Journal of Materials Research and Technology (Mar 2022)
Dilemma and breakthrough of biodegradable poly-l-lactic acid in bone tissue repair
Abstract
The repair of segmental bone defects caused by traumatic injury or pathological diseases remains a substantial challenge in clinic. Poly-l-lactic acid (PLLA) is recognized as one potential bone substitute material due to its natural biodegradability and excellent biocompatibility. Nevertheless, it still faces several fundamental puzzles including insufficient mechanical properties, slow degradation and poor osteogenic activity. To address these issues, the corresponding strategies were thoroughly explored in this review. Regulation of molecular weight and crystallization, as well as the control of crack propagation were the mainstream methods to improve the mechanical properties of PLLA, whereas surface medication and polymer blending was commonly adopted to regulate the degradation behavior. To achieve desirable tissue regeneration ability, the combination of physical stimulation (electric and magnetic) brings about a new and attractive solution, since it is able to mimic the electro-magnetic microenvironment of human body. Furthermore, future research directions are proposed from the prospects of fabrication process, dynamic degradation and multifunctional application. This review aims to offer deep insights and meaningful guidelines for future study of PLLA as implants.
