In order to reverse diabetes naturally, remove foods like refined sugar, grains, conventional cow’s milk, alcohol, GMO foods and hydrogenated oils from your diet; incorporate healthy foods like foods high in fiber, chromium, magnesium, healthy fats and clean protein, along with foods with low glycemic loads; take supplements for diabetes; follow my diabetic eating plan; and exercise to balance blood sugar.
Clearly separate from the characteristic lack of acute insulin secretion in response to increase in glucose supply is the matter of total mass of β-cells. The former determines the immediate metabolic response to eating, whereas the latter places a long-term limitation on total possible insulin response. Histological studies of the pancreas in type 2 diabetes consistently show an ∼50% reduction in number of β-cells compared with normal subjects (66). β-Cell loss appears to increase as duration of diabetes increases (67). The process is likely to be regulated by apoptosis, a mechanism known to be increased by chronic exposure to increased fatty acid metabolites (68). Ceramides, which are synthesized directly from fatty acids, are likely mediators of the lipid effects on apoptosis (10,69). In light of new knowledge about β-cell apoptosis and rates of turnover during adult life, it is conceivable that removal of adverse factors could result in restoration of normal β-cell number, even late in the disease (66,70). Plasticity of lineage and transdifferentiation of human adult β-cells could also be relevant, and the evidence for this has recently been reviewed (71). β-Cell number following reversal of type 2 diabetes remains to be examined, but overall, it is clear that at least a critical mass of β-cells is not permanently damaged but merely metabolically inhibited.
Although a defect in mitochondrial function is associated with extremes of insulin resistance in skeletal muscle (30), this does not appear to be relevant to the etiology of type 2 diabetes. No defect is present in early type 2 diabetes but rather is directly related to ambient plasma glucose concentration (31). Observed rates of mitochondrial ATP production can be modified by increasing or decreasing plasma fatty acid concentration (32,33). Additionally, the onset of insulin stimulation of mitochondrial ATP synthesis is slow, gradually increasing over 2 h, and quite distinct from the acute onset of insulin’s metabolic effects (34). Although it remains possible that secondary mitochondrial effects of hyperglycemia and excess fatty acids exist, there is no evidence for a primary mitochondrial defect underlying type 2 diabetes.
Alpha lipoic acid is an antioxidant that helps turn glucose into fuel for the body. It effectively improves insulin sensitivity and reduces symptoms of diabetic neuropathy, such as weakness, pain and numbness that’s caused by nerve damage. Although we make alpha lipoic acid and it can be found in some food sources, like broccoli, spinach and tomatoes, taking an ALA supplement will increase the amount that circulates in your body, which can be extremely beneficial when trying to reverse diabetes naturally. (17)
The care team may recommend that your child use a continuous glucose monitor (CGM). A CGM is a wearable device that can measure blood sugar every few minutes around the clock. It's measured by a thread-like sensor that is inserted under the skin and secured in place. Sensors can stay in place for about a week before they have to be replaced and are accurate enough to replace frequent finger-stick testing. The more frequent CGM blood sugar readings can help you and the care team do an even better job of troubleshooting and adjusting your child's diabetes management plan to improve blood sugar control.
Dr. Mona Morstein is a naturopathic physician with a medical practice focused in integrative diabetes treatment. Her clinic, Arizona Integrative Medical Solutions, is located in Tempe, Arizona, where she sees patients of all ages and genders for acute and chronic conditions. An expert on prediabetes and diabetes, she is a frequent lecturer at conferences and webinars, and is the founder and executive director of The Low Carb Diabetes Association. Dr. Morstein is also a member of the Arizona Diabetes Coalition. Visit her website lowcarbdiabetes.org
Treating and managing diabetes can seem overwhelming at times. But the diabetes health care team is there for you. Your child's diabetes management plan should be easy to understand, detailed, and written down for easy reference. You also should have the names and phone numbers of the health care team members in case of emergencies or if you have questions.
Cloves protect the heart, liver and lens of the eye of diabetic rats, according to studies. This spice contains 30% of the antioxidant phenol in dry weight, along with antioxidants anthocyanins and quercetin. As a result, cloves have antiseptic as well as germicidal properties. It also offers anti-inflammatory, analgesic and digestive health benefits for diabetics.
Sulfonylureas are the most commonly prescribed diabetes medicines. These medicines help your pancreas make insulin. They are inexpensive and have few side effects. There are 3 types of sulfonyureas: glipizide, glimepiride, and glyburide. Side effects may include weight gain and low level of sodium in the blood. Sulfonylureas can be taken alone or with metformin, pioglitazone (a thiazolidinedione), or insulin. If you’re allergic to sulfa, you can’t take a sulfonylurea.
Glucose in the bloodstream passes through the kidneys, where it can either be excreted or reabsorbed. Sodium-glucose transporter 2 (SGLT2) works in the kidney to reabsorb glucose, and a new class of medication, SGLT2 inhibitors, block this action, causing excess glucose to be eliminated in the urine. Canagliflozin (Invokana), dapagliflozin (Farxiga), and empagliflozin (Jardiance) are SGLT2 inhibitors that have been approved by the FDA to treat type 2 diabetes. Because they increase glucose levels in the urine, side effects can include urinary tract and yeast infections.
The thin silicon patch – about the size of a penny – includes more than 100 microneedles, each the size of an eyelash. “The microneedles are loaded with enzymes that are able to sense blood glucose levels and trigger rapid release of insulin into the blood stream in response to high glucose,” according to the American Diabetes Association. “Dr. Gu and his colleagues have tested this technology in a mouse model of type 1 diabetes where it was able to effectively lower blood glucose levels for up to nine hours – a promising result that sets up additional pre-clinical tests (in animals) and, hopefully, eventual clinical trials (in humans).”
The NIDDK has played an important role in developing “artificial pancreas” technology. An artificial pancreas replaces manual blood glucose testing and the use of insulin shots or a pump. A single system monitors blood glucose levels around the clock and provides insulin or a combination of insulin and a second hormone, glucagon, automatically. The system can also be monitored remotely, for example by parents or medical staff.
You’ll give yourself insulin shots using a needle and syringe. You will draw up your dose of insulin from the vial, or bottle, into the syringe. Insulin works fastest when you inject it in your belly, but you should rotate spots where you inject insulin. Other injection spots include your thigh, buttocks, or upper arm. Some people with diabetes who take insulin need two to four shots a day to reach their blood glucose targets. Others can take a single shot.
Big pharma are in the early stages of developing their own cell therapy approaches for diabetes. Novo Nordisk, one of the largest providers of diabetes treatments, is bidding for stem cells and an encapsulation device, stating that the first clinical trial could take place in the “next few years.” Sanofi, also a big name in diabetes, is working with the German Evotec in a beta cell replacement therapy for diabetics.