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.

For our very insulin resistant patients with type 2 diabetes, after starting out at 30 grams, a few months later most of our patients find that they can increase their daily carb intake to 40 or 50 grams. Fifty grams of total carbohydrate typically allows 4-5 servings of non-starchy vegetables, 2 oz of nuts, and 3 oz of berry fruit (which includes avocado – but obviously you’d need to share it with someone unless it’s a tiny one!)”


As a result of his research and his success stories, Taylor encourages other doctors to stop turning to diabetes medicines right away and more strongly encourage weight loss as the first step for their patients newly diagnosed with type 2 diabetes. And the sooner, the better, he says. While Maher reversed his diabetes decades later, that's not typical, Taylor says. The ideal management, he says, is to start serious weight loss efforts right away.
“Diabetes type 1 is very different from your standard disease. Insulin requirements vary greatly from one day to another and there is no way patients can know what they need,” Roman Hovorka, Professor at the University of Cambridge, explained to me during an interview. His research group is working on the development of an algorithm that can accurately predict insulin requirements for a specific patient at any moment.
Even if you don’t have any underlying glucose issues, testing your blood sugar occasionally will help you pin point which carbohydrates you tolerate well and which you don’t. It can help you have a better understanding of your body’s reaction to foods and take control of your health. It is also an accurate alternative to the pregnancy test for gestational diabetes, so talk to your doctor if you’d prefer to test yourself, though you may have to explain your reasons!
Desert Springs Hospital has developed specific protocols, computerized technology and systems to provide diabetes patients highest level of care. For example, the staff use special tools to maintain tight blood-sugar control during patient hospitalizations, such as the Glucommander, a computer that works with an insulin drip to monitor patients’ blood-sugar levels. 
Any form of carbohydrate is eventually broken down by the body into glucose, a simple form of sugar. While the body can use glucose for fuel, levels that exceed what  is needed are toxic to the body. In the long run, that whole wheat muffin, cup of millet, or bowl of oatmeal turns into the exact same thing as a cup of soda, a donut or a handful of candy.
If a drug treatment’s efficacy is questionable, the adverse event and safety profile is even more important. As a popular food additive, cinnamon seems safe when consumed at doses of a few grams per day. (1 teaspoon of the powder is about 4.75 grams).  While the trials have been small and short in duration, no significant adverse events have been reported. It is Generally Recognised as Safe (GRAS), as a seasoning and flavoring. However, reversible liver damage has been reported with therapeutic use, due to coumarin, a chemical also present in Cassia cinnamon. Those with liver impairment or dysfunction may be at greater risk of harm. There are no published long-term studies with cinnamon that inform us whether chronic consumption of high doses is safe.
Known as gurmar, or “sugar destroyer,” in Aryuvedic medicine, Gymnema has consistently shown benefits in patients with diabetes. The most active part of Gymnema seems to be gymnemic acids, and many products list the percentage each capsule contains. Analyses of the herb for diabetes have shown it may be helpful in lowering high blood sugar levels. It can delay glucose absorption from the intestine. It was shown to regenerate pancreatic tissues, allowing more insulin to be produced, and help regulate insulin secretion. It also increases the utilization of glucose by the cell, reducing insulin resistance and decreasing appetite, especially for sweets. I usually use it in capsules, or in liquid form in some patients. Due to Gymnema having a very similar shape to glucose, it can fit into the taste bud receptors for sugar; it thus has unbelievable power to actually prevent the taste of sweets in the mouth for up to 1.5 hours. When I have a patient who is still struggling to not eat cake and cookies and so forth at parties or celebrations (or just in general), I will give her a tincture of Gymnema sylvestre. This is one of my favorite herbs for diabetes. In capsule form doses of 400 to 2,400 mg a day are recommended.
Jump up ^ Arora, Karandeep Singh; Binjoo, Nagesh; Reddy, G. V. Ramachandra; Kaur, Prabhpreet; Modgil, Richa; Negi, Lalit Singh (2015-01-01). "Determination of normal range for fasting salivary glucose in Type 1 diabetics". Journal of International Society of Preventive & Community Dentistry. 5 (5): 377–82. doi:10.4103/2231-0762.165923. ISSN 2231-0762. PMC 4606601. PMID 26539389.
Chronic exposure of β-cells to triacylglycerol or fatty acids either in vitro or in vivo decreases β-cell capacity to respond to an acute increase in glucose levels (57,58). This concept is far from new (59,60), but the observations of what happens during reversal of diabetes provide a new perspective. β-Cells avidly import fatty acids through the CD36 transporter (24,61) and respond to increased fatty acid supply by storing the excess as triacylglycerol (62). The cellular process of insulin secretion in response to an increase in glucose supply depends on ATP generation by glucose oxidation. However, in the context of an oversupply of fatty acids, such chronic nutrient surfeit prevents further increases in ATP production. Increased fatty acid availability inhibits both pyruvate cycling, which is normally increased during an acute increase in glucose availability, and pyruvate dehydrogenase activity, the major rate-limiting enzyme of glucose oxidation (63). Fatty acids have been shown to inhibit β-cell proliferation in vitro by induction of the cell cycle inhibitors p16 and p18, and this effect is magnified by increased glucose concentration (64). This antiproliferative effect is specifically prevented by small interfering RNA knockdown of the inhibitors. In the Zucker diabetic fatty rat, a genetic model of spontaneous type 2 diabetes, the onset of hyperglycemia is preceded by a rapid increase in pancreatic fat (58). It is particularly noteworthy that the onset of diabetes in this genetic model is completely preventable by restriction of food intake (65), illustrating the interaction between genetic susceptibility and environmental factors.
McInnes, N., Smith, A., Otto, R., Vandermey, J., Punthakee, Z., Sherifali, D., … Gerstein, H. C. (2017, March 15). Piloting a remission strategy in type 2 diabetes: Results of a randomized controlled trial. The Journal of Clinical Endocrinology and Metabolism, 2016-3373. Retrieved from https://academic.oup.com/jcem/article-abstract/doi/10.1210/jc.2016-3373/3070517/Piloting-a-Remission-Strategy-in-Type-2-Diabetes?redirectedFrom=fulltext
These are a relatively new class of drugs used to treat type 2 diabetes. They are oral medications that work by blocking the kidneys' reabsorption of glucose, leading to increased glucose excretion and reduction of blood sugar levels. The US FDA approved the SGLT2 inhibitors canagliflozin (Invokana) in March 2013 and dapagliflozin (Farxiga) in January 2014.
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