Understanding Benfotiamine: The Fat-Soluble, Bioavailable and Physiologically Active Form of Thiamine |
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Understanding Benfotiamine: The Fat-Soluble, Bioavailable and Physiologically Active Form of Thiamine | Darrell Miller | 07/27/23 |
Date:
July 27, 2023 12:12 PM
Author: Darrell Miller
(support@vitanetonline.com)
Subject: Understanding Benfotiamine: The Fat-Soluble, Bioavailable and Physiologically Active Form of Thiamine
What if there existed a form of thiamine that was more bioavailable and physiologically active than the conventional form we all know about? Well, that form does exist, and it is called Benfotiamine. Benfotiamine has been gaining popularity lately, especially among people dealing with diabetes and other metabolic disorders. But what exactly is Benfotiamine, and what makes it different? Lets explore Benfotiamine, its bioavailability, and its physiological effects.
Thiamine, also known as Vitamin B1, is a nutrient that plays a crucial role in energy production, nerve function, and metabolism. It is a water-soluble vitamin, which means it dissolves in water and is not stored by the body. However, conventional forms of thiamine have a limited ability to cross cell membranes and are easily excreted out of the body, rendering it ineffective for some individuals. This is where Benfotiamine comes in; it is a modified form of Vitamin B1 that is fat-soluble, highly bioavailable, and because cells are wrapped in lipid fat this form of B1 is capable of crossing cell membranes with ease.
Since our cell membranes are composed of lipids, fat-soluble nutrients can easily penetrate the cell barrier and get into living cells where the vitamin is needed. Upon entering the bloodstream, benfotiamine is converted to thiamin pyrophosphate (TPP), the biologically active co-enzyme of thiamin, which is responsible for energy metabolism. By raising the blood levels of TPP, benfotiamine has been shown to support glucose metabolism, reduce oxidative stress and inflammation, and protect against the damage caused by high levels of advanced glycation end products (AGEs).
In addition to its bioavailability, benfotiamine has been shown to have several physiological effect on the body. One of the key enzymes that benfotiamine influences is transketolase, which is involved in the pentose phosphate pathway, a metabolic pathway that generates NADPH, a vital molecule that protects cells against oxidative stress. By stimulating transketolase, benfotiamine supports the diversion of excess glucose to the pentose phosphate pathway, thereby reducing the production of reactive oxygen species and increasing the production of NADPH.
Another significant benefit of benfotiamine is that it helps protect the nervous system. Chronic high blood glucose levels are known to cause oxidative stress and to damage the peripheral and central nervous systems. However, benfotiamine has been shown to help lower oxidative stress markers and reduce the risk of nerve damage. This can in turn help reduce pain, numbness, and tingling sensations associated with nerve damage, making it a promising adjunct therapy for people with diabetic neuropathy.
In Summary: benfotiamine is a modified and bioavailable form of thiamine that offers unique benefits compared to conventional forms of Vitamin B1. Its fat-solubility enables it to cross cell membranes, raise levels of thiamin pyrophosphate, stimulate the transketolase enzyme, and support proper glucose metabolism. Its notable effects on the nervous system make it an attractive therapeutic agent for people with diabetic neuropathy. If you're seeking an alternative and highly effective form of thiamine, benfotiamine is definitely worth considering. Give it a try today!