목차/차례
1. Introduction
2. Chemistry
2.1. Synthesis
2.2. Physico-Chemical Properties
3. Applications in Bone Tissue Engineering
3.1. Porous PLGA-HA Scaffolds
3.2. Fibrous Scaffolds
3.3. Hydrogels
3.4. Injectable Microspheres
4. Current Trends in the Development of Functionalized PLGA Constructs
5. Conclusions and Future Prospects
본문/내용
1. Introduction
Biomaterials play a crucial role in the field of medicine and tissue engineering, particularly in the development of biocompatible polymers that can safely interact with biological systems. The concept of biopolymeric materials encompasses a wide range of synthetic and naturally derived polymers designed for medical applications, ranging from drug delivery systems to scaffolds for tissue regeneration. The extensive application of these biopolymeric materials is driven by their ability to mimic the natural environment of cells, providing a supportive framework for growth and healing. The increasing demand for advanced medical solutions has led to a surge in research focused on the development of bioengineered polymers. These polymers are not only designed to be inert and biocompatible but also to possess desirable mechanical and chemical properties that favor tissue integration and regeneration. The objectives of using biopolymers in medical applications include enh
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