Why do we hear so little about the ketogenic diet? At this point, there has probably been thousands of studies done on it going back a century. In the 1920s, it was first demonstrated effective as a medical treatment for epileptic seizures. And since then, it has been studied with numerous other health conditions, especially for weight loss in obesity.
The results are often dramatic. Dr. Terry Wahls, in using a ketogenic diet in a clinical study, was the first to prove that multiple sclerosis could be put into remission. Dr. Dale Bredesen, also through a ketogenic diet in a clinical study, was able to reverse Alzheimer’s which has never before been accomplished, in spite of all the massive funding that has gone into pharmaceuticals.
Dr. Paul Saladino talked with Dr. Chris Palmer about metabolic disorders and psychiatric disorders (Paradigm shiftng treatment of schizophrenia and bipolar with Ketogenic diets. Chris Palmer, MD). Indicating this connection, many antipsychotics and antidepressants affect not only mood but also metabolism, such as weight gain (e.g., see how “a common class of antidepressants works by stimulating activity in the gut and key nerves connected to it rather than the brain as previously believed”; from Michelle McQuigge, New study suggests role of the gut is important in treating depression).
This connection is also seen in how depressives have higher rates of diabetes and diabetics have higher rates of depression, and to emphasize this point those with both conditions tend to have more severe depression. Unsurprisingly, the keto diet has been useful for treating depression.
It likewise has been used to treat other neurocongnitive conditions, including major psychiatric disorders like bipolar disorder and schizophrenia, arguably the same. Lessening of symptoms has been seen with schizophrenics on a keto diet (Chris Palmer, Chronic Schizophrenia Put Into Remission Without Medication). And in one case, 53 years of schizophrenia went entirely into remission and remained in remission for years following. That patient, after doing a keto diet under the care of Dr. Eric Westman in order to lose weight, found she was able to stop taking all psychiatric medications and became independent in no longer needing assistance to do daily tasks.
Now Dr. Stephen Phinney has done the same thing with diabetes, although less surprising as ketogenic research on diabetes goes back several generations. What has been the response from government health officials, non-profit health organizations, and mainstream doctors? A combination of silence and fear-mongering. A revolution in medicine is happening and few seem to be paying attention. But think how many lives could have been saved and improved, if the promising research on the keto diet hadn’t been shut down earlier last century.
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Ketones are fascinating. They are far more than an alternative or, if you prefer, primary fuel in the body. The energy produced is different as well, in being more efficient and cleaner. Furthermore, they don’t merely shift metabolism and can promote effortless fat-loss. Ketones act like master hormones and alter gene expression. This is why they are so powerful in reversing and curing serious diseases. But it isn’t miraculous, as it is entirely natural. This is how the body is supposed to function.
The Mechanisms by Which the Ketone Body D-β-Hydroxybutyrate May Improve the Multiple Cellular Pathologies of Parkinson’s Disease
by Nicholas G. Norwitz, Michele T. Hu, and Kieran Clarke
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Keto Diet Puts Diabetics in Remission
After Inkinen’s pre-diabetes diagnosis in 2012, he spent the next few years researching the disease and treatments and ultimately teaming up with Stephen Phinney, MD, Ph.D in 2014 to form Virta Health, a research and virtual medical clinic whose mission is to reverse type 2 diabetes.
Phinney has been researching the keto diet and publishing studies on it for over 40 years. But last month, Virta published the results of what may be the most comprehensive study of the diet yet, a two-year intervention tracking 349 people who were divided into two groups. One followed a keto diet, the other followed their usual care for diabetes.
The results are impressive. At the end of two years, the keto group saw incredible improvements: 55% were able to reverse their diabetes and stop all medications except Metformin, and 18.5% were able to achieve remission. That is, they were both officially out of the diabetic range and off of all diabetes medications. Plus they maintained that state for at least one year.
The keto dieters were also able to lose weight (an average of 12% of body weight), reduce their dependence on insulin — dosages dropped 81% — and reduce triglycerides, inflammation and other markers for metabolic syndrome.
By contrast, just 10.5% of the participants in the control group were able to reverse their diabetes, and none was able to achieve full remission.
The control group also gained an average of 5% of their body weight, had a 13% increase in insulin dosages, and saw only modest improvements in triglycerides, inflammation and metabolic syndrome markers.
It’s also worth noting that this research is entirely self-funded — Virta receives its funding from venture capital investors.
“Online Revolt” Infuriates Diabetes Establishment
by Christopher James Clark
Last week, we saw the news that the world’s largest diabetes organizations, including the International Diabetes Federation, the American Diabetes Association, the Chinese Diabetes Society, and Diabetes India, are embracing bariatric surgery as a radical new approach to treating type-2 diabetes. According to these experts, surgery should be the standard protocol for many patients.
At the same time, these experts are becoming increasingly dismissive of diet and lifestyle approaches to reversing type-2 diabetes. The crux of the problem is that “the experts” recommend a low-fat, higher-carbohydrate approach, which simply doesn’t cut the mustard when compared to low-carb, higher-fat approaches.
In the information era, however, the truth always comes out.
Today, The Times is reporting on what they are referring to as “an online revolt by patients.” Diabetes.co.uk, a health organization that opposes the official dietary guidelines for diabetes treatment, launched a study, which included over 120,000 participants, the majority of whom suffer from weight related type-2 diabetes.
These people ate low-carb diets for 10 weeks, in defiance of the UK government’s Eatwell Guidelines, which mimic official US guidelines.
Over 70% of participants lost weight and improved their blood glucose levels.
“The results from the low-carb plan have been impressive and this is a solution that is clearly working for people with type 2 diabetes,” said Arjun Panesar, chief executive officer of diabetes.org.uk
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Ketone bodies mimic the life span extending properties of caloric restriction
by Richard L. Veech Patrick C. Bradshaw Kieran Clarke William Curtis Robert Pawlosky M. Todd King
Aging in man is accompanied by deterioration of a number of systems. Most notable are a gradual increase in blood sugar and blood lipids, increased narrowing of blood vessels, an increase in the incidence of malignancies, the deterioration and loss of elasticity in skin, loss of muscular strength and physiological exercise performance, deterioration of memory and cognitive performance, and in males decreases in erectile function. Many aging‐induced changes, such as the incidence of malignancies in mice 82, the increases in blood glucose and insulin caused by insulin resistance 39, 78, and the muscular weakness have been shown to be decreased by the metabolism of ketone bodies 18, 83, a normal metabolite produced from fatty acids by liver during periods of prolonged fasting or caloric restriction 12.
The unique ability of ketone bodies to supply energy to brain during periods of impairment of glucose metabolism make ketosis an effective treatment for a number of neurological conditions which are currently without effective therapies. Impairment of cognitive function has also been shown to be improved by the metabolism of ketone bodies 84. Additionally, Alzheimer’s disease, the major cause of which is aging 20 can be improved clinically by the induction of mild ketosis in a mouse model of the disease 85 and in humans 86. Ketosis also improves function in Parkinson’s disease 87 which is thought to be largely caused by mitochondrial free radical damage 19, 88. Ketone bodies are also useful in ameliorating the symptoms of amyotrophic lateral sclerosis 89. It is also recognized that ketosis could have important therapeutic applications in a wide variety of other diseases 90 including Glut 1 deficiency, type I diabetes 91, obesity 78, 92, and insulin resistance 20, 39, 93, and diseases of diverse etiology 90.
In addition to ameliorating a number of diseases associated with aging, the general deterioration of cellular systems independent of specific disease seems related to ROS toxicity and the inability to combat it. In contrast increases in life span occur across a number of species with a reduction in function of the IIS pathway and/or an activation of the FOXO transcription factors, inducing expression of the enzymes required for free radical detoxification (Figs. 1 and 2). In C. elegans, these results have been accomplished using RNA interference or mutant animals. Similar changes should be able to be achieved in higher animals, including humans, by the administration of d‐βHB itself or its esters.
In summary, decreased signaling through the insulin/IGF‐1 receptor pathway increases life span. Decreased insulin/IGF‐1 receptor activation leads to a decrease in PIP3, a decrease in the phosphorylation and activity of phosphoinositide‐dependent protein kinase (PDPK1), a decrease in the phosphorylation and activity of AKT, and a subsequent decrease in the phosphorylation of FOXO transcription factors, allowing them to continue to reside in the nucleus and to increase the transcription of the enzymes of the antioxidant pathway.
In mammals, many of these changes can be brought about by the metabolism of ketone bodies. The metabolism of ketones lowers the blood glucose and insulin thus decreasing the activity of the IIS and its attendant changes in the pathway described above. However, in addition ketone bodies act as a natural inhibitor of class I HDACs, inducing FOXO gene expression stimulating the synthesis of antioxidant and metabolic enzymes. An added important factor is that the metabolism of ketone bodies in mammals increases the reducing power of the NADP system providing the thermodynamic drive to destroy oxygen free radicals which are a major cause of the aging process.