Litcius/Paper detail

Functionalization of in vivo tissue-engineered living biotubes enhance patency and endothelization without the requirement of systemic anticoagulant administration

Hongyu Yan, Quhan Cheng, Jianghua Si, Songdi Wang, Ye Wan, Xin Kong, Ting Wang, Wenting Zheng, Muhammad Rafique, Xiaofeng Li, Ju He, Adam C. Midgley, Yi Zhu, Kai Wang, Deling Kong

2023Bioactive Materials30 citationsDOIOpen Access PDF

Abstract

Vascular regeneration and patency maintenance, without anticoagulant administration, represent key developmental trends to enhance small-diameter vascular grafts (SDVG) performance. In vivo engineered autologous biotubes have emerged as SDVG candidates with pro-regenerative properties. However, mechanical failure coupled with thrombus formation hinder translational prospects of biotubes as SDVGs. Previously fabricated poly(ε-caprolactone) skeleton-reinforced biotubes (PBs) circumvented mechanical issues and achieved vascular regeneration, but orally administered anticoagulants were required. Here, highly efficient and biocompatible functional modifications were introduced to living cells on PB lumens. The 1,2-dimyristoyl-sn-glycero-3-phosphoethanolamine-N-methoxy (DMPE)-PEG-conjugated anti-coagulant bivalirudin (DPB) and DMPE-PEG-conjugated endothelial progenitor cell (EPC)-binding TPS-peptide (DPT) modifications possessed functionality conducive to promoting vascular graft patency. Co-modification of DPB and DPT swiftly attained luminal saturation without influencing cell viability. DPB repellent of non-specific proteins, DPB inhibition of thrombus formation, and DPB protection against functional masking of DPT's EPC-capture by blood components, which promoted patency and rapid endothelialization in rat and canine artery implantation models without anticoagulant administration. This strategy offers a safe, facile, and fast technical approach to convey additional functionalization to living cells within tissue-engineered constructs.

Topics & Concepts

ThrombusIn vivoRegeneration (biology)BivalirudinTissue engineeringSurface modificationProgenitor cellBiomedical engineeringEx vivoAnticoagulantPharmacologyMaterials scienceStem cellMedicineChemistryCell biologySurgeryInternal medicineBiologyMyocardial infarctionBiotechnologyPhysical chemistryPercutaneous coronary interventionElectrospun Nanofibers in Biomedical ApplicationsProtease and Inhibitor MechanismsPeptidase Inhibition and Analysis
Functionalization of in vivo tissue-engineered living biotubes enhance patency and endothelization without the requirement of systemic anticoagulant administration | Litcius