Bioact Mater. 2026 Mar 4;62:17-33. doi: 10.1016/j.bioactmat.2026.02.049. eCollection 2026 Aug.
ABSTRACT
Periodontitis and myocardial infarction (MI), the leading cause of mortality worldwide, represent globally prevalent inflammatory diseases with bidirectional pathophysiological links. Despite the urgent demand for non-invasive strategies capable of alleviating local periodontal destruction while mitigating associated systemic cardiovascular complications, no integrated treatment modality currently exists. To address this challenge, a protein-loaded antibacterial hydrogel, thiolated chitosan/AMP-PEG-maleimide (C1.5P4/BMP-2), with novel sustained protein release properties was developed. This hydrogel features an interconnected microporous architecture that: (1) enables high-efficiency BMP-2 protein encapsulation, (2) preserves protein bioactivity while ensuring sustained release, thereby addressing the recognized challenge of hydrogel-based protein delivery, (3) confers potent antibacterial properties, (4) facilitates remote cardiac function improvement by resolving periodontal inflammation. In murine models, locally, it attenuated alveolar bone loss (2-fold greater bone regeneration vs controls) while systemically improving post-MI cardiac function (75.6% higher ejection fraction). Mechanistically, the hydrogel's protein-protective microenvironment synergized with its antimicrobial action selectively inhibiting Gram-negative (G-) anaerobic pathogens (primary periodontal culprits) while enriching Gram-positive (G+) commensals, regulating biofilm G-/G+ ratio. Concomitantly, this dual action modulates the oral-cardiac inflammatory axis, specifically downregulating B2 cell/TNF-α signaling to mitigate systemic inflammation associated with MI. Collectively, this study presents a novel non-invasive protein-stabilizing hydrogel that addresses periodontitis-MI comorbidity through sustained osteogenic factor delivery coupled with microbiome-immune modulation.
PMID:41810018 | PMC:PMC12969335 | DOI:10.1016/j.bioactmat.2026.02.049