{"id":81,"date":"2012-03-01T11:51:50","date_gmt":"2012-03-01T16:51:50","guid":{"rendered":"https:\/\/www.bu.edu\/mml\/?page_id=81"},"modified":"2020-04-01T17:37:31","modified_gmt":"2020-04-01T21:37:31","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.bu.edu\/mml\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Reviews, Perspectives, & Book Chapters:<\/strong><\/span><\/p>\n

9.\u00a0J.A. White, R.J. Butera Jr., B. Choi, M.J. Dunlop, A.L. Lerner, R.A. Linsenmeier, L.G. Gilbertson, K.J. Grande-Allen, A. Grosberg, R.W. Hitchcock, A.Y. Huang-Saad, M. Kotche, A.M. Kyle, J.H. Linehan, M.I. Miller, J.A. Papin, L. Setton, A. Sgro, M.L. Smith, M. Zaman, A.P. Lee. 2020. Core Competencies for Undergraduates in Bioengineering and Biomedical Engineering: Findings, Consequences, and Recommendations<\/a>. Ann Biomed Eng<\/i>. 48: 905-12.<\/span><\/p>\n

8. G.A. Hoffmann, M.L Smith. 2019.\u00a0New Insights into Collagen and Fibronectin Reciprocity during Extracellular Matrix Formation.<\/a>\u00a0Chem. doi: 10.1016\/j.chempr.2019.07.012<\/span><\/p>\n

7. G.A. Hoffmann, J.Y.Wong, M.L. Smith. 2019. On Force and Form: Mechano-Biochemical Regulation of Extracellular Matrix.<\/a> Biochemistry. doi: 10.1021\/acs.biochem.9b00219<\/span><\/p>\n

6. A.J. Zollinger, M.L. Smith. 2016. Fibronectin, the extracellular glue<\/a>. Matrix Biol.\u00a0<\/em>In Press, available online 3 August 2016.<\/span><\/p>\n

5. S.R. Polio,\u00a0M.L. Smith. 2014. Patterning and image processing for traction force microscopy<\/a>.\u00a0Methods Cell Biol<\/i>. 121: 17-31.<\/span><\/p>\n

4. C.K. Kuo, M.L. Smith. 2014. Biomaterial design motivated by characterization of natural extracellular matrices<\/a>. MRS Bull<\/i>. 39(1): 18-24.<\/span><\/p>\n

3. \u00a0M.J. Bradshaw,\u00a0M.L. Smith. 2014. Multiscale relationships between fibronectin structure and biological function<\/a>.\u00a0Acta Biomater<\/i>. 10(4): 1524-31.<\/span><\/p>\n

2. V.P. Hyt\u00f6nen,\u00a0M.L.\u00a0Smith, V. Vogel. 2010. Cellular Mechanotransduction: Diverse Perspectives from Molecules to Tissues. Chapter 13:\u00a0Translating mechanical force into discrete biochemical\u00a0signal changes: multimodularity imposes unique properties to mechanotransductive proteins. (Editors: Mohammad Mofrad and Roger Kamm). Cambridge University Press.<\/span><\/p>\n

1.\u00a0\u00a0M.R. Dusseiller,\u00a0M.L.\u00a0Smith, V. Vogel, M. Textor. 2006. Microfabricated three-dimensional environments for single cell studies. Biointerphases. 1(1): 1-4.<\/span><\/p>\n

Peer Reviewed Research Articles:<\/strong><\/span><\/p>\n

43. Stamenovi\u0107, R. Krishnan, E.P. Canovi\u0107, M.L. Smith. 2020. As the endothelial cell reorients, its tensile forces stabilize. J Biomech<\/em>. In Press.<\/span><\/p>\n

42. J. Li, P.E. Barbone, M.L. Smith, D. Stamenovi\u0107. 2020. Effect of correlation between traction forces on tensional homeostasis in clusters of endothelial cells and fibroblasts<\/a>. J Biomech<\/em>. 100: 109588-91.<\/span><\/p>\n

41. M.J. Bradshaw, G. Hoffmann, J.Y. Wong, M.L. Smith. 2019. Fibronectin fiber creep under constant force loading<\/a>. Acta Biomater<\/em>. 88: 78-85.<\/span><\/p>\n

40. O.E. Onochie, A. Zollinger, C.B. Rich, M. Smith, V. Trinkaus-Randall. 2019. Epithelial cells exert differential traction stress in response to substrate stiffness<\/a>. Exp Eye Res<\/em>. 181: 25-37.<\/span><\/p>\n

39. A.J. Zollinger, H. Xu, J. Figueiredo, J. Paredes, R. Seruca, D. Stamenovi\u0107, M.L. Smith. 2018. Dependence of tensional homeostasis on cell type and on cell-cell interactions<\/a>. Cell Mol Bioeng<\/em>. 11(3): 175-84.<\/span><\/p>\n

38. M.M. Jacobsen, D. Li, N.G. Rim, D. Backman, M.L. Smith, J.Y. Wong. 2017. Silk-fibronectin alloy fiber for improved cellular adhesion. Sci Rep<\/em>. 7: 45653.<\/span><\/p>\n

37. D.R. Myers, Y. Qiu, M.E. Fay, M. Tennenbaum, D. Chester, J. Cuadrado, Y. Sakurai, J. Baek, R. Tran, J.C. Ciciliano, B. Ahn, R.G. Nammino, S.T. Bunting, C. Bennett, M. Briones, A. Fernandez-Nieves, M.L. Smith, A.C. Brown, T. Sulchek, W.A. Lam. 2017. Single-platelet nanomechanics measured by high-throughput cytometry. Nat Mater<\/em>. 16: 230-35.<\/span><\/p>\n

36. S.N. Tam, M.L. Smith, D. Stamenovi\u0107. 2017. Modeling tensional homeostasis in multicellular clusters. Int J Numer Method Biomed Eng<\/em>. 33(3): e02801.<\/span><\/p>\n

35. E.P. Canovi\u0107, A.J. Zollinger, S.N. Tam, M.L. Smith, D. Stamenovi\u0107. 2016. Tensional homeostasis in endothelial cells is a multicellular phenomenon. Am J Physiol Cell Physiol. <\/em>311(3): C528-35.\u00a0Note<\/em><\/strong>: This article was selected for inclusion in APSselect<\/em>, a collection from all APS journals that showcases some of the best recently published articles in physiological research.<\/span><\/p>\n

34. B. Hubbard, J.A. Buczek-Thomas, M.A. Nugent, M.L. Smith. 2016. Fibronectin fiber extension decreases cell spreading and migration. J Cell Physiol<\/em>. 231(8): 1728-36.\u00a0Note<\/em><\/strong>: Featured as a JCP Spotlight Article.<\/span><\/p>\n

33. K.E. Kubow, R. Vukmirovic, L. Zhe, E. Klotzsch, M.L. Smith, D. Gourdon, V. Vogel. 2015. Mechanical forces regulate the interactions of two prominent extracellular matrix proteins: fibronectin and collagen. Nat Commun<\/em>. 6: 8026.<\/span><\/p>\n

32. E.P. Canovi\u0107, D.T. Seidl, P.E. Barbone, M.L. Smith, D. Stamenovi\u0107. 2014. Stiffness versus prestress relationship at subcellular length scale. J Biomech<\/em>. 47: 3222-5.<\/span><\/p>\n

31. S.R. Polio, H. Parameswaran, E.P. Canovi\u0107, C. Gaut, D. Aksyonova, D. Stamenovi\u0107, M.L. Smith. 2014. Topographical control of multiple cell adhesion ligands for traction force microscopy. Integr Biol.<\/em> 6(3): 357-65.\u00a0Note<\/em><\/strong>: Featured as a HOT article by Integrative Biology.<\/span><\/p>\n

30. B. Hubbard, J.A. Buczek-Thomas, M.A. Nugent, M.L. Smith. 2014. Heparin-dependent regulation of fibronectin matrix conformation. Matrix Biol<\/em>. 34: 124-31.<\/span><\/p>\n

29. E.P. Canovi\u0107, D.T. Seidl, S.R. Polio, A.A. Oberai, P.E. Barbone, D. Stamenovi\u0107, M.L. Smith. 2014. Biomechanical imaging of cell stiffness and prestress with subcellular resolution.<\/em> Biomech Model Mechanobiol<\/em>. 13: 665-78.\u00a0Note<\/em><\/strong>: Canovi\u0107 was awarded the 2013 BME Graduate Student Paper of the Year Award for this publication.<\/span><\/p>\n

28. M.J. Bradshaw, M.C. Cheung, D.J. Ehrlich, M.L. Smith. 2012. Using molecular mechanics to predict bulk material properties of fibronectin fibers. PLoS Comput Biol<\/em>. 8(12): e1002845.<\/span><\/p>\n

27. R. Krishnan, E.P. Canovi\u0107, A.L. Iordan, K. Rajendran, G. Manomohan, A.P. Pirentis, M.L. Smith, J.P. Butler, J.J. Fredberg, D. Stamenovi\u0107. 2012. Fluidization, resolidification, and reorientation of the endothelial cell in response to slow tidal stretches. Am J Physiol Cell Physiol<\/em>. 303(4): C368-75.<\/span><\/p>\n

26. S.R. Polio, K.E. Rothenberg, D. Stamenovi\u0107, M.L. Smith. 2012. A micropatterning and image processing approach to simplify measurement of cellular traction forces. Acta Biomater<\/em>. 8(1): 82-8.<\/span><\/p>\n

25. M.J. Bradshaw, M.L. Smith. 2011. Contribution of unfolding and intermolecular architecture to fibronectin fiber extensibility. Biophys J<\/em>. 101(7): 1740-8.<\/span><\/p>\n

24. M. Andreasson-Ochsner, G. Romano, M. H\u00e5kanson, M.L. Smith, D.E. Leckband, M. Textor, E. Reimhult. 2011. Single cell 3-D platform to study ligand mobility in cell-cell contact. Lab Chip<\/em>. 11(17): 2876-83.<\/span><\/p>\n

23. M. Chabria, S. Hertig, M.L. Smith, V. Vogel. 2010. Stretching fibronectin fibres disrupts binding of bacterial adhesins by physically destroying an epitope. Nat Commun<\/em>. 1(9): 135.<\/span><\/p>\n

22. M. Ochsner, M. Textor, V. Vogel, M.L. Smith. 2010. Dimensionality controls cytoskeleton assembly and metabolism of fibroblast cells in response to rigidity and shape. PLoS One<\/em>. 5(3): e9445.<\/span><\/p>\n

21. M. Rottmar, M. Hakanson, M. Smith, K. Maniura-Weber. 2010. Stem cell plasticity, osteogenic differentiation and the third dimension. J Mater Sci Mater Med<\/em>. 21(3): 999-1004.<\/span><\/p>\n

20. K.E. Kubow, E. Klotzsch, M.L. Smith, D. Gourdon, W.C. Little, V. Vogel. 2009. Crosslinking of cell-derived 3D matrices upregulates the stretching and unfolding of new ECM assembled by reseeded fibroblasts. Integr Biol<\/em>. 1(11-12): 635-48.<\/span><\/p>\n

19. E. Klotzsch, M.L. Smith, K.E. Kubow, S. Muntwyler, W.C. Little, F. Beyeler, D. Gourdon, B.J. Nelson, V. Vogel. 2009. Fibronectin forms the most extensible biological fibers displaying force-exposed cryptic binding sites. Proc Natl Acad Sci USA<\/em>. 106(43): 18267-72.<\/span><\/p>\n

18. W. Little, R. Schwartlaender, M.L. Smith, D. Gourdon, V. Vogel. 2009. Stretched extracellular matrix proteins turn fouling and are functionally rescued by the chaperones albumin and casein. Nano Lett<\/em>. 9(12): 4158-67.<\/span><\/p>\n

17. A.J. Meinel, K.E. Kubow, E. Klotzsch, M. Garcia-Fuentes, M.L. Smith, V. Vogel, H.P. Merkle, L. Meinel. 2009. Optimization strategies for electrospun silk fibroin tissue engineering scaffolds. Biomaterials<\/em>. 30(17): 3058-67.<\/span><\/p>\n

16. W. Little, M.L. Smith, U. Ebneter, V. Vogel. 2008. Assay to mechanically tune and optically probe fibrillar fibronectin conformations from fully relaxed to breakage. Matrix Biol<\/em>. 27: 451-61.<\/span><\/p>\n

15. M.L. Smith, D. Gourdon, W. Little, K.E. Kubow, R. Andresen Eguiluz, S. Morris, V. Vogel. 2007. Force-induced unfolding of fibronectin in the extracellular matrix of living cells. PLoS Biol<\/em>. 5(10): e268.<\/span><\/p>\n

14. M. Ochsner, M.R. Dusseiller, H.M. Grandin, S. Morris, M. Textor, V. Vogel, M.L. Smith. 2007. Micro-well arrays for 3D shape control and high resolution analysis of single cells. Lab Chip<\/em>. 7(8): 1074-77.<\/span><\/p>\n

13. M. Sperandio, D. Frommhold, I. Babushkina, L.G. Ellies, T.S. Olson, M.L. Smith, B. Fritzsching, E. Pauly, D.F. Smith, R. Nobiling, O. Linderkamp, J.D. Marth, K. Ley. 2006. a2,3-sialyltransferase-IV is essential for L-selectin ligand function in inflammation. Eur J Immunol<\/em>. 36(12):3207-15.<\/span><\/p>\n

12. B.C. Chesnutt, D.F. Smith, N.A. Raffler, M.L. Smith, E.J. White, K. Ley. 2006. Induction of LFA-1-dependent neutrophil rolling on ICAM-1 by engagement of E-selectin. Microcirculation<\/em>. 13(2): 99-109.<\/span><\/p>\n

11. P. Koszalka, B. Ozuyaman, Y. Huo, A. Zernecke, U. Flogel, N. Braun, A. Buchheiser, U.K. Decking, M.L. Smith, J. Sevigny, A. Gear, A.A. Weber, A. Molojavyi, Z. Ding, C. Weber, K. Ley, H. Zimmermann, A. Godecke, J. Schrader. 2004. Targeted disruption of cd73\/Ecto-5′-Nucleotidase alters thromboregulation and augments vascular inflammatory response. Circ Res<\/em>. 95(8): 814-21.<\/span><\/p>\n

10. M.L. Smith, M. Sperandio, E.V. Galkina, K. Ley. 2004. Autoperfused flow chamber reveals synergistic neutrophil accumulation through P-selectin and E-selectin. J Leukoc Biol<\/em>. 76(5): 985-93.<\/span><\/p>\n

9. M.L. Smith, T.S. Olson, K. Ley. 2004. CXCR2- and E-selectin-induced neutrophil arrest during inflammation in vivo<\/em>. J Exp Med.<\/em> 200(7): 935-39.<\/span><\/p>\n

8. E.R. Damiano, D.S. Long, M.L. Smith. 2004. Estimation of viscosity profiles using velocimetry data from parallel flows of linearly viscous fluids: Application to microvascular hemodynamics. J Fluid Mech.<\/em> 512: 1-19.<\/span><\/p>\n

7. D.S. Long, M.L. Smith, A.R. Pries, K. Ley, E.R. Damiano. 2004. Microviscometry reveals reduced blood viscosity and altered shear rate and shear stress profiles in microvessels after hemodilution. Proc Natl Acad Sci USA.<\/em> 101(27): 10060-65.<\/span><\/p>\n

6. M. Sperandio, M.L. Smith, S.B. Forlow, T.S. Olson, L. Xia, R.P. McEver, K. Ley. 2003. P-selectin Glycoprotein Ligand-1 mediates L-selectin-dependent leukocyte rolling in venules. J Exp Med<\/em>. 197(10): 1355-63.<\/span><\/p>\n

5. M.L. Smith, D.S. Long, E.R. Damiano, K. Ley. 2003. Near-wall m-PIV reveals the presence of a hemodynamically relevant endothelial surface layer in venules in vivo<\/em>. Biophys J<\/em>. 85: 637-45.<\/span><\/p>\n

4. H.Y. Shin, M.L. Smith, K.J. Toy, P.M. Williams, R. Bizios, M.E. Gerritsen. 2002. VEGF-C mediates cyclic pressure-induced endothelial cell proliferation. Physiol Genomics<\/em>. 11(3): 245-51.<\/span><\/p>\n

3. M.L. Smith, M.J. Smith, M.B. Lawrence, K. Ley. 2002. Viscosity independent velocity of neutrophils rolling on P-selectin in vitro<\/em> or in<\/em> vivo<\/em>. Microcirculation<\/em>. 9: 523-36.<\/span><\/p>\n

2. L.G. Ellies, M. Sperandio, G.H. Underhill, J. Yousef, M. Smith, J.J. Priatel, G. Kansas, K. Ley, J.D. Marth. 2002. Sialyltransferase specificity in selectin ligand formation. Blood<\/em>. 100(10): 3618-25.<\/span><\/p>\n

1. K. Singbartl, J. Thatte, M.L. Smith, K. Wethmar, K. Day, K. Ley. 2001. A CD2-GFP transgenic mouse reveals VLA-4-dependent CD8+<\/sup> lymphocyte rolling in inflamed venules. J Immunol<\/em>. 166(12): 7520-26.<\/span><\/p>\n

 <\/p>\n

Select Conference Posters and Presentations:<\/b><\/span><\/p>\n

16. G.A. Hoffmann, M.M. Jacobsen, M.D. Layne, J.Y. Wong, M.L. Smith, Mechanically active and tunable extracellular matrix fibers for tissue engineering applications. Multiscale Mechanochemistry & Mechanobiology Conference; Montreal, Canada, July 30, 2019<\/span><\/p>\n

15. *H. Xu, A.J. Zollinger, J. Paredes, R. Seruca, D. Stamenovi\u0107, M.L. Smith, Cellular Tensional Homeostasis Depends on Cell Type and on Cell-Cell Interactions. Gordon Research Conference: Signaling by Adhesion Receptors; Biddeford, ME, June 28, 2018<\/span><\/p>\n

14. *G.A.\u00a0Hoffmann, M.M. Jacobsen, M.D. Layne, J.Y. Wong & M.L. Smith, Protein properties determine characteristics of wet spun protein fibers. Signaling by Adhesion Receptors Gordon Research Conference; Biddeford, ME. Jun 28, 2018<\/span><\/p>\n

13. *H.\u00a0Xu, J. Figueiredo, J. Paredes, R. Seruca, M.L. Smith and D. Stamenovi\u0107, Site-specific E-cadherin Mutations Affect Gastric Cancer Cell Tensional Homeostasis. BMES; Pheonix, AZ. Oct 11, 2017<\/span><\/p>\n

12. *H. Xu, J. Figueiredo, J. Paredes, R. Seruca, M.L. Smith and D. Stamenovi\u0107. Effects of Mutated E-cadherin on Human Gastric Cancer Cell Tensional Homeostasis. SES; Boston, MA. August 27, 2017.<\/span><\/p>\n

11. *A.J. Zollinger, H. Xu, M.L. Smith. Importance of Cell Type in Tensional Homeostasis. SES; Boston, MA. August 27, 2017.<\/span><\/p>\n

10.\u00a0\u00a0*\u00a0<\/b>M.M. Jacobsen, S. Anderson, J.Y. Wong, M.L. Smith. Fibronectin fiber extrusion via silk-inspired shear spinning. BMES; Minneapolis, MN. October 7, 2016.<\/span><\/p>\n

9.\u00a0\u00a0H. Xu, D. Stamenovi\u0107, M.L. Smith. Effect of fluid shear stress on endothelial cell tensional homeostasis. BMES; Minneapolis, MN. October 7, 2016.<\/span><\/p>\n

8.\u00a0\u00a0A.J. Zollinger, E.P. Canovi\u0107, M.L. Smith, D. Stamenovi\u0107. Multicellular regulation of tensional homeostasis. BMES; Minneapolis, MN. October 7, 2016.<\/span><\/p>\n

7.\u00a0*<\/b> <\/b>H. Parameswaran, R. Krishnan, M.L. Smith, K.R. Lutchen. Cell-extracellular matrix interactions play a critical role in the origin of hyperreactivity of airway smooth muscle cells in asthma. BMES; Minneapolis, MN. October 7, 2016.<\/span><\/p>\n

6.\u00a0\u00a0M.L. Smith,\u00a0B. Hubbard,\u00a0M. Bradshaw, J.A. Buczek-Thomas, M. Nugent. Fibronectin fiber extension decreases cell spreading and migration. Gordon Research Conference (Signaling by Adhesion Receptors). Bates College in Lewiston, ME. June 22, 2016.<\/span><\/p>\n

5.\u00a0*<\/b> <\/b>M.M. Jacobsen, D. Li, N.G. Rim, D. Backman, M.L. Smith, J.Y. Wong. Microfluidic spinning of fibronectin fibers via silk-induced cross-linking. 10th<\/sup>World Biomaterials Congress; Montreal, Canada. May 20, 2016.<\/span><\/p>\n

4.\u00a0*<\/b> <\/b>S.N. Tam, M.L. Smith, D. Stamenovi\u0107. Modeling tensional homeostasis in cells. BMES; Tampa, FL. October 10, 2015.<\/span><\/p>\n

3.\u00a0*<\/b> D. Stamenovi\u0107, E.P. Canovi\u0107, A.J. Zollinger, S.N. Tam, M.L. Smith. Tensional homeostasis is a multicellular phenomenon. European Society of Biomechanics; Prague, Czech Republic. July 6, 2015.<\/span><\/p>\n

2.\u00a0\u00a0A.J. Zollinger, E.P. Canovic, S.N. Tam, M.L. Smith, D. Stamenovic. Role of Cell-cell interaction in tensional homeostasis. Summer Biomechanics, Bioengineering, and Biotransport Conference (SB3C). Snowbird, UT. June 17th, 2015.<\/span><\/p>\n

1.\u00a0*<\/b> E.P. Canovi\u0107, S.N. Tam, A.J. Zollinger, M.L. Smith, D. Stamenovi\u0107. Multicellular regulation of tensional homeostasis. 4th<\/sup> International Conference on Computational and Mathematical Biomedical Engineering; Paris, France. June 30, 2015.<\/span><\/p>\n","protected":false},"excerpt":{"rendered":"

Reviews, Perspectives, & Book Chapters: 9.\u00a0J.A. White, R.J. Butera Jr., B. Choi, M.J. Dunlop, A.L. Lerner, R.A. Linsenmeier, L.G. Gilbertson, K.J. Grande-Allen, A. Grosberg, R.W. Hitchcock, A.Y. Huang-Saad, M. Kotche, A.M. Kyle, J.H. Linehan, M.I. Miller, J.A. Papin, L. Setton, A. Sgro, M.L. Smith, M. Zaman, A.P. Lee. 2020. Core Competencies for Undergraduates in Bioengineering […]<\/p>\n","protected":false},"author":5691,"featured_media":0,"parent":0,"menu_order":5,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/pages\/81"}],"collection":[{"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/users\/5691"}],"replies":[{"embeddable":true,"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/comments?post=81"}],"version-history":[{"count":50,"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/pages\/81\/revisions"}],"predecessor-version":[{"id":420,"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/pages\/81\/revisions\/420"}],"wp:attachment":[{"href":"https:\/\/www.bu.edu\/mml\/wp-json\/wp\/v2\/media?parent=81"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}