You also might hear about alternative treatments for diabetes, such as herbal remedies and vitamin or mineral supplements. These practices can be risky, especially when people stop following the treatment plan their doctor has given them. So get the facts by talking to your diabetes health care team. They keep track of the latest research developments, and will introduce new products as they become available.
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).
It isn’t just keeping blood sugar levels down through insulin control that helps diabetes, but fixing the actual problem causing the diabetes. Addressing just one aspect of the problem (blood sugar or insulin) ignores all the other factors like poor diet, toxins, stress, gut problems, immune issues etc. Instead, this single focuses approach can contribute to the problem, making insulin resistance worse and eventually leading to insulin dependent diabetes when the pancreas shuts down completely. Many doctors and nutrition experts recommend the typical 6-11 servings of complex carbs from whole grain sources daily, suggesting that the fiber helps mitigate insulin response. As I have shown before, 6-11 servings of carbohydrates a day is bad for anyone, but is gasoline on a fire to anyone with an impaired insulin response.
Plus, when you eat too few calories, you’ll be exhausted, and struggle with constant hunger and cravings. The solution? If you want to lose weight and potentially reverse your diabetes, don’t just eat fewer calories on a high carb diet. Instead, switch to a low-carb, high fat diet that won’t cause blood sugar spikes. By keeping your blood sugar down, you’ll keep your insulin levels down, and unlock your body’s natural ability to burn its stored fat. It may seem counterintuitive, but to lose fat, you have to eat fat. This type of low-carb, high-fat diet is called a ketogenic diet.
Every single part of the body just starts to rot. This is precisely why type 2 diabetes, unlike virtually any other disease, affects every part of our body. Every organ suffers the long term effects of the excessive sugar load. Your eyes rot — and you go blind. Your kidneys rot — and you need dialysis. You heart rots — and you get heart attacks and heart failure. Your brain rots — and you get Alzheimers disease. Your liver rots — and you get fatty liver disease. Your legs rot — and you get diabetic foot ulcers. Your nerves rot — and you get diabetic neuropathy. No part of your body is spared.