Benjamin G. Cooper
Pre-Doctoral Trainee
Boston University Graduate School of Arts and Sciences
Dept of Chemistry




Benjamin Cooper received his B.S. from Brandeis University, where he majored in chemistry and biology and conducted research in the group of Prof. Christine Thomas, synthesizing and characterizing heterobimetallic inorganic complexes for applications in small molecule activation catalysis. At Boston University, his research interests in the group of Prof. Mark Grinstaff (Departments of Chemistry and Biomedical Engineering and Division of Materials Science & Engineering) include synthesis, characterization, and ex vivo and in vivo evaluation of biomaterials for applications in repairing and preserving articular cartilage. Co-advised by Dr. Brian Snyder, Department of Biomedical Engineering (BU) and Center for Advanced Orthopaedic Studies (Beth Israel Deaconess Medical Center, Boston).

Benjamin's current research includes: 1) pursuing fundamental understanding of articular cartilage friction, lubrication, and wear, 2) designing and implementing new biomaterials that improve cartilage mechanical properties by treating/preventing wear, and 3) working with interdisciplinary collaborators to pursue translation of newly developed materials and techniques.

Keywords: cartilage repair, viscosupplementation, orthopedic biomaterials, polymer chemistry
Publications listed below are automatically derived from MEDLINE/PubMed and other sources, which might result in incorrect or missing publications. Faculty can login to make corrections and additions.

  1. Cooper BG, Lawson TB, Snyder BD, Grinstaff MW. Reinforcement of articular cartilage with a tissue-interpenetrating polymer network reduces friction and modulates interstitial fluid load support. Osteoarthritis Cartilage. 2017 Jul; 25(7):1143-1149.View Related Profiles. PMID: 28285000; DOI: 10.1016/j.joca.2017.03.001;.
  2. Cooper BG, Stewart RC, Burstein D, Snyder BD, Grinstaff MW. A Tissue-Penetrating Double Network Restores the Mechanical Properties of Degenerated Articular Cartilage. Angew Chem Int Ed Engl. 2016 Mar 18; 55(13):4226-30.View Related Profiles. PMID: 26934682; DOI: 10.1002/anie.201511767;.

This graph shows the total number of publications by year, by first, middle/unknown, or last author.

Bar chart showing 2 publications over 2 distinct years, with a maximum of 1 publications in 2016 and 2017

YearPublications
20161
20171
In addition to these self-described keywords below, a list of MeSH based concepts is available here.

cartilage repair
orthopedic biomaterials
polymer chemistry
viscosupplementation
Contact for Mentoring:


590 Commonwealth Ave
Boston MA 02215
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