The utilization of liposome in medical sector started in the mid-1960s, and is currently regarded as one of the medical innovation in the 20th century. Though still young in clinical medicine, liposomal encapsulation technology simply referred to as LET has gained popularity as a possible replacement of most medical administration methods currently in place.
Unlike other methods like in the use of needles for injections, swallowing of tablets, capsules or even syrup where the drug or the substance has to directly pass through the body tissues that are not the direct target, leading to possible reactions, loss of concentration or even interfering with the normal body functions, this method of drug administration employs an ingenious solution to drug administration. In fact, clinical trials have proven that it is better way of treating racehorses without the need of needles or syringes.
LET in its simplest form describes a process of using a phospholipid membrane also known as liposome to encase a given amount of pharmaceutical compounds and sometimes herbs to protect them from degrading when passing through the gastrointestinal tract. It has an excellent transference capability, making it a preferred option, particularly for the providers of nutritional supplements, beauty products and the topical moisturizers.
Phospholipid liposome is used come up with a defense that is capable of repelling the negative impacts that can result from the body radicals, digestive juices, the alkaline solutions, and even salts. Since the protection only lasts when the compounds are on the way to their target to the moment they reach the targeted tissue, the cells in the targeted tissue immediately allows the compound in and transfers the same into the intracellular space making the method so effective.
The effectiveness of this technology relies on the fact that liposomes easily penetrate cell walls and many other infectious biofilms, which allows for a highly effective delivery system against these pathological infections. Research has found that 5 grams of Vitamin C encased in liposomes is as effective as 50 grams of Vitamin C that is delivered intravenously demonstrating how effective this technology is in terms of delivery of compounds to the targeted tissues.
Clearly, the advantages of LET over the other forms of drug delivery are many. It allows nutrients to transport power packed natural compounds to the targeted tissues and organs without discomposing the same. This makes a lot of medical and economic sense. Normally, the drugs would be affected by a number of environmental factors as they pass to the tissues. These include oxygen, moisture, differing pH, and enzymes among others. This in addition to factors that affect absorption of nutrients into the body, such as fillers, sugars, binders, and sugar can cause a problem due to incomplete absorption.
The introduction of phospholipids into the body comes with its own merits. It eliminates serum lipids, diminishes platelet collection, cholesterol, triglyceride, and expands promotes good cholesterol. Notwithstanding this, it helps support immunity, enhances nature of memory, secures the liver and enhances one's capacity to persist exercise.
Even with all these potential advantages, the studies are not conclusive of the safety of this technology. It is also advisable to design the most effective drug administration that is a cocktail of this and other conventional methods that have been used for centuries to attain the best results.
Unlike other methods like in the use of needles for injections, swallowing of tablets, capsules or even syrup where the drug or the substance has to directly pass through the body tissues that are not the direct target, leading to possible reactions, loss of concentration or even interfering with the normal body functions, this method of drug administration employs an ingenious solution to drug administration. In fact, clinical trials have proven that it is better way of treating racehorses without the need of needles or syringes.
LET in its simplest form describes a process of using a phospholipid membrane also known as liposome to encase a given amount of pharmaceutical compounds and sometimes herbs to protect them from degrading when passing through the gastrointestinal tract. It has an excellent transference capability, making it a preferred option, particularly for the providers of nutritional supplements, beauty products and the topical moisturizers.
Phospholipid liposome is used come up with a defense that is capable of repelling the negative impacts that can result from the body radicals, digestive juices, the alkaline solutions, and even salts. Since the protection only lasts when the compounds are on the way to their target to the moment they reach the targeted tissue, the cells in the targeted tissue immediately allows the compound in and transfers the same into the intracellular space making the method so effective.
The effectiveness of this technology relies on the fact that liposomes easily penetrate cell walls and many other infectious biofilms, which allows for a highly effective delivery system against these pathological infections. Research has found that 5 grams of Vitamin C encased in liposomes is as effective as 50 grams of Vitamin C that is delivered intravenously demonstrating how effective this technology is in terms of delivery of compounds to the targeted tissues.
Clearly, the advantages of LET over the other forms of drug delivery are many. It allows nutrients to transport power packed natural compounds to the targeted tissues and organs without discomposing the same. This makes a lot of medical and economic sense. Normally, the drugs would be affected by a number of environmental factors as they pass to the tissues. These include oxygen, moisture, differing pH, and enzymes among others. This in addition to factors that affect absorption of nutrients into the body, such as fillers, sugars, binders, and sugar can cause a problem due to incomplete absorption.
The introduction of phospholipids into the body comes with its own merits. It eliminates serum lipids, diminishes platelet collection, cholesterol, triglyceride, and expands promotes good cholesterol. Notwithstanding this, it helps support immunity, enhances nature of memory, secures the liver and enhances one's capacity to persist exercise.
Even with all these potential advantages, the studies are not conclusive of the safety of this technology. It is also advisable to design the most effective drug administration that is a cocktail of this and other conventional methods that have been used for centuries to attain the best results.
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