Peer-Reviewed Journal Articles
2011
[15] T.A. Martin*, S.R. Caliari*, P.D. Williford, B.A. Harley**, R.C. Bailey**, “The generation of biomolecular patterns in highly porous collagen-GAG scaffolds using direct photolithography,” In Press, Biomaterials, 2011.
2009
[14] B.A. Harley, A.K. Lynn, Z. Wissner-Gross, W. Bonfield, I.V. Yannas, L.J. Gibson, “Design of a multiphase osteochondral scaffold III: Fabrication of layered scaffolds with continuous interfaces,” In Press, J. Biomed. Mater. Res. Part A, 2009.
[13]. B.A. Harley, A.K. Lynn, Z. Wissner-Gross, W. Bonfield, I.V. Yannas, L.J. Gibson, “Design of a multiphase osteochondral scaffold II: Fabrication of a mineralized collagen-GAG scaffold,” In Press, J. Biomed. Mater. Res. Part A, 2009.
[12]. A.K. Lynn, S.M. Best, R.E. Cameron, B.A. Harley, I.V. Yannas, L.J. Gibson, W. Bonfield, “Design on a multiphase osteochondral scaffold I: Control of chemical composition,” In Press, J. Biomed. Mater. Res. Part A, 2009.
2008
[11] B.A. Harley, H.-D. Kim, M.H. Zaman, I.V. Yannas, D.A. Lauffenburger, L.J Gibson, “Micro-architecture of three-dimensional scaffolds infleunces cell migration behavior via junction interactions,” Biophys. J., 95(8):4013-24, 2008. PMID: 18621811
[10] K.H. Kim, T. Ragan, K. Bahlmann, M.J.R. Previte, B.A. Harley, D.M. Wiktor-Brown, C.A. Hendricks, B.P. Engelward, M.S. Stitt, K.H. Almeida, P.T.C. So, “Three-dimensional tissue cytometer based on high-speed multiphoton microscopy,” Cytometry A, 71(12):991-1002, 2007. PMID: 17929292
[9] Y. Le, B. Zhu, B. Harley, S.-Y. Park, J.P. Manis, H.R. Luo, A. Yoshimura, L. Hennighausen, L.E. Silberstein, “SOCS3 Protein Developmentally Regulates the Chemokine Receptor CXCR4-FAK Signaling Pathway during B Lymphopoiesis,” Immunity, 27(5):811-823, 2007. PMID: 18031698
2007
[8] B.A. Harley, T.M. Freyman, M.Q. Wong, and L.J. Gibson, “A new technique for calculating individual dermal fibroblast contractile forces generated within collagen-GAG scaffolds,” Biophys. J., 93(8):2911-2922, 2007. PMID: 17586570
[7] B.A. Harley, J.H. Leung, E.C.C.M. Silva, and L.J. Gibson, “Mechanical characterization of collagen-glycosaminoglycan scaffolds,” Acta Biomaterialia, 3(4):463-474, 2007. PMID: 17349829
[6] F.J. O’Brien, B.A. Harley, M.A. Waller, I.V. Yannas, L.J. Gibson, and P.J. Prendergast, “The effect of pore size on permeability and cell attachment in collagen scaffolds for tissue engineering,” Technol. Health Care, 15(1):3-17, 2007. PMID: 17264409
2006
[5] E. Farrell, F.J. O’Brien, E. Byrne, P. Doyle, J. Fischer, I.V. Yannas, B.A. Harley, B. O’Connell, P.J. Prendergast, and V.A. Campbell, “A collagen-glycosaminoglycan scaffold supports adult rat mesenchymal stem cell differentiation along the osteogenic and chrondrogenic routes,” Tissue Engineering, 12(3):459-468, 2006. PMID: 16579679
[4]. B.A. Harley, A.Z Hastings, I.V. Yannas, and A. Sannino, “Fabricating Tubular Scaffolds with a Radial Pore Size Gradient by a Spinning Technique,” Biomaterials, 27(6):866-874, 2006. PMID: 16118016
2005
[3] F.J. O’Brien, B.A. Harley, I.V. Yannas, and L.J. Gibson, “The effect of pore size and structure on cell adhesion in collagen-GAG scaffolds,” Biomaterials, 26(4):433-441, 2005. PMID: 15275817
2004
[2] F.J. O’Brien, B.A. Harley, I.V. Yannas, and L.J. Gibson, “Influence of freezing-rate on pore structure in freeze-dried collagen-GAG scaffolds,” Biomaterials, 25(6):1077-1086, 2004. PMID: 14615173
[1] B.A. Harley, M.H. Spilker, J.W. Wu, K.A. Asano, H.-P. Hsu, M. Spector, and I.V. Yannas, “Optimal degradation rate for collagen chambers used for regeneration of peripheral nerves over long gaps,” Cells Tissues Organs, 176(1-3):153-165, 2004. PMID: 14745243
*co-first authors
**co-corresponding authors
Review Articles
[2] B.A.C. Harley and L.J. Gibson, “In vivo and in vitro applications of collagen-GAG scaffolds,” Chemical Engineering Journal, 137:102-121, 2008.
[1] B. Harley and I.V. Yannas, “Induced peripheral nerve regeneration using scaffolds,” Minerva Biotecnologica, 18(2):97-120, 2006.
Book Chapters
[3] S.R. Caliari, B.A.C. Harley in P. Ducheyne, D.W. Hutmacher, J. Kirkpatrick, and K. Healy (eds.), "Collagen-GAG Materials" in Comprehensive Biomaterials, 1st Edition, New York: Elsevier, In Press, 2011.
[2] B.A. Harley and I.V Yannas in R. Lanza, R. Langer, and J.P. Vacanti (eds.), “In Vivo Synthesis of Tissues and Organs,” in Principles of Tissue Engineering, 3rd Edition, New York: Elsevier, 2007.
[1] B.A. Harley and I.V. Yannas in J.G. Webster (ed.), “Skin: Tissue Engineering for Regeneration,” in The Encyclopedia of Medical Devices and Instrumentation, 2nd Edition, New York: Wiley, 2006.
Patents
[8] R.C. Bailey, B.A. Harley, T.A. Martin, S.R. Caliari, A Method for Depositing Biomolecules, U.S. Patent Office Provisional Application 61/446,794, February 25, 2011.
[7] Z. Wissner-Gross, B.A. Harley, A.K. Lynn, W. Bonfield, I.V. Yannas, L.J. Gibson, “Layered, collagen-based scaffolds produced by solid-phase co-synthesis and solid-liquid co-synthesis,” U.K. Patent Application GB06/16026.1, Aug. 11, 2006.
[6] I.V Yannas, H.K. Reddy, C.J. Zagorski, B.A. Harley, “Gradient template for angiogenesis during large organ regeneration,” U.S. Patent Office Provisional Application 60/733,803, November 7, 2005.
[5] B.A. Harley, C.J. Zagorski, H.K Reddy, I.V Yannas, “Processing of angiogenic scaffolds for large organ replacement,” U.S. Patent Office Provisional Application 60/730,880, October 28, 2005.
[4] C.J. Zagorski, I.V Yannas, H.K. Reddy, B.A. Harley, “Invaginated angiogenic scaffolds for regeneration of large organs,” U.S. Patent Office Provisional Application 60/675,481, April 28, 2005.
[3] A. Sannino, B.A. Harley, A.Z Hasting, I.V. Yannas, “A novel technique to fabricate cylindrical and tubular structures with a patterned porosity,” International (PCT) Patent Application PCT/US2005/039024, October 27, 2005.
[2] A.K. Lynn, B.A. Harley, L.J. Gibson, I.V. Yannas, W. Bonfield, “Biomaterial,” U.K. Patent Application GB05/04673.5, March 7, 2005.
[1] I.V. Yannas, L.J. Gibson, F.J. O’Brien, B.A. Harley, R.R. Brau, S. Samouhos, M. Spector, “Gradient scaffolds and methods of producing the same,” U.S. Patent Office Provisional Application 60/611,266, 2004.