In investigating how BCG administration produces its beneficial effects, the research team identified a mechanism never previously seen in humans in response to treatment with any drug – a shifting of the process of glucose metabolism from oxidative phosphorylation, the most common pathway by which cells convert glucose into energy, to aerobic glycolysis, a process that involves significantly greater glucose consumption by cells. The researchers also found that BCG could reduce blood sugar elevations in mice that were caused by means other than autoimmune attack, raising the possibility that BCG vaccines could also be beneficial against type 2 diabetes.”

"You only need 10 percent of your beta cells to supply sufficient insulin," Roep said. He said there have been a couple of rare cases where a patient had typical type 1 diabetes but could go through long periods without insulin injections. "Insulin needs can be a moving target, and if you have a lifestyle change it's very plausible that you have a lesser need for insulin, and you can deal with [diabetes] with the beta cells you have," Roep said.

I bring this up because sleep apnea increases a person’s risk for developing type 2 diabetes. Also, sleep-disordered breathing is also related to proper nutrition throughout life. And perhaps most importantly, the first line of defense in catching sleep-disordered breathing in patients early, are dentists. This is another area where dentists must get involved if we want to tackle the issue of pervasive type 2 diabetes with any success.

But solutions to diabetes exist right now. I've personally interviewed patients who were cured of type-2 diabetes in as little as four days at Dr Gabriel Cousens' Tree of Life Rejuvenation Center near Tucson, Arizona ( My own book entitled How to Halt Diabetes in 25 Days has helped thousands of people prevent and even reverse diabetes in under a month. ( provides accurate and independent information on more than 24,000 prescription drugs, over-the-counter medicines and natural products. This material is provided for educational purposes only and is not intended for medical advice, diagnosis or treatment. Data sources include Micromedex® (updated Nov 1st, 2018), Cerner Multum™ (updated Nov 1st, 2018), Wolters Kluwer™ (updated Oct 31st, 2018) and others. To view content sources and attributions, please refer to our editorial policy.
Regular monitoring of clinical trial participants found that HbA1c levels of those receiving BCG had dropped by more than 10 percent at three years after treatment and by more than 18 percent at four years. That reduction was maintained over the next four years, with treated participants having an average HbA1c of 6.65, close to the 6.5 considered the threshold for diabetes diagnosis, and with no reports of severe hypoglycemia. Participants in the placebo group and in a comparison group of patients receiving no treatment experienced consistent HbA1c elevations over the same eight-year time period.

Diabetes is a group of diseases characterized by elevated blood glucose levels due to defects in insulin secretion, insulin action, or both. According to the American Diabetes Association (ADA), type 2 diabetes usually begins with insulin resistance. For those people whose bodies resist insulin, the pancreas secretes extra insulin to maintain normal glucose levels. As the condition progresses, insulin production gradually decreases and eventually reaches a level of deficiency that can no longer maintain blood glucose in the normal range. But how type 2 diabetes presents and progresses can vary considerably, as noted by the ADA, and methods of treatment can vary from patient to patient.
I think I may have the link to the original article and will post back here. I am actually going to meet Denise Faustman on 8/13 at 3:00 to learn more about the study It’s a clinical trial that is being held at mass general. I am surprised by the rather negative comments on here. I have lupus and type 1for 32years. I have no complications but lupus puts the same organs at risk as diabetes does. If I can barely take any insulin and have normal ranges without doing barely any work I will try it. I don’t see… Read more »
Scientists are trying to figure out how to transplant islet cells and then protect them from the patient’s immune system so that long-term immunosuppressive medications aren’t required. Micro encapsulation is an approach scientists are testing to find out if a special coating to the transplanted islets can help the patient avoid rejection of those islets. These coatings let in nutrients to nourish the cells but prevent your body’s immune system from attacking them.
Although a close relationship exists among raised liver fat levels, insulin resistance, and raised liver enzyme levels (52), high levels of liver fat are not inevitably associated with hepatic insulin resistance. This is analogous to the discordance observed in the muscle of trained athletes in whom raised intramyocellular triacylglycerol is associated with high insulin sensitivity (53). This relationship is also seen in muscle of mice overexpressing the enzyme DGAT-1, which rapidly esterifies diacylglycerol to metabolically inert triacylglycerol (54). In both circumstances, raised intracellular triacylglycerol stores coexist with normal insulin sensitivity. When a variant of PNPLA3 was described as determining increased hepatic fat levels, it appeared that a major factor underlying nonalcoholic fatty liver disease and insulin resistance was identified (55). However, this relatively rare genetic variant is not associated with hepatic insulin resistance (56). Because the responsible G allele of PNPLA3 is believed to code for a lipase that is ineffective in triacylglycerol hydrolysis, it appears that diacylglycerol and fatty acids are sequestered as inert triacylglycerol, preventing any inhibitory effect on insulin signaling.

Curcumin is a bright yellow chemical produced by the spice turmeric, among other plants. Curcumin seems to have multiple benefits for diabetes symptoms. It has been shown to be a marked inhibitor of reactive oxygen species that promote oxidation damage in cells. Curcumin lowers inflammatory chemicals like tumor necrosis factor-alpha, and that’s good because TNF-a causes insulin resistance and irritates fatty livers. Curcumin can reduce another pro-inflammatory chemical called NF-KB. The above-mentioned actions provide a benefit in diabetes protection and reduce the risk of developing diabetes symptoms and complications. Curcumin has also been shown to enhance pancreatic beta cell functioning and reduce fatty liver deposition. It reduces high blood sugar, A1C, and insulin resistance. It was also shown to reduce the onset of Alzheimer’s disease, and that is a higher risk in diabetic patients than in nondiabetic patients. A good dose is 200 to 3,000 mg a day.

Scientists are cautious, and research is continuing, but evidence is growing that the diet can indeed remove the symptoms of type 2 diabetes. The question for researchers, who are now working on identifying the type of diet that can keep diabetes at bay after reversal, is once we've beaten the condition, how do we improve our lifestyle so it doesn't return? Watch this space.

Auricular acupuncture (inserting needles into specific points on the ear) may be used alone or in conjunction with body acupuncture. According to TCM, the entire body is represented on the ear. Examination of the ears often reveals surface irregularities, such as superficial capillaries, scars, pitting, pimples, flaking, discoloration, or swelling. Upon probing the auricle of the ear with a rounded, blunt instrument the practitioner may discover tender areas that may correspond to the area of the patient’s pain or disturbance.10 A sample auricular treatment for diabetes might include needling a master point, for example, Shen Men (a good point for almost all disorders), along with the endocrine point, lung point (for thirst), stomach point (for hunger), kidney and bladder points (for frequent urination), and pancreas point (for increasing insulin secretion).7
The results of his medical tests are still being analyzed, Darkes said, but he hasn't needed insulin injections for a year and a half. "It took a long time to sink in," he noted. But Darkes is confident he no longer has type 1 diabetes. He said that doctors told him that he has a "rare" gene that somehow facilitated his cure. "I'm the only one who carries [the gene], at the moment," and there's no further explanation so far, he said.
According to TCM, the major activity of the blood is to circulate through the body, nourishing and moistening the various organs and tissues. Disharmonies of the blood may manifest as “deficient” blood or “congealed” blood. If deficient blood exists and affects the entire body, the patient may present with dry skin, dizziness, and a dull complexion. Congealed blood may manifest as sharp, stabbing pains accompanied by tumors, cysts, or swelling of the organs (i.e., the liver).4 The key organs associated with blood are the heart, liver, and spleen.
A computer-controlled algorithm connects the CGM and insulin pump so they communicate. As the CGM detects high blood sugar, the pump knows to provide a specific amount of insulin. The goal is to provide the patient with more normalized and ideal blood sugar management without the constant hassle of decisions by the patient who is presumably allowed to live a more normal life.
Type 2 diabetes is by far the most common form (around 90% of all cases) and the one which is increasing the most. It primarily affects overweight people in middle age or later. It’s not uncommon for the affected person to also have a high blood pressure and an abnormal lipid profile. Gestational diabetes is a temporary special case of type 2 diabetes.
The drug reduces the amount of glucose made by the liver, and is frequently prescribed because it has been found to help prevent many of the long-term complications of diabetes. Metformin is usually taken without another drug, usually at a dose of 500 milligrams (mg) a day, depending on the brand, to start. Doses are not to exceed 2,000 or 2,500 mg per day.
Within the hepatocyte, fatty acids can only be derived from de novo lipogenesis, uptake of nonesterified fatty acid and LDL, or lipolysis of intracellular triacylglycerol. The fatty acid pool may be oxidized for energy or may be combined with glycerol to form mono-, di-, and then triacylglycerols. It is possible that a lower ability to oxidize fat within the hepatocyte could be one of several susceptibility factors for the accumulation of liver fat (45). Excess diacylglycerol has a profound effect on activating protein kinase C epsilon type (PKCε), which inhibits the signaling pathway from the insulin receptor to insulin receptor substrate 1 (IRS-1), the first postreceptor step in intracellular insulin action (46). Thus, under circumstances of chronic energy excess, a raised level of intracellular diacylglycerol specifically prevents normal insulin action, and hepatic glucose production fails to be controlled (Fig. 4). High-fat feeding of rodents brings about raised levels of diacylglycerol, PKCε activation, and insulin resistance. However, if fatty acids are preferentially oxidized rather than esterified to diacylglycerol, then PKCε activation is prevented, and hepatic insulin sensitivity is maintained. The molecular specificity of this mechanism has been confirmed by use of antisense oligonucleotide to PKCε, which prevents hepatic insulin resistance despite raised diacylglycerol levels during high-fat feeding (47). In obese humans, intrahepatic diacylglycerol concentration has been shown to correlate with hepatic insulin sensitivity (48,49). Additionally, the presence of excess fatty acids promotes ceramide synthesis by esterification with sphingosine. Ceramides cause sequestration of Akt2 and activation of gluconeogenic enzymes (Fig. 4), although no relationship with in vivo insulin resistance could be demonstrated in humans (49). However, the described intracellular regulatory roles of diacylglycerol and ceramide are consistent with the in vivo observations of hepatic steatosis and control of hepatic glucose production (20,21).
Other studies have found that people with pre-diabetes or type 2 diabetes can go into remission through changes to their dietary and exercise habits. People who manage to achieve this with food alone will often express their excitement publicly by claiming they “cured” their diabetes with their diet. In reality, the likely put it into remission, though that remission can last a very long time.
Not until I actually got this book into my hands could I see that its subtitle read "A medical approach that can slow, stop, even cure Type 2 Diabetes". If I'd known about the subtitle, I wouldn't have been interested in reading the book, since the "medical approach" bit indicated for me that it consisted of traditional precepts penned by a doctor, and also I am not particularly interested in Type 2 diabetes, only Type 1, which I myself have.
In another study, albeit including only 30 people, those who were recently diagnosed and went on a very low-calorie diet for eight weeks experienced remission. That remission continued more than six months after their low-calorie diet ended.  In people who have had type 2 diabetes for a long time, unfortunately, weight loss has a much more limited impact.
One of the biggest hits in type 2 diabetes treatment is glucagon-like peptide (GLP)-1 receptor agonists, which induce insulin production in beta-pancreatic cells while suppressing the secretion of glucagon. All big pharma have GLP-1 drugs on the market or their pipelines, including Sanofi, Eli Lilly, Roche, AstraZeneca and Boehringer Ingelheim. But Novo Nordisk is going a step further with the first oral version of a GLP-1 drug, which is now close to the market.