. While this model has generated substantial therapeutic advances, itinadequately accounts for the multisystem nature of PD, including immunedysregulation, iron dyshomeostasis, gut-brain axis disruption, autonomic dysfunction,and oscillatory circuit disruption. This working paper introduces EcologicalHomeostasis (EH) as a systems-level integrative framework through which PD maybe more coherently understood. EH proposes that biological viability depends uponthe maintenance of structural invariance across interacting subsystems throughconstraint-preserving dynamics. Within this lens, PD is reconceptualised not as adisease with a singular causal origin, but as a progressive failure of multi-scalecoherence: a narrowing of the system's viable operating envelope. The frameworkintegrates evidence regarding microglial activation, iron-redox amplification,hepcidin-mediated iron redistribution, neuromelanin release, alpha-synucleinpropagation, and gut barrier dysfunction within a coherent regulatory language. Itdistinguishes carefully between established evidence, moderate associations, andspeculative hypotheses. The paper proposes a formal composite Coherence Indexwith a specific longitudinal study design, offers falsifiable research predictions, anddraws conservative clinical implications. A mathematical appendix providesgrounding in dynamical systems theory. EH does not replace mechanisticneuroscience; it provides an integrative language capable of holding theheterogeneity of PD subtypes within a single conceptual architecture. The goal is notto identify the origin of PD, but to illuminate the dynamics that determine whetherand how coherence is lost, maintained, or partially restored.Keywords: Parkinson's disease, Ecological Homeostasis, systems neuroscience,neuroinflammation, gut-brain axis, iron dyshomeostasis, oscillatory dynamics, coherenceframework, metastability, alpha-synuclein, Coherence Index, dynamical systems

Ecological Homeostasis (EH) Architecture Applied to Parkinson's Disease: A Systems-Based Coherence Framework for Clinical and Research Integration

Key Points

Abstract

Cite This Study