Medications and insulin do nothing to slow down the progression of this organ damage, because they do not eliminate the toxic sugar load from our body. We’ve known this inconvenient fact since 2008. No less than 7 multinational, multi-centre, randomized controlled trials of tight blood glucose control with medications (ACCORD, ADVANCE, VADT, ORIGIN, TECOS, ELIXA, SAVOR) failed to demonstrate reductions in heart disease, the major killer of diabetic patients. We pretended that using medications to lower blood sugar makes people healthier. But it’s only been a lie. You can’t use drugs to cure a dietary disease.
Recently[when?] it has been suggested that a type of gastric bypass surgery may normalize blood glucose levels in 80–100% of severely obese patients with diabetes. The precise causal mechanisms are being intensively researched; its results may not simply be attributable to weight loss, as the improvement in blood sugars seems to precede any change in body mass. This approach may become a treatment for some people with type 2 diabetes, but has not yet been studied in prospective clinical trials. This surgery may have the additional benefit of reducing the death rate from all causes by up to 40% in severely obese people. A small number of normal to moderately obese patients with type 2 diabetes have successfully undergone similar operations.
Healthy fats: Medium-chained fatty acids found in coconut and red palm oil can help balance blood sugar levels, and they serve as the preferred fuel source for your body rather than sugar. Using coconut milk, ghee and grass-fed butter can also help balance out your blood sugar levels, so include these foods into your meals and smoothies. Some research actually suggests that a high-fat, low carb diet known as the keto diet may be a novel approach to reverse diabetes naturally, although you don’t technically have to go into ketosis to achieve the benefits of healthy fats in treating diabetes. (12)
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).
If you are interested in trying a natural treatment in addition to standard treatment, be sure do so only under the close supervision of your physician. If diabetes is not properly controlled, the consequences can be life-threatening. Also, inform your physician about any herbs, supplements, or natural treatments you are using, because some may interact with the medications you are taking and result in hypoglycemia unless properly coordinated.
Vanadium is a compound found in tiny amounts in plants and animals. Early studies showed that vanadium normalized blood sugar levels in animals with type 1 and type 2 diabetes. When people with diabetes were given vanadium, they had a modest increase in insulin sensitivity and were able to lower their need for insulin. Researchers want to understand how vanadium works in the body, find potential side effects, and set safe dosages.
For my diabetes control, I researched indepth true cinammon (Ceylon) and not the fake supermarket cinammon (cassia) with it's dangerous side effects. I had tried the supermarket varity for two months and noticed very little change in my blood sugar levels. After trying Ceylon cinammon in just two days my sugar readings had dropped approx 30 points. So for me...it's works. Will try it for a month and report back.
In other words, we can say that diabetes is a continual metabolic disorder that prevents the body from utilizing glucose totally or partially. The disorder is characterized by raised glucose absorption in the blood. When body does not have enough insulin, it cannot use or store glucose, which raises the level of glucose in the body. Diabetes is not curable, but controllable. There are several methods and remedies which can be used to tame this dreadful disease. Such is its dreadfulness that it is one of the major causes of disability and death in USA. In most of the cases, diabetes further leads to other critical diseases, like heart failure, obesity, cardiac arrest, etc.
Metformin is a biguanide drug that increases the sensitivity of the body’s cells to insulin. It also decreases the amount of glucose produced by the liver.. In 1994, the FDA approved the use of the biguanide called metformin (Glucophage) for the treatment of type 2 diabetes. Today, this is still typically the first drug prescribed for type 2 diabetes.