Self-Powered Oxygen Microbubble Generator for Decontamination of Anaerobic Biofilm-Fouled Bioimplants.

Biomedical devices often feature a microgap: confined, minuscule spaces that foster bacterial infiltration and biofilm formation. For instance, peri-implantitis with prevalence rates of 4.7-45% at the patient level is a major complication driven by biofilm infections, characterized by chronic inflammation and implant failure. Anaerobic biofilm residing within the microgap serves as a major source of the peri-implantitis, but tools that remove the biofilm are lacking. Therefore, this study presents a novel preventive strategy employing self-powered microbubbler (SM) for targeted decontamination of micrographs in dental implants. SMs are assembled by doping diatoms with MnO(2) nanosheets. These particles are activated to generate O(2) microbubbles in H(2)O(2) solution via catalase-mimetic activity and can penetrate the biofilm structures. The resulting oxygen bubbles induce effective mechanical disruption and oxygenation within biofilm-mimicking gelatin hydrogels and Porphyromonas gingivalis biofilms found in the peri-implantitis-affected implants. Such biofilm removal from the microgap restored mechanical stability at implant abutment-fixture connections and reduced bacterial leakage. Multispecies biofilms from patient-derived implants were similarly decontaminated with the mixture of SM-H(2)O(2) outperforming conventional antiseptics like 0.2% chlorhexidine and 3% H(2)O(2) alone. This innovative approach extends beyond dental implants to address biofilm-associated challenges in various biomedical devices with microgap vulnerabilities. Overall, SM-based treatments will offer an efficient and nondamaging solution to enhance the sterility and longevity of various bioimplants with intricated and confined structure.