Insulin therapy requires close monitoring and a great deal of patient education, as improper administration is quite dangerous. For example, when food intake is reduced, less insulin is required. A previously satisfactory dosing may be too much if less food is consumed causing a hypoglycemic reaction if not intelligently adjusted. Exercise decreases insulin requirements as exercise increases glucose uptake by body cells whose glucose uptake is controlled by insulin, and vice versa. In addition, there are several types of insulin with varying times of onset and duration of action.
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.
When you have type 1 or type 2 diabetes, you need to be very aware of not only what you eat, but also when and how much you eat. A Certified Diabetes Educator (CDE) at Joslin can work with you to develop a healthy meal plan that fits your lifestyle. Following a meal plan can also help you lose weight and lower your risk of developing complications.
An aromatic herb that is used commonly to add flavor and aroma to meats and soups, Rosemary also helps normalize blood sugar levels naturally. It promotes weight loss as well, which is a double boon for many diabetics who struggle with weight issues. A research conducted in Jordan to study the effects of rosemary on lipid profile in diabetic rats proved that rosemary has no significant influence on serum glucose level and lipid profile of normal rats. But when rosemary extract was administered to diabetic rats for 4 weeks, their blood sugar levels reduced by 20%, cholesterol levels by 22%, triglyceride levels by 24%, and LDL by 27% while HDL increased by 18% respectively. The study was published in African Journal of Plant Science Vol. 6 in 2012.
If you have type 2 diabetes, sometimes eating healthy and engaging in physical activity is not enough. Your doctor may give you oral medication to help control your blood glucose levels. For people with type 1 diabetes (and some people with type 2 diabetes) this means taking insulin. People with type 1 diabetes must take insulin to control diabetes--and this can only be done through multiple injections or by an insulin pump, a small device that delivers insulin continuously throughout the day. For more on medications and diabetes, click here.
Eating right and exercising more often is good for everyone. But it's especially important for people with type 2 diabetes. When people put on too much body fat, it's because they're eating more calories than they use each day. The body stores that extra energy in fat cells. Over time, gaining pounds of extra fat can lead to obesity and diseases related to obesity, like type 2 diabetes.
^ Jump up to: a b Cox DJ, Kovatchev BP, Anderson SM, Clarke WL, Gonder-Frederick LA (November 2010). "Type 1 diabetic drivers with and without a history of recurrent hypoglycemia-related driving mishaps: physiological and performance differences during euglycemia and the induction of hypoglycemia". Diabetes Care. 33 (11): 2430–35. doi:10.2337/dc09-2130. PMC 2963507. PMID 20699432.
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.
Isobel Murray, 65 from North Ayrshire, was one of those who took part. Over two years she lost three and a half stone (22kg) and no longer needs medication. “It has transformed my life,” she said. “I had type 2 diabetes for two to three years before the study. I was on various medications which were constantly increasing and I was becoming more and more ill every day.
Depending on the severity of diabetes, an individual can keep control on his/her disease using diet alone, diet & oral hypoglycemic drugs, and diet & insulin. While a mild diabetic can practice disease control with diet alone, a severe diabetic might need to practice diet control along with insulin administration. Whatever the method of controlling diabetes, routine and reliability should be strictly pursued. A person suffering from diabetes should have limited amount of carbohydrates and fats along with moderate amount of protein in the diet. High-fiber diet like vegetables, whole wheat products, oats, whole legumes prove to be more beneficial. Let us have a look at what all should be had and what all should be avoided.
Pancreatic islet transplantation is an experimental treatment for poorly controlled type 1 diabetes. Pancreatic islets are clusters of cells in the pancreas that make the hormone insulin. In type 1 diabetes, the body’s immune system attacks these cells. A pancreatic islet transplant replaces destroyed islets with new ones that make and release insulin. This procedure takes islets from the pancreas of an organ donor and transfers them to a person with type 1 diabetes. Because researchers are still studying pancreatic islet transplantation, the procedure is only available to people enrolled in research studies. Learn more about islet transplantation studies.
There is no prescribed diet plan for diabetes and no single “diabetes diet”. Eating plans are tailored to fit each individual's needs, schedules, and eating habits. Each diabetes diet plan must be balanced with the intake of insulin and other diabetes medications. In general, the principles of a healthy diabetes diet are the same for everyone. Consumption of various foods in a healthy diet includes whole grains, fruits, non-fat dairy products, beans, lean meats, vegetarian substitutes, poultry, or fish.