Redox signaling is the foundation process that is required to support the health of humans, plants and animals. It is the boost needed for the body to reverse illness and sustain health.
Redox signaling supports the ability of cells to respond appropriately to environmental stimuli. When each cell acts independently of other cells, its ability to avert illness and disease is compromised. Redox cell signaling activates communication among cells to support the body’s ability to reverse illness and maintain balance and harmony.
Redox cell signaling …
- Does no harm
- Contains no toxins
- Wakes up sleepy cells
- Helps un-poison the body
- Activates a natural process of healing
- Has anti-viral properties
- Addresses bacterial infections
- Facilitate the production of glutathione by the body
- Reduces reactions to chronic stress
When confronted with neurological challenges, the allostatic load becomes too great for the body to perform the functions of toxic elimination. All of the body’s elimination organs (eg: liver, kidneys, colon, skin) are confronted with getting rid of more toxins than can be processed out of the body. It is similar to when a dam overflows.
Unable to eliminate toxins, they continue to cumulate. This compromises the body’s ability to rejuvenate and regenerate. With Parkinsons, the allostatic load becomes too overwhelming for the body to perform the essential functions of elimination and renewal.
Redox cell signaling helps lower and overburden flooded with an allostatic load that has maxed out.
Research on Redox Signaling and Parkinsons
Chin Med J (Engl). 2026 Mar 5;139(5):653–671. Role of LRRK2 in physiological activities, diseases, and therapy
Abstract
Leucine-rich repeat kinase 2 (LRRK2) is a critical target for the treatment of Parkinson’s disease (PD) and potentially other diseases. LRRK2 is involved in intracellular signaling, immune response, and inflammation, with key roles in both the central nervous system and peripheral tissues.
LRRK2 mutations are linked to cellular dysfunction including mitochondrial and neuronal damage and can disrupt signaling pathway balance, thereby contributing to PD and other disorders
Robert Rodgers PhD
Founder 2004
Parkinsons Recovery ®
https://www.parkinsonsrecovery.com
robert@parkinsonsrecovery.com




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