faculty - kalonia

Devendra Kalonia

  • E-Mail
  • Phone
    • (860) 486-3655
  • Fax
    • (860) 486-2076
  • Office
    • School of Pharmacy
      Room 433
  • Mail
    • University of Connecticut
      Dept. of Pharmaceutical Sciences
      69 North Eagleville Road
      Storrs, CT 06269-3092

Professor of Pharmaceutics


Educational Background

  • B.Pharm. Birla Institute of Technology and Science
  • M.Pharm. Birla Institute of Technology and Science, Pharmaceutics
  • Ph.D. University of Connecticut, Pharmaceutics

Research Interests

  • Formulation of peptide and protein pharmaceuticals: stability, unfolding and aggregation
  • Protein-protein and protein-excipient interactions
  • Protein precipitation for dry powder formulations

Selected Publications

  • Yadav, S., Laue, T.M., Kalonia, D.S., Singh, S.N., Shire, S.J. (2012) The influence of charge distribution on self-association and viscosity behavior of monoclonal antibody solutions, Molecular Pharmaceutics 9(4), 791-802.
  • Chari, R., Singh, S.N., Yadav, S., Brems, D.N., Kalonia, D.S. (2012) Determination of the dipole moments of RNAse SA wild type and a basic mutant, Proteins 80(4), 1041-52.
  • Yadav, S., Shire, S.J., Kalonia, D.S. (2012) Viscosity behavior of high-concentration monoclonal antibody solutions: correlation with interaction parameter and electroviscous effects, Journal of Pharmaceutical Sciences, 101(3), 998-1011.
  • Abbas, S.A., Sharma, V.K., Patapoff, T.W., Kalonia, D.S. (2012) Opposite effects of polyols on antibody aggregation: thermal versus mechanical stresses, Pharmaceutical Research 29(3), 683-94.
  • Printz, M., Kalonia, D.S., Friess, W. (2012) Individual second virial coefficient determination of monomer and oligomers in heat-stressed protein samples using size-exclusion chromatography-light scattering, Journal of Pharmaceutical Sciences 101(1), 363-72.
  • Yadav, S., Sreedhara, A., Kanai, S., Liu, J., Lien, S., Lowman, H., Kalonia, D.S., Shire, S.J. (2011) Establishing a link between amino acid sequences and self-associating and viscoelastic behavior of two closely related monoclonal antibodies, Pharmaceutical Research 28(7), 1750-64.