Disclosed is a high anticoagulation ECMO and extracorporeal circulation consumable, which include the following preparation methods: S1, aminating the surface of ECMO blood circulation device and extracorporeal circulation consumables; S2, activating heparin groups; S3, heparinizing the ECMO blood circulation device and extracorporeal circulation consumables; S4, modification of enhancer. The application can produce a novel high anticoagulation extracorporeal circulation tube with low price and high biocompatibility, which expands the application in clinic.

Described herein are compositions comprising a nitric oxide releasing material comprising a (i) a polysiloxane network and (ii) a plurality of nitric oxide-donating moieties covalently bonded to the polysiloxane network; and (b) a silicone oil. Also described herein are articles composed of the compositions described herein and methods for using the same. The compositions described herein provide highly sustained, long-term nitric oxide release that have numerous biological activities such as, for example, preventing localized platelet activation, fibrinogen adhesion, and biofilm formation for a prolonged period of time.

A geared continuously variable transmission (GCVT) is provided. The GCVT includes a first set of solar gears having a first solar gear and first plurality of connection components. Power enters the GCVT through the first set of solar gears. The GCVT includes a second set of solar gears having a second solar gear and second plurality of connection components. Power exits the GCVT through the second set of solar gears. Power is transmitted from the first set of solar gears to the second set of solar gears via the first plurality of connection components and the second plurality of connection components. The GCVT includes a hydraulic pump and a hydraulic motor connecting first component from the first plurality of connection components to second component from the second plurality of connection components and providing constant rotation ratio between the first component and the second component.

In this work, we investigated the blood platelet adhesion and activation of truly superhemophobic surfaces and compared them with that of hemophobic surfaces and hemophilic surfaces. Our analysis indicates that only those superhemophobic surfaces with a robust Cassie-Baxter state display significantly lower platelet adhesion and activation. The understanding gained through this work will lead to the fabrication of improved hemocompatible, superhemophobic medical implants.

Processes are described herein for preparing medical devices and other articles having a low-fouling surface on a substrate comprising a polymeric surface. The polymeric surface material may possess a range of polymeric backbones and substituents while providing the articles with a highly efficient, biocompatible, and non-fouling surface. The processes involve coating the substrate to conceal or reduce flaws on or in the surface of the medical device or other article substrate, and thereafter forming a grafted polymer layer on the treated substrate surface.

Disclosed is a high anticoagulation ECMO and extracorporeal circulation consumable, which include the following preparation methods: S1, aminating the surface of ECMO blood circulation device and extracorporeal circulation consumables; S2, activating heparin groups; S3, heparinizing the ECMO blood circulation device and extracorporeal circulation consumables; S4, modification of enhancer. The application can produce a novel high anticoagulation extracorporeal circulation tube with low price and high biocompatibility, which expands the application in clinic.

A bio-compatible lumen bearing device such as a catheter formed of a polymeric material having a titanium surface bonded to the underlying exposed catheter surface. The titanium surface is employed in patients to improve bio-compatibility and enhance lubricity during insertion and removal.

Provided is a clot adhesion preventing agent capable of suppressing adhesion of clot to the inner wall surface of a blood collection container. The clot adhesion preventing agent according to the present invention includes a polyether compound or a silicone oil, and an amino acid.