Noritsugu Naito scite author profile

Current artificial lungs fail in 1-4 weeks due to surface-induced thrombosis. Biomaterial coatings may be applied to anticoagulate artificial surfaces, but none have shown marked long-term effectiveness. Poly-carboxybetaine (pCB) coatings have shown promising results in reducing protein and platelet-fouling in vitro. However, in vivo hemocompatibility remains to be investigated. Thus, three different pCB-grafting approaches to artificial lung surfaces were first investigated: 1) graft-to approach using 3,4-dihydroxyphenylalanine (DOPA) conjugated with pCB (DOPA-pCB); 2) graft-from approach using the Activators ReGenerated by Electron Transfer method of atom transfer radical polymerization (ARGET-ATRP); and 3) graft-to approach using pCB randomly copolymerized with hydrophobic moieties. One device coated with each of these methods and one uncoated device were attached in parallel within a veno-venous sheep extracorporeal circuit with no continuous anticoagulation (N=5 circuits). The DOPA-pCB approach showed the least increase in blood flow resistance and the lowest incidence of device failure over 36-hours. Next, we further investigated the impact of tip-to-tip DOPA-pCB coating in a 4-hour rabbit study with veno-venous micro-artificial lung circuit at a higher activated clotting time of 220-300s (N≥5). Here, DOPA-pCB reduced fibrin formation (p=0.06) and gross thrombus formation by 59% (p<0.05). Therefore, DOPA-pCB is a promising material for improving the anticoagulation of artificial lungs.

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Combination of polycarboxybetaine coating and factor XII inhibitor reduces clot formation while preserving normal tissue coagulation during extracorporeal life support

Naito

Ukita

Wilbs

et al. 2021

Biomaterials

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Artificial Lungs for Lung Failure

Naito¹,

Cook²,

Toyoda³

et al. 2018

Journal of the American College of Cardiology

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First clinical use of a novel hypothermic storage system for a long-distance donor heart procurement

Naito

Funamoto

Pierson

et al. 2020

The Journal of Thoracic and Cardiovascular Surgery

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Rotational speed modulation used with continuous-flow left ventricular assist device provides good pulsatility†

Naito

Nishimura

Iizuka

et al. 2017

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Noritsugu Naito

Zwitterionic poly-carboxybetaine coating reduces artificial lung thrombosis in sheep and rabbits

Combination of polycarboxybetaine coating and factor XII inhibitor reduces clot formation while preserving normal tissue coagulation during extracorporeal life support

Artificial Lungs for Lung Failure

First clinical use of a novel hypothermic storage system for a long-distance donor heart procurement

Rotational speed modulation used with continuous-flow left ventricular assist device provides good pulsatility†

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