Injectable hydrogel microsphere-bomb for MRSA-infected chronic osteomyelitis

Biofilm and bone tissue defect induced by the bacterial infection severely impede chronic osteomyelitis treatment. It is critical to break though the densely and obstinate biofilm so that the target drugs can deliver to the infected bone more effectively. Herein, an acoustically responsive multifunctional hydrogel microsphere-bomb (EMgel) was designed and prepared by microfluidic technology, which could be injected to the focus of bone infection, and blasted into the nidus deeply to destroy the bacterial biofilm matrix barrier under penetrating ultrasound, so the encapsulated natural polyphenolic EGCG and bioactive MoS2 released to repair the damaged bone. The results proved the hydrogel microsphere-bomb exhibited controlling drug release, favorable antibacterial (as high as 99 %), high biofilm resistance, fascinating antioxidation, good cytocompatibility, and osteogenic differentiation. The acoustically responsive microsphere-bomb further proved their fantastic ability to eradicate biofilm and promote bone regeneration in the Methicillin-resistant Staphylococcus aureus (MRSA) infected chronic osteomyelitis model due to the synergy effects of EGCG and bioactive MoS2. Especially, immunohistochemical staining showed lower inflammatory reaction and higher expression of OCN in EMgel group treated with ultrasound wave. This study presents a new design of hydrogel microsphere-based intelligence drug delivery for osteomyelitis treatment, which exhibit great promising potential for dealing with chronic orthopedic infections, drug delivery system and tissue engineering. [Display omitted] •An injectable acoustically responsive hydrogel microsphere-bomb were developed.•Explosion of microsphere-bomb under ultrasound maintains a balanced ROS level.•Synergistic and complementary effects on biofilm eradication and bone repair.