Checkout Secure


We can customize orders  

While it is true that elevated blood sugar is the defining feature of diabetes, the reasons for abnormal sugar seem to differ tremendously from person to person.It is in understanding exactly what signals are involved that raises the hope of providing the right care for each person each day, rather than giving everyone the same drug.

#infections, #inflammation

A startling new discovery about a hormone released from the bone is significantly changing scientistsí understanding of diabetes and giving new clues about how to deal with the ìBig D.î Considered to be the fifth leading killer of Americans, diabetes is a disease in which the bodyís failure to regulate blood sugar (glucose) can lead to serious and even fatal complications. The regulation of glucose entails the body's monitoring of how much sugar is present in a personís blood; how much is taken up by cells for fuel; and how much is released from energy stores. These processes are performed by the pancreas, the liver, muscles, and fat. Other specific types of diabetes, which may account for 1% to 2% of all diagnosed cases, result from specific genetic syndromes, surgery, drugs, malnutrition, infections, and other illnesses.

However, new research suggests that the issue is even more complex than what it seems to be. A hormone from the skeleton may influence how the body handles sugar. There is also increasing evidence that demonstrates that the signals from the immune system, the brain, and the gut play very important roles in controlling glucose and lipid metabolism. These findings are mainly relevant to Type 2 diabetes, the more common kind, which comes during adulthood.

While it is true that having elevated blood sugar is the defining feature of diabetes, the reasons for abnormal sugar tend to be different from one individual to another. It is in understanding exactly what signals are involved that raises the hope of providing the right care for each person each day, rather than giving everyone the same drug.

When researchers from Columbia University Medical Center published the results last summer, scientists were astounded that a hormone released from the bone may help regulate blood glucose. Lead researcher, Dr. Gerard Karsenty, first described the findings at a conference where the assembled scientists appeared to be overwhelmed by the potential implications of the study. It was the first time that the skeleton was actually seen as an endocrine organ, producing hormones that act outside of the bone.

In his previous work, he had shown that a hormone produced by fat, called leptin, is an important regulator of bone metabolism. In this work, he tested the idea that if fat regulates bone, bone, in essence, must regulate fat. His experiment with mice revealed that a previously known substance called osteocalcin, which is produced by bone, acted by sending signals to the fat cells as well as the pancreas. The net effect is to improve how mice secrete and handle insulin, the hormone that helps the body move glucose from the bloodstream into cells of the muscle and liver, where it can be used for energy or stored for future use. Insulin is also important in regulating lipids.

Patients with Type 2 diabetes no longer heed the hormoneís directives due to the cells' resistance to insulin. Their blood glucose levels surge and production of insulin in the pancreas declines as well. The experiment revealed an increase in osteocalcin which addressed the twin problems of insulin resistance and low insulin production. The mice became more sensitive to insulin and it increased their insulin production, thus bringing their blood sugar down. As a bonus, it also made obese mice less fat.

Should osteocalcin works in humans as well, it can be considered as a ìunique new treatmentî for Type 2 diabetes. Most current diabetes drugs either raise insulin production or improve insulin sensitivity, but not both. Drugs that increase production tend to make insulin resistance worse. A deficiency in osteocalcin could also turn out to be a cause of Type 2 diabetes.

The immune system is considered to be another cause of glucose regulation. In 2003, researchers from two laboratories found that fat tissue from obese mice contained an abnormally large number of macrophages, immune cells that contribute to inflammation.
Scientists have long suspected that inflammation was somehow related to insulin resistance, which precedes nearly all cases of Type 2 diabetes. In the early 1900s, diabetics were sometimes given high doses of aspirin, which is an anti-inflammatory. Only in the past few years has research into the relationship of obesity, inflammation and insulin resistance becomes a serious concern.

A number of researchers agree that obesity is accompanied by a state of chronic, low-grade inflammation in which some immune cells are activated, which may be a primary cause of insulin resistance. They also agree that the main type of cell responsible for the inflammation is the macrophage.

Should more research prove the initial findings to be true, there would be certainly greater hope of relief and treatment for diabetics everywhere

Older Post Newer Post


I agree to subscribe to updates from Insulin Syringes Deals-

Contact us

How to Inject Insulin Using a Syringe

Hospitals can license this animation for patient education and content marketing initiatives.

Injecting with an Insulin syringe

A syringe is the primary injecting device commonly used in India. While injecting insulin, one should confirm the right injection technique.

Don't Take Our Word For it! Here's What Our Customers Think:

Added to cart!

10% off !

When you complete your order in next:



enter promo code SAVE10 at the CHECKOUT

Spend $x to Unlock Free Shipping Free shipping when you order over XX You Have Qualified for Free Shipping Notice: We are still open during the COVID-19 crisis. 🇺🇸 You Have Achieved Free Shipping Free Shipping For Over $x to We can customize orders You Have Achieved Free Shipping Free shipping when you order over XX ou Have Qualified for Free Shipping