Thermoresponsive polymers for biomedical applications
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Dec 18, 2014
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Thermoresponsive polymers for biomedical applications
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Thermoresponsive Polymers for Biomedical Applications Course:advance polymers Dilshad bajwa Roll#11
Introduction “ Smart polymer” materials that have the ability to respond to external stimuli, represent one of the most exciting and immerging class of materials T hey are cheaper and more easily handled than metals or ceramics. Stimulus-responsive or ‘smart’ polymers Smart polymers and hydrogels undergo fast, reversible changes in microstructure from a hydrophilic to a hydrophobic state with change in (pH, temperature, ionic strength) etc.
Temperature-responsive polymers Respond to temperature changes Types of thermo responsive polymer: TRP which shows LCST TRP which shows U CST e.g poly(acrylonitrile- co -butadiene )
Temperature responsive polymer The first established LCST is 32 o C for poly(N-isopropylacrylamide ) (PNIPAAm) in water solution At this temp: Undergoes a sharp coil-globule transition Changes from hydrophilic state to hydrophobic state as temperature is increases In aqueous solutions, it is soluble below LCST and less soluble above it
Gene Therapy : Gene therapy aims at the treatment of many genetic diseases . Delivery of therapeutic gene (DNA) into the cells that will replace, repair or regulate the defective gene. Gene therapy aims at the treatment of many genetic diseases . Delivery of therapeutic gene (DNA) into the cells that will replace, repair or regulate the defective gene. The main steps of gene delivery using a cationic polymer: DNA complexation formation (polyarginine polymer AND PNIPAAm )above LCST
(2) Complex traversing through cell membrane to the cytoplasm at 37 °C (3) DNA release into the cytoplasm below LCST (4) DNA transfer into nucleus
Tissue Engineering To regenerate or replace biological damaged or diseased tissue or generate replacement organs for a wide range of medical conditions such as heart diseases, diabetes, and spinal cord injury .
Thermoresponsive polymer is mixed at room temperature with cells and then injected into the body.Upon injection due to the temperature increase (to 37 °C) that is above the polymer’s LCST, the polymer forms a physical gel.
Drug delivery through Micelles The thermoresponsive properties of terpolymers of PEGMA-b-(DMAEMA-co-MMA) The formation of thermoresponsive micelles with sustained drug release in vitro
Cross Linked Micelles The formation of micelles above the LCST of PEG-b-PPG-b-PEG triblock copolymers By incorporating a methacrylate group onto each end of the block copolymers crosslinking. crosslinked layer slowed the release of drug by entrapment but allowed an increase in the release with increased temperature
Formation of nanocages from polymers of PEG (blue) PPG (red) and methacrylate groups (green)
Polymer bilayer film entraps particles and cells.
Conclusion: Thermoresponsive polymers and their uses in gene therapy ,genetic engineering .drug delivery etc. have a definite impact in the medical field.
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