MOF-Enhanced Phototherapeutic Wound Dressings Against Drug-Resistant Bacteria

08 November 2024
Congratulations to Zhihao for his nice article, on how to kill MRSA and improve wound healing with a patch combining MOF and sensitive dye on a collaborative work with Yong Chen's, Anne Jamet's and Florence Gazeau's team.

Full article HERE!!
And you can also check out his very exhaustive review on Iron-MOFs for Biomedical Applications

Abstract MOF-Enhanced Phototherapeutic Wound Dressings Against Drug-Resistant Bacteria:
Phototherapy is a low-risk alternative to traditional antibiotics against drug-resistant bacterial infections. However, optimizing phototherapy agents, refining treatment conditions, and addressing misuse of agents, remain a formidable challenge. This study introduces a novel concept leveraging the unique customizability of metal–organic frameworks (MOFs) to house size-matched dye molecules in “single rooms”. The mesoporous iron(III) carboxylate nanoMOF, MIL-100(Fe), and the hydrophobic heptamethine cyanine photothermal dye (Cy7), IR775, are selected as model systems. Their combination is predicted to minimize dye–dye interactions, leading to exceptional photostability and efficient light-to-heat conversion. Furthermore, MIL-100(Fe) preserves the antimicrobial nature of hydrophobic IR775, enabling it to disrupt bacterial cell envelopes. Through electrospinning, MIL-100(Fe)@IR775 nanoparticles are shaped into a gelatin-based film dressing for the treatment of skin wounds infected by Methicillin-resistant Staphylococcus aureus (MRSA). Activation of the dressing requires only a portable near-infrared light-emitting diode (NIR LED) and induces both low-dose photodynamic therapy (LPDT) and mild-temperature photothermal therapy (MPTT). Combined with the antimicrobial properties of IR775 and ferroptosis-like lipid peroxidation induced by MIL-100(Fe), the photoactive dressing eradicates MRSA and the healing is as quick as the uninfected wounds. This safe, cost-effective, and multifunctional therapeutic wound dressing offers a promising solution to overcome the current bottleneck in phototherapy.