Publications

A J Marshall and M G Maginness, SphereTemplated Angiogenic Regeneration (STAR®) Biomaterial for Reducing Infection Associated with Percutaneous Devices. (Accepted for) Society for Biomaterials Annual Meeting, April 2009

T Osathanon; ML Linnes; RM Rajachar; BD Ratner; MJ Somerman; CM Giachelli: Microporous nanofibrous fibrin-based scaffolds for bone tissue engineering.
Biomaterials, 29(30) 4091-9, 2008

B D Ratner; Michael H Tooley; et al Biomedical Engineering Desk Reference
London: Academic, 2008.

JD Bryers; Medical biofilms.
Biotechnology and Bioengineering. 100(1): 1-18, 2008

A D Bhrany; C J Lien; B L Beckstead; N D Futran; N H Muni; C M Giachelli; B D Ratner. Crosslinking of an oesophagus acellular matrix tissue scaffold.
J. Tissue Engineering and Regenerative Medicine. 2( 6) 365-372. 2008.

Derek J Mortisen: Scaffolds as functional templates for cardiac tissue engineering.
Ph D Thesis, University of Washington: 2008

B D Ratner. A paradigm shift: biomaterials that heal.
Polymer International. 56(10) 1183-1185. 2007

M P Linnes; B D Ratner; C M Giachelli. A fibrinogen-based precision microporous scaffold for tissue engineering.
Biomaterials. 28(35) 5298-5306, 2007

S.N. Isenhath, Y. Fukano, M.L. Usui, R.A. Underwood, C.A. Irvin, A.J. Marshall, K.D. Hauch, B.D. Ratner, P. Fleckman, J.E. Olerud.
 A mouse model to evaluate the interface between skin and a percutaneous device.
J Biomed Mater Res 83A: 915–922, 2007

Tavakkol Z, Marshall A, Fleckman P, Ratner B, Olerud J. Porous silicone: A promising material for sealing the skin-biomaterial interface.
Journal Invest Dermatol, 127 (S1):S37, 2007.

Marshall AJ et al. Controlled pore size: A promising path to long-term implantable glucose sensors.
Vascular Matrix Biology and Vascular Engineering Workshop, Whistler, BC. March 2007.

Anthony Atala; Stuart B Bauer; Shay Soker; James J Yoo; Alan B Retik. Tissue-engineered autologous bladders for patients needing cystoplasty.
The Lancet; Apr 15-Apr 21, 2006; 367, 9518.

Bhrany AD, Beckstead BL, Lang TC, Farwell DG, Giachelli CM, Ratner BD.
Development Of An Esophagus Acellular Matrix Tissue Scaffold.
Tissue Engineering 12(2): 319-30. 2006

Yuko Fukano, et al. Characterization Of An In Vitro Model For Evaluating The Interface
Between Skin And Percutaneous Biomaterials.
Wound Repair And Regeneration 14 484-491. 2006

Benjamin L. Beckstead, Sheng Pan, Amit D. Bhrany, Andres M. Bratt-Leal,
Buddy D. Ratner, Cecilia M. Giachelli. Esophageal Epithelial Cell Interaction With Synthetic And Natural Scaffolds For Tissue Engineering.
Biomaterials 26 6217-6228. 2005.

Marshall, A.J and Ratner B D, Quantitative characterization of sphere-templated porous biomaterials.
AIChE Journal, 2005. 51(4): p. 1221-1232.

Knowles N G et al. A model for studying epithelial attachment and morphology at the
interface between skin and percutaneous devices.
Journal of Biomedical Materials Research A. 74(3):482-8. 2005

Ratner BD, Bryant SJ. Biomaterials: Where we have been and where we are going.
Annual Reviews of Biomedical Engineering. 6, 41-75 2004

Marshall, A.J. Irvin, C.A. Barker, T., Sage, K.D. Hauch E.H.  and Ratner, B.D.  Biomaterials with tightly controlled pore size that promote vascular in-growth, ACS Polymer Preprints, Vol. 45, No. 2, 100-101, 2004

Nasia Safdar, Daniel M. Kluger, and Dennis G. Maki, A Review Of Risk Factors For Catheter-Related Bloodstream Infection Caused By Percutaneously Inserted, Noncuffed Central Venous Catheters. Implications For Preventive Strategies.
Medicine 81: 466-79, 2002.