Polymer Based Drug Delivery: One of the New and Interesting Fields to Make Our Patients Have All Medicine They Need It is made of long chains which are composed from certain basic building blocks called polymers, also meet tetrahedral ones. These polymers can deliver drugs to carry them to specific areas of the body, potentially increasing treatment efficiency. Hundreds of thousands of scientists are working to make these polymers able to carry the medications to patients at any given moment. This new research represents a critically important area that could revolutionize the way we address dozens, if not hundreds if disease states.
This leads to effective dosage of the medicine for treatment and residing longer time within the human body, which, in turn, is advantageous with polymer-based drug delivery. Polymers slow the degradation of drugs than normal. It means the medicine can stay in body for long time also which could be good in case of chronic therapy with respect to drug, so safer and more efficacious when given longer duration= better patient benefit. If it means needing fewer pills because medication will stay in your system longer than this news is going to sit well with a lot of folks.
A neat little trick that the polymer can perform for delivering a drug is via a type of particle known as Polymer nanoparticles. Because of their tiny size, made up of particles a few billions of a meter, they can penetrate into cells and deliver the drug to precisely where it is needed. They are designed to cruise the blood stream, seek out tissue elsewhere in the body on demand, and then eke out their payload of drugs over long stretches. Or as I called them, my personal elves, who know all your wishes!!
That is the point, and why polymer nanoparticles are so great: they bring drugs to a single part of the body (like say the brain), leaving other parts of your body clean. Such a targeted strategy is extremely important since treatment of partients with serious diseases such as cancer. Most of the Traditional treatments damage healthy cells which can also lead to severe painful symptoms for patients. While polymer nanoparticles can provide focused delivery to where the drug is needed in the body, reducing side-effects and improving therapeutic response.
The polymer-based pill also has the major benefit that it is made to slowly release medications into the bloodstream. That can translate into less-frequent dosing of the drug, and potentially fewer side effects for patients. If you are on long-term medications or have a chronic health condition this is in particular very handy. Wouldnt that be great, no more popping a pill every few hours.
The polymers used for drug delivery can improve the effectiveness of drugs in the human body. The role of the polymers present in them is to increase better absorption of the medicines and thereby more can be absorbed by the body. And the injection of the drug at decent places, too. This in turn can lead to health benefits and optimal patient outcomes, as the medicine is utilised safely and effectively.
The nanocarrier is currently in demand as it can carry a bulk of medicine to the site. These kinds of treatments are really put to good use in cancer therapy where you have to deliver quite high medicinal doses directly at tumor site with minimum to none side effect on normal cells. Somehow this reminds me of smart delivery system to just get the medicine in good enough quantity & the location where it should delivered.
Cóipcheart © Rega (Yixing) Technologies Co., Ltd. Gach ceart ar cosaint Beartas Príobháideachais
EN
CN
AR
HR
CS
DA
NL
FI
FR
DE
EL
IT
JA
KO
NÍL
PL
PT
RO
RU
ES
SV
IW
ID
LV
SR
UK
VI
ET
HU
TH
TR
FA
AF
MS
GA
CY
MK
KA
UR
BN
MN