"All traditional research currently in progress is based on finding a pharmaceutical drug to cure ALS. Meanwhile, metabolic researchers at Winning the Fight believe they have found an additional supplement that might provide a therapy that can stop the disease in its tracks."
Amyotrophic Lateral Sclerosis (ALS), also known as Lou Gehrig’s disease, is a neurodegenerative disorder of motor neurons causing progressive muscle weakness, paralysis, and eventual death from respiratory failure. There is currently no cure or effective treatment for ALS. Besides motor neuron degeneration, ALS is associated with impaired energy metabolism, which is pathophysiologically linked to mitochondrial dysfunction and glutamate excitotoxicity. The Deanna Protocol (DP) is a metabolic therapy that has been reported to alleviate symptoms in patients with ALS. In this study we hypothesized that alternative fuels in the form of TCA cycle intermediates, specifically arginine-alpha-ketoglutarate (AAKG), the main ingredient of the DP, and the ketogenic diet (KD), would increase motor function and survival in a mouse model of ALS (SOD1-G93A). ALS mice were fed standard rodent diet (SD), KD, or either diets containing a metabolic therapy of the primary ingredients of the DP consisting of AAKG, gamma-aminobutyric acid, Coenzyme Q10, and medium chain triglyceride high in caprylic triglyceride. Assessment of ALS-like pathology was performed using a pre-defined criteria for neurological score, accelerated rotarod test, paw grip endurance test, and grip strength test. Blood glucose, blood beta-hydroxybutyrate, and body weight were also monitored. SD+DP-fed mice exhibited improved neurological score from age 116 to 136 days compared to control mice. KD-fed mice exhibited better motor performance on all motor function tests at 15 and 16 weeks of age compared to controls. SD+DP and KD+DP therapies significantly extended survival time of SOD1-G93A mice by 7.5% (p = 0.001) and 4.2% (p = 0.006), respectively. Sixty-three percent of mice in the KD+DP and 72.7% of the SD+DP group lived past 125 days, while only 9% of the control animals survived past that point. Targeting energy metabolism with metabolic therapy produces a therapeutic effect in ALS mice which may prolong survival and quality of life in ALS patients.
People and families affected by ALS are finally seeing a glimmer of hope. The deadly illness, also known as Lou Gehrig's disease, destroys nerve cells and muscle control. There is currently no cure. However, a new treatment has been shown to slow and even stop its progression.
*The mouse studies referenced in this video are now finished. Research concluded that the Deanna Protocol® is effective.
Protein Mediators & Strategies for Inhibition
Neuronal Cell Death Induced by Ischemic and Hemorrhagic Strokes Commonly known as cerebral vascular events, strokes are a significant source of morbidity and mortality worldwide. Ischemic strokes account for approximately 80% of all strokes and are caused by obstructed arteries that deprive the brain of oxygen and other nutrients. In contrast, hemorrhagic strokes stem from ruptured blood vessels that increase intracranial pressure and reduce blood flow to the surrounding tissue. While the mechanisms of pathology differ between ischemic and hemorrhagic strokes, both induce neuronal cell death. 1,2 Depending on the area of the brain affected, neuronal death can either be fatal or can impair speech, vision, or other sensorimotor functions.
Head injury or stroke can cause a surge in glutamate, leaving damaged neurons in its wake. But a new method may help keep the chemical messenger in check.