Zvi Schwartz

Research.com Recognitions

• 2009 - Fellow of the Indian National Academy of Engineering (INAE)

Overview

Best Publications

• Role of material surfaces in regulating bone and cartilage cell response

  Barbara D. Boyan;Thomas W. Hummert;David D. Dean;Zvi Schwartz

  1801
  Citations

• Effect of titanium surface roughness on proliferation, differentiation, and protein synthesis of human osteoblast-like cells (MG63)

  J. Y. Martin;Z. Schwartz;T. W. Hummert;D. M. Schraub

  1482
  Citations

• A review of polyvinyl alcohol and its uses in cartilage and orthopedic applications.

  Maribel I. Baker;Steven P. Walsh;Zvi Schwartz;Barbara D. Boyan

  1161
  Citations

• High surface energy enhances cell response to titanium substrate microstructure.

  G. Zhao;Z. Schwartz;M. Wieland;F. Rupp

  1144
  Citations

• What can big data and text analytics tell us about hotel guest experience and satisfaction

  Zheng Xiang;Zvi Schwartz;John H. Gerdes;Muzaffer Uysal

  1050
  Citations

• The effects of combined micron-/submicron-scale surface roughness and nanoscale features on cell proliferation and differentiation

  Rolando A. Gittens;Taylor McLachlan;Rene Olivares-Navarrete;Ye Cai

  933
  Citations

• Response of MG63 osteoblast-like cells to titanium and titanium alloy is dependent on surface roughness and composition.

  J. Lincks;Boyanbuthscsa D. Boyan;C. R. Blanchard;C. H. Lohmann

  919
  Citations

• A review on the wettability of dental implant surfaces II: Biological and clinical aspects

  Rolando A. Gittens;Lutz Scheideler;Frank Rupp;Sharon L. Hyzy

  782
  Citations

• Surface roughness modulates the local production of growth factors and cytokines by osteoblast-like MG-63 cells.

  K. Kieswetter;Z. Schwartz;T. W. Hummert;D. L. Cochran

  747
  Citations

• Titanium surface characteristics, including topography and wettability, alter macrophage activation

  Kelly M. Hotchkiss;Gireesh B. Reddy;Sharon L. Hyzy;Zvi Schwartz

  582
  Citations

• A review on the wettability of dental implant surfaces I: theoretical and experimental aspects.

  Frank Rupp;Rolando A. Gittens;Lutz Scheideler;Abraham Marmur

  535
  Citations

• Requirement for both micron-and submicron scale structure for synergistic responses of osteoblasts to substrate surface energy and topography

  G. Zhao;A. L. Raines;M. Wieland;Zvi Schwartz;Zvi Schwartz

  533
  Citations

• Titanium surface roughness alters responsiveness of MG63 osteoblast‐like cells to 1α,25‐(OH)2D3

  B. D. Boyan;R. Batzer;K. Kieswetter;Y. Liu

  514
  Citations

• Underlying mechanisms at the bone–biomaterial interface.

  Zvi Schwartz;B. D. Boyan

  513
  Citations

• Ability of Commercial Demineralized Freeze-Dried Bone Allograft to Induce New Bone Formation

  Zvi Schwartz;Zvi Schwartz;J. T. Mellonig;D. L. Carnes;J. De La Fontaine

  510
  Citations

• The Role of Implant Surface Characteristics in the Healing of Bone

  K. Kieswetter;Zvi Schwartz;David D Dean;B. D. Boyan

  495
  Citations

• Differential regulation of osteoblasts by substrate microstructural features

  O. Zinger;G. Zhao;Zvi Schwartz;J. Simpson

  446
  Citations

• Implant osseointegration and the role of microroughness and nanostructures: Lessons for spine implants

  Rolando A. Gittens;Rene Olivares-Navarrete;Zvi Schwartz;Barbara D. Boyan

  428
  Citations

• Implant surface characteristics modulate differentiation behavior of cells in the osteoblastic lineage.

  Z. Schwartz;C. H. Lohmann;J. Oefinger;L. F. Bonewald

  386
  Citations

• Osteoblasts generate an osteogenic microenvironment when grown on surfaces with rough microtopographies.

  Barbara D. Boyan;S. Lossdörfer;L. Wang;G. Zhao

  377
  Citations