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Electro-microenvironment modulated inhibition of endogenous biofilms by piezo implants for ultrasound-localized intestinal perforation disinfection. | LitMetric

Electro-microenvironment modulated inhibition of endogenous biofilms by piezo implants for ultrasound-localized intestinal perforation disinfection.

Biomaterials

College of Polymer Science and Engineering, State Key Laboratory of Polymer Materials Engineering, Sichuan University, Chengdu, 610065, Sichuan, China. Electronic address:

Published: April 2023

AI Article Synopsis

  • Endogenous bacterial infections from damaged gastrointestinal (GI) organs can lead to severe systemic inflammatory responses and potentially fatal sepsis, making effective treatment a challenge.
  • Current methods like antibiotics and surgery often fail to prevent bacteria from spreading and causing further infection.
  • The study introduces a wireless piezo implant that, when combined with ultrasound (US) treatment, disrupts bacterial biofilms around GI wounds, showcasing promising results in both experimental models and theoretical studies for reducing infections.

Article Abstract

Endogenous bacterial infections from damaged gastrointestinal (GI) organs have high potential to cause systemic inflammatory responses and life-threatening sepsis. Current treatments, including systemic antibiotic administration and surgical suturing, are difficult in preventing bacterial translocation and further infection. Here, we report a wireless localized stimulator composed of a piezo implant with high piezoelectric output serving as an anti-infective therapy patch, which aims at modulating the electro-microenvironment of biofilm around GI wounds for effective inhibition of bacterial infection if combined with ultrasound (US) treatment from outside the body. The pulsed charges generated by the piezo implant in response to US stimulation transfer into bacterial biofilms, effectively destroying their macromolecular components (e.g., membrane proteins), disrupting the electron transport chain of biofilms, and inhibiting bacterial proliferation, as proven by experimental studies and theoretical calculations. The piezo implant, in combination with US stimulation, also exhibits successful in vivo anti-infection efficacy in a rat cecal ligation and puncture (CLP) model. The proposed strategy, combining piezo implants with controllable US activation, creates a promising pathway for inhibiting endogenous bacterial infection caused by GI perforation.

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Source
http://dx.doi.org/10.1016/j.biomaterials.2023.122055DOI Listing

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