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Friday, October 4, 2024

UP Scientists Create Thermoresponsive Polymers for Potential Biomedical Use

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One example of a thermoresponsive polymer is poly(N-isopropylacrylamide), which is used to deliver drugs, such as calcitonin and insulin, to their target organ. According to scientist Dirk Schmaljohann, poly(N-isopropylacrylamide) keeps the drug intact as it passes through the stomach, and once it reaches the intestines, which have a different pH level, the polymer breaks down and releases the drug.

While there are already existing conventional methods to synthesize polymers, it is difficult to control how monomers—small molecules that make up polymers—connect. This leads to varying polymer chain lengths, which affect the performance of the polymers. This prompted chemists from the University of the Philippines – Diliman College of Science (UPD-CS) to identify a simple, inexpensive, and environmentally friendly approach of creating thermoresponsive polymers.



Synthesis of two different architectures of copolymers of MMA and DEGMEMA using RAFT polymerization in [HPY][PF6]. (Photo credit: Madrid et al., 2024)

Using the Reversible Addition Fragmentation Chain Transfer (RAFT) polymerization, Ludhovik Luiz Madrid and Dr. Susan Arco from the UPD-CS Institute of Chemistry (UPD-CS IC), along with Ser John Lynon Perez of the UPD-CS Natural Sciences Research Institute (UPD-CS NSRI), successfully created thermoresponsive polymers using two monomers—di(ethylene glycol) methyl ether methacrylate (DEGMEMA) and methyl methacrylate (MMA)—in a hexylpyridinium ionic liquid, N-hexylpyridinium hexafluorophosphate ([HPY][PF6]). Both linear and hyperbranched structures were successfully synthesized, using ethylene glycol dimethacrylate (EGDMA) as the crosslinking agent for the hyperbranched copolymer. The polymers produced by the researchers were biocompatible, meaning they can interact with living body tissues without causing adverse reactions.


“RAFT polymerization helps control the growth of polymer chains by mitigating the formation of chains that can no longer grow (a.k.a. ‘dead’ polymers), thereby creating a narrower molecular weight distribution which can allow more tailored polymer designs or properties,” Madrid explained. Solvents used in RAFT polymerization are also typically organic and volatile, posing environmental and health risks. To lessen these risks, the researchers used [HPY][PF6], a type of ionic liquid that has better polymerization kinetics and is less harmful to the environment.


Apart from demonstrating the effectiveness of synthesizing polymers with [HPY][PF6] through RAFT polymerization, the study introduced new possibilities in polymer research. “The results open up the potential for using other hexylpyridinium ionic liquids to create dual-responsive polymers (e.g. responsive to both temperature and pH), which are valuable for biomedical applications such as drug delivery,” Madrid concluded.









By: Eunice Jean Patron

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