The Eventful Liposomal Formulation Procedural
Among the major areas of care fixated by people is their health. As such, advances in medicines are duly welcome and highly appreciated. Progress in research of various diseases and development of drugs to help curb them is always a good indicator. One such aspect of progress has been noted in liposomal formulation.
There has always existed the problem of ingested drugs being digested before reaching their intended target areas in the body. The process of these formulations was discovered as scientists were looking for a solution to this problem. In this solution, the drug would be closed in and protected by a layer of phospholipids and aqueous solution.
The structural composition of the liposomes was adequately suited for the job at hand. It is composed of a mainly liquid core. This is enveloped by a layer of phospholipids, which could be either synthetic or natural. The drugs to be transported, depending on their chemical composition, would either attach to the core or upper layers without being destroyed or denatured.
The core structure of liposomes is what causes them to be preferred among researchers of various fields and disciplines. They are formed when phospolipids are immersed in water and a specific amount of heat directed toward them. To determine if it is an appropriate carrier for a given drug, the chemical composition should be bench-marked against that of the drug, so as to avert reactions.
Advances such as these have led to further progress in the medical field. The most famous being development of Doxorubicin, a form of anthracycline. This is a drug that was developed to curb the spread of cancer. It does this in two stages, first, by inserting base stains of DNA and RNA molecules which inhibits replication of cells. The second phase is inhibition of an enzyme known as topoisomerase II, which serves the same purpose of inhibition of cellular growth.
It is due to advances in the medical field that control of many diseases is not a reality. Terminal illnesses previously viewed as a death sentence are now controllable and some even treatable. Research on cancer and liposomes has led to development of anti-cancer drugs an their carriers. The development has brought about continuing tests and usage of doxorubicin, paclitaxel, cisplatin, lipoplatin, aroplatin among others.
Some diseases which were considered deadly can now be mitigated via vaccines. Research in the field of liposomes has led to development of several vaccines which can now be actively used as preventative medicine. Most however are still undergoing rigorous testing. Some of the vaccines created include Inflexal V against influenza, Epaxal for Hepatitis, and Stimuvax for cancer.
Another point of progress thanks to this formulation has been in delivery of dietary supplements. It is still a new area under testing, but has great promise considering the level of success the formulations has garnered from targeted drug delivery. The process of the formulation is hence referred to as a new era of medical advances.
There has always existed the problem of ingested drugs being digested before reaching their intended target areas in the body. The process of these formulations was discovered as scientists were looking for a solution to this problem. In this solution, the drug would be closed in and protected by a layer of phospholipids and aqueous solution.
The structural composition of the liposomes was adequately suited for the job at hand. It is composed of a mainly liquid core. This is enveloped by a layer of phospholipids, which could be either synthetic or natural. The drugs to be transported, depending on their chemical composition, would either attach to the core or upper layers without being destroyed or denatured.
The core structure of liposomes is what causes them to be preferred among researchers of various fields and disciplines. They are formed when phospolipids are immersed in water and a specific amount of heat directed toward them. To determine if it is an appropriate carrier for a given drug, the chemical composition should be bench-marked against that of the drug, so as to avert reactions.
Advances such as these have led to further progress in the medical field. The most famous being development of Doxorubicin, a form of anthracycline. This is a drug that was developed to curb the spread of cancer. It does this in two stages, first, by inserting base stains of DNA and RNA molecules which inhibits replication of cells. The second phase is inhibition of an enzyme known as topoisomerase II, which serves the same purpose of inhibition of cellular growth.
It is due to advances in the medical field that control of many diseases is not a reality. Terminal illnesses previously viewed as a death sentence are now controllable and some even treatable. Research on cancer and liposomes has led to development of anti-cancer drugs an their carriers. The development has brought about continuing tests and usage of doxorubicin, paclitaxel, cisplatin, lipoplatin, aroplatin among others.
Some diseases which were considered deadly can now be mitigated via vaccines. Research in the field of liposomes has led to development of several vaccines which can now be actively used as preventative medicine. Most however are still undergoing rigorous testing. Some of the vaccines created include Inflexal V against influenza, Epaxal for Hepatitis, and Stimuvax for cancer.
Another point of progress thanks to this formulation has been in delivery of dietary supplements. It is still a new area under testing, but has great promise considering the level of success the formulations has garnered from targeted drug delivery. The process of the formulation is hence referred to as a new era of medical advances.
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