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Lewis Stevens is an American pharmacist. He is an Associate Professor at the University of Iowa College of Pharmacy.

Education
Lewis Stevens received his Bachelors of Arts in Chemistry from Hastings College in Hastings, Nebraska. He also received his Ph.D. in Chemistry from the University of Nebraska Lincoln.

Research
Lewis Stevens current research is focused primary around Physical Pharmacy and Mechanobiology.

Below are some of his recent publications.
 * A. B. Singaraju, D. Bahl, C. Wang, D. C. Swenson, C. C. Sun and L. L. Stevens, A molecular interpretation of the compaction performance and mechanical properties of caffeine cocrystals: A polymorphic study, Molecular Pharmaceutics, 2020, 17, 21 – 31.
 * B. A. Young, D. Bahl and L. L. Stevens, Distinguishing indomethacin polymorphs for superior tabletability using powder Brillouin light scattering, Pharmaceutical Research, 2019, 36
 * T. M. Kruger, K. J. Bell, T. I. Lansakara, A. V. Tivanski, J. A. Doorn and L. L. Stevens, Reduced extracellular matrix stiffness prompts SH-SY5Y cell softening and actin turnover to selectively increase A(1-42) endocytosis, ACS Chemical Neuroscience, 2019, 10, 1284 – 1293.
 * T. M. Kruger, B. E. Givens, T. I. Lansakara, K. J. Bell, H. Mohapatra, A. K. Salem, A. V. Tivanski and L. L. Stevens,  Mechanosensitive endocytosis of high-stiffness, sub-micron microgels in macrophage and hepatocarcinoma cell lines, ACS Applied Bio Materials, 2018, 1, 1254 - 1265.
 * K. J. Bell, T. I. Lansakara, R. Crawford, T. B. Monroe, A. V. Tivanski, A. K. Salem and L. L. Stevens, Mechanical cues protect against silica nanoparticle exposure in SH-SY5Y neuroblastoma, Toxicology In Vitro, 2021, 70, 105031
 * T. M. Kruger, T. I. Lansakara, A. V. Tivanski, J. A. Doorn and L. L. Stevens, A soft mechanical phenotype of SH-SY5Y neuroblastoma and primary human neurons is resilient to oligomeric A(1-42) injury, ACS Chemical Neuroscience, 2020, 11, 840 – 850.