Saturday, September 27, 2014

By Jody Leach


Drugs used to fight disease typically target specific physical systems or organs. Intravenous drips and injections are the most directly effective delivery method, transferring those medications directly to the blood. Orally administered drugs face degradation from the substances that accompany normal digestion. Liposomal encapsulation creates a protective bubble that wards off acids, while encouraging absorption.

Scientists first became aware of the process during the 1960s, and their discovery ultimately led to new and more effective means of administering drugs internally. Today, it is widely used in the treatment of age-related degenerative conditions affecting vision, stubborn fungal infections, and even some kinds of cancer. Although standard methods of delivery still predominate medically, encapsulation has proven to be a viable alternative.

In order to allow drugs to pass through the digestive tract without being broken down, they must be safely encased within a non-toxic protective barrier. Effectively shielding these individual microscopic capsules is possible when using an organic agent that mimics normal cellular walls. When that substance is activated using a variety of current methods, small individual bubbles made of liposomes are formed.

They are microscopic, and can easily pass through the stomach into the small intestine where the coating slowly dissolves, allowing the medication to be absorbed. In many cases, this process actually improves the therapeutic impact, and has the additional benefit of producing fewer side effects. Not all types of medicine are adaptable to this delivery system, which is primarily associated with water-soluble substances.

Because it involves fewer undesirable reactions than invasive delivery, there are immediate advantages of using this process. Liposomes are bio-compatible and biodegradable, leaving behind no undesirable toxins. They not only survive the onslaught of digestive acids, but are able to function as small time-release ports within the gut. When potentially toxic drugs must be used to fight cancers, fewer sensitive tissues face unwanted exposure.

Even though already proven effective through use, there is a slight down side. Production costs are significantly high, but will likely experience a decline as greater demand influences the market. Seal leakage has been reported in some cases, and oxidation sometimes reduces overall effectiveness. During the process some drugs have experienced a decline in their half-life, and stability issues have occurred, but positive benefits still predominate.

The past several years witnessed a transition from mainly medical use to include internal delivery of nutritional supplements and even cosmetic substances. Anecdotal evidence abounds regarding the increased effectiveness of administering both vitamins and minerals in this manner. For years Vitamin C has enjoyed an enviable reputation for fighting upper respiratory viral infections, and encapsulated forms are thought to produce even better results.

Widespread information is available today regarding personal home encapsulation of vitamins, minerals, and herbal extracts. Producing high-quality encapsulated products is both costly and involved, and is not proven to effectively combat aging issues. As this effective method of physical drug delivery is improved and becomes more widespread, consumers will benefit most from its introduction to existing beneficial heal regimens.




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