| P50 | author | Sang Ho Ye | Q80814090 |
| P2093 | author name string | William R Wagner | |
| | Carl A Johnson | |
| | Joshua R Woolley | |
| | Kazuhiko Ishihara | |
| | Lara J Gamble | |
| | Heung-Il Oh | |
| P2860 | cites work | Biomimetic phosphorylcholine polymer grafting from polydimethylsiloxane surface using photo-induced polymerization. | Q51174050 |
| | Initial clinical experience with the Jarvik 2000 implantable axial-flow left ventricular assist system. | Q53967722 |
| | Phosphorylcholine-based polymers and their use in the prevention of biofouling. | Q54042925 |
| | Simple method for platelet counting | Q72233673 |
| | Surface modification of stainless steel by grafting of poly(ethylene glycol) for reduction in protein adsorption | Q73930582 |
| | Why do phospholipid polymers reduce protein adsorption? | Q74148814 |
| | Platelet activation, aggregation, and life span in calves implanted with axial flow ventricular assist devices | Q74341244 |
| | Clinical experience with 111 thoratec ventricular assist devices | Q77833090 |
| | High lubricious surface of cobalt-chromium-molybdenum alloy prepared by grafting poly(2-methacryloyloxyethyl phosphorylcholine) | Q80116494 |
| | Acute and mid-term results of phosphorylcholine-coated stents in primary coronary stenting for acute myocardial infarction | Q28184742 |
| | The future of mechanical circulatory support | Q35162735 |
| | What Price Support? Ventricular Assist Device Induced Systemic Response | Q35549701 |
| | Flow cytometric assays for quantifying activated ovine platelets | Q35774643 |
| | Towards the development of a pediatric ventricular assist device. | Q36529998 |
| | A small diameter, fibrous vascular conduit generated from a poly(ester urethane)urea and phospholipid polymer blend | Q37233492 |
| | Surface coatings for ventricular assist devices | Q37357350 |
| | Covalent surface modification of a titanium alloy with a phosphorylcholine-containing copolymer for reduced thrombogenicity in cardiovascular devices. | Q41959642 |
| | Biocompatibility of phosphorylcholine coated stents in normal porcine coronary arteries | Q43084596 |
| | The vascular prosthesis without pseudointima prepared by antithrombogenic phospholipid polymer | Q43877846 |
| | In vivo evaluation of a MPC polymer coated continuous flow left ventricular assist system | Q44311394 |
| | Self-assembled biomimetic monolayers using phospholipid-containing disulfides | Q45178017 |
| | Surface immobilization of biocompatible phospholipid polymer multilayered hydrogel on titanium alloy | Q46310512 |
| | High functional hollow fiber membrane modified with phospholipid polymers for a liver assist bioreactor. | Q46765531 |
| | Worldwide experience with the MicroMed DeBakey Ventricular Assist Device as a bridge to transplantation | Q47630614 |
| | Mechanical circulatory support devices: is it time to focus on the complications, instead of building another new pump? | Q47986684 |
| | Mechanical circulatory support device database of the International Society for Heart and Lung Transplantation: third annual report--2005. | Q50768809 |
| | Recurrent device thrombi during mechanical circulatory support with an axial-flow pump is a treatable condition and does not preclude successful long-term support. | Q51079850 |
| | First human implantation of a new rotary blood pump: design of the clinical feasibility study. | Q51081622 |
| | Preclinical biocompatibility assessment of the EVAHEART ventricular assist device: coating comparison and platelet activation. | Q51103714 |
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 96-102 | |
| P577 | publication date | 2009-07-07 | |
| P1433 | published in | Colloids and Surfaces B | Q2625859 |
| P1476 | title | Surface modification of a titanium alloy with a phospholipid polymer prepared by a plasma-induced grafting technique to improve surface thromboresistance | |
| P478 | volume | 74 | |