Yuan Wang scite author profile

Extracorporeal devices have great promise for cleansing the body of virulence factors that are caused by venomous injuries, bacterial infections, and biological weaponry. The clinically used extracorporeal devices, such as artificial liver-support systems that are mainly based on dialysis or electrostatic interaction, are limited to remove a target toxin. Here, a liver-mimetic device is shown that consists of decellularized liver scaffold (DLS) populated with polydiacetylene (PDA) nanoparticles. DLS has the gross shape and 3D architecture of a liver, and the PDA nanoparticles selectively capture and neutralize the pore-forming toxins (PFTs). This device can efficiently and target-orientedly remove PFTs in human blood ex vivo without changing blood components or activating complement factors, showing potential application in antidotal therapy. This work provides a proof-of-principle for blood detoxification by a nanoparticle-activated DLS, and can lead to the development of future medical devices for antidotal therapy.

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Some properties of L-fuzzy approximation spaces based on bounded integral residuated lattices

Wang

Tang

2014

Information Sciences

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Advances in biodegradable piezoelectrics for medical implants

et al. 2023

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Yuan Wang

Biodegradable shape memory alloys: Progress and prospects

Expedient secondary functions of flexible piezoelectrics for biomedical energy harvesting

Functional Nanoparticles Activate a Decellularized Liver Scaffold for Blood Detoxification

Some properties of L-fuzzy approximation spaces based on bounded integral residuated lattices

Advances in biodegradable piezoelectrics for medical implants

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