Performance testing of biodegradable mesh-like microporous balloon combined with calcium phosphate cement for vertebroplasty / 中国组织工程研究

ABSTRACT

BACKGROUND:Vertebroplasty and kyphoplasty for osteoporotic vertebral compression fractures can result in many complications, such as bone cement leakage and adjacent-level fractures. OBJECTIVE:To verify the possibility of biodegradable mesh-like microporous polymer bal oon for the treatment of osteoporotic vertebral compression fractures. METHODS:Biodegradable mesh-like microporous P(DLLA-CL) bal oons were fabricated by electrospinning technique. Coated bal oons with the same specification was fabricated by coating P(DLLA-CL) onto the same mould. Morphology of the bal oons was observed by scanning electron microscopy. The bal oon leakage was observed by eyes after the injection of water or cement. The initial strength and stiffness were measured by a universal testing machine. The proliferation of MC3T3-E1 cel s on the bal oons was determined by laser confocal microscope and cel counting kit-8 assays. The biodegradation of bal oons in simulated body fluid, porcine pancreatic lipase, and fresh human serum was studied by residual weighing and scanning electron microscopy observation. Burst pressure of bal oons was measured after the bal oon was placed into a hole in the vertebral bone. For the in vitro calcium release tests, the bal oons were fil ed with calcium cement, tied, placed into 6atm ultrapure water, and then the calcium concentration was regularly determined. RESULTS AND CONCLUSION:Mesh-like microporous bal oons presented with good fiber morphology, thickness distribution, and the presence of pores;on the coated bal oon surface, there was absence of specific morphology and porosity. Compared with the coated bal oon, the mesh-like microporous bal oon showed better mechanical properties, liquid permeability and burst pressure, to prevent leakage of bone cement and promote osteoblast adhesion and proliferation. In addition, the degradation of the mesh-like microporous bal oons was more uniform and stable than the coated bal oons, which may increase the calcium concentration in the injured vertebrae and wil be beneficial to the new bone growth and fracture healing.