AI Article Synopsis
- The study focuses on creating composite membranes made of poly(d,l-lactic acid) and Bioglass® to improve healing in periodontal defects by encouraging tissue regeneration.
- The membranes were developed to have an uneven distribution of Bioglass® to assess their bioactivity and support cell growth, using various testing methods for effectiveness.
- Results showed that the composite membranes enhanced cell adhesion and growth, along with promoting bone-like mineralization, suggesting they could be beneficial for use in guided tissue regeneration and orthopedic treatments.
Article Abstract
Objective: In the treatment of periodontal defects, composite membranes might be applied to protect the injured area and simultaneously stimulate tissue regeneration. This work describes the development and characterization of poly(d,l-lactic acid)/Bioglass® (PDLLA/BG) composite membranes with asymmetric bioactivity. We hypothesized that the presence of BG microparticles could enhance structural and osteoconductivity performance of pure PDLLA membranes.
Methods: The membranes were prepared by an adjusted solvent casting method that promoted a non-uniform distribution of the inorganic component along the membrane thickness. In vitro bioactive behavior (precipitation of an apatite layer upon immersion in simulated body fluid, SBF), SEM observation, FTIR, swelling, weight loss and mechanical properties of the developed biomaterials were evaluated. Cell behavior on the membranes was assessed using both human bone marrow stromal cells and human periodontal ligament cells.
Results: Just the BG rich face of the composite membranes induced the precipitation of bone-like apatite in SBF, indicating that this biomaterial exhibit asymmetric osteoconductive properties. SEM images, DNA content and metabolic activity quantification revealed an improved cell adhesion and proliferation on the composite membranes. Composite membranes also stimulated cell differentiation, mineralization, and production of extracellular matrix and calcium nodules, suggesting the positive effect of adding the bioactive microparticles in the PDLLA matrix.
Significance: The results indicate that the proposed asymmetric PDLLA/BG membranes could have potential to be used in guided tissue regeneration therapies or in orthopedic applications, with improved outcomes.
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| http://dx.doi.org/10.1016/j.dental.2013.01.009 | DOI Listing |
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