Pasta is usually a no-no for those with high blood sugar as it has a high glycemic index. But researchers reveal a trick to allow those with diabetes to enjoy the popular dish: cooling and then reheating it the next day.
Express.co.uk reports the following:
……eating cooled or reheated pasta can help reduce the rise of blood glucose levels, according to an experiment led by the University of Surrey’s Dr Denise Robertson and TV doctor Chris van Tulleken.
This is because when starch is cooked in water and then cooled, it changes shape.
The new structure is resistant to enzymes in the body so can’t be digested, becoming what is known as ‘resistant starch’.
When regular starch becomes resistant starch, most of the sugars it contains aren’t released in the gut, meaning the body will take in fewer calories from the same food.
When study authors tested their theory, they found cooled and reheated pasta did not cause the same spike in blood sugar as freshly made pasta. There was still a surge in blood sugar, but not as much.
What is resistant starch?
There are four classifications of resistant starch.
Resistant starches get their name by being “resistant” to digestion. They are carbohydrates that don’t get broken down as easily and act like fiber. The less they are digested, the less their “sugar” can enter the blood stream (diabetes explained below). Starches that are cooled and then reheated undergo changes in their carbohydrate composition, rendering them less vulnerable to enzymatic breakdown.
Foods with resistant starches are found to be more beneficial when it comes to insulin sensitivity and gut health. They include:
- Green Bananas
- Whole grains
- Cooked and cooled rice and potatoes
What is Diabetes?
Diabetes is a disease in which the body doesn’t utilize and metabolize sugar properly. When we consume food, its broken down into proteins, nutrients, fats, water, and sugar. These components are necessary for cell growth and function. They get absorbed in the small intestine and make it to the blood stream. In order for a cell to utilize sugar, it needs the hormone insulin to help guide it in. It’s similar to a key that fits in the keyhole of the “door” of the cell, opening it up so sugar can enter. Insulin is produced in the pancreas, an organ that receives signals when one eats to release insulin in preparation of the sugar load coming down the pike.
So I imagine our mouth like a waiting room, the blood stream like a hallway, and the cells of the body the rooms along the hallway. Insulin is the key to open the cells’ “doors” allowing sugar to enter. If the sugar does not get in, it stays in the bloodstream “hallway” and doesn’t feed the cell. Weight loss occurs, and individuals may become more thirsty as the sugar in the blood makes it fairly osmotic, something the body wants to neutralize, reduce. The kidneys are going to want dump the excess sugar, so to do so, one would urinate more, again causing thirst. So when a diabetic loses weight, urinates more frequently and becomes thirsty, you now understand why.
Complications of Diabetes
Cardiovascular disease – Sugar is sticky, so it can easily add to atherosclerotic plaques.
Blindness – high sugar content draws in water to neutralize and small blood vessels in the eye can only take so much fluid before they burst. Moreover, high blood sugar weakens blood vessels.
Kidney disease – the kidneys work overtime to eliminate the excess sugar. Moreover, sugar laden blood isn’t the healthiest when they themselves need nourishment.
Infections – pathogens love sugar. Its food for them. Moreover blood laden with sugar doesn’t allow immune cells to work in the most opportune environment.
Neuropathy – nerves don’t receive adequate blood supply due to the diabetes-damaged blood flow and vessels, hence they become dull or hypersensitive causing diabetics to have numbness or pain.
Dementia – as with the heart and other organs, the brain needs healthy blood and flow. Diabetes has been found to increase risk of Alzheimer’s as well.
Type I vs. Type II Diabetes
Type I Diabetes, previously called insulin dependent or Juvenile diabetes, occurs when the pancreas doesn’t produce insulin, possibly from the immune system destroying the cells that produce the hormone. When this occurs there is rapid weight loss and death could occur if the cells don’t get the sugar they need. Insulin has to be administered regularly.
Type II Diabetes, previously called non-insulin dependent or adult-onset diabetes, occurs in those who began with a fully functioning pancreas but as they age the pancreas produces less insulin, called insulin deficiency, or the insulin produced meets resistance. This is the fastest growing type of diabetes in both children and adults.
What is insulin resistance?
Insulin resistance, if using our hallway and door analogy, is as if someone is pushing against the door the insulin is trying to unlock. As we know, those with obesity are at higher risk for diabetes, hence fat can increase insulin resistance. It’s also been associated with an increase in heart disease.
Blood sugar numbers
If your fasting blood sugar (glucose) is greater than 126 mg/dl, or your non fasting blood sugar is greater than 200 mg/dl, you may be considered diabetic. Pre-diabetes occurs when the fasting blood sugar is between 100 and 125 mg/dl. If ignored, and the sugar rises, pre-diabetics may go on to develop diabetes.
1/3 of American adults are currently pre-diabetic. Experts predict 1/3 of US Adults will be diabetic by the year 2050. Although genetics plays a big role, decreasing ones sugar intake and maintaining an active lifestyle can help ward of diabetes.
Foods high in sugar and carbohydrates increase one’s risk, so a diet rich in vegetables and lean meats is preferred.
For more information, visit http://www.diabetes.org/.
Daliah Wachs, MD, FAAFP is a nationally syndicated radio personality on GCN Network, KDWN, and iHeart Radio.
She is also a Board Certified Family Physician and Assistant Professor at Touro University Nevada