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Skip to content Skip to search Skip to footer The Bayly Lab – Washington University Open Menu Back Close Menu Search for: Search Close Search Home People Research Publications Opportunities Collaborating Labs and Facilities Open Search Welcome to the Bayly Lab We use dynamics and imaging to understand the behavior of cells and tissues. Brain biomechanicsThe mechanical basis of traumatic brain injury (TBI) and chronic traumatic encephalopathy (CTE) remain incompletely understood. Magnetic resonance (MR) imaging and MR elastography allow us to visualize brain motion and uncover the mechanics that underlie TBI. (courtesy Ruth Okamoto) Waves and oscillations in cilia and flagellaThese subcellular organelles beat rhythmically to propel cells or move fluid. We measure and model flagella behavior, in collaboration with experts in imaging and cell biology, to understand the basis of these autonomous, propulsive oscillations. (courtesy Louis Woodhams) Diversity, equity and inclusion: I am committed to providing a supportive and inclusive place to work, for every member of my lab and to all those with whom we interact, regardless of race, ethnicity, gender identity, orientation, socioeconomic status, and religious or political affiliation. I have worked to establish undergraduate research opportunities through the Washington University Summer Engineering Fellowship (WUSEF) program. As a professor and department chair, I have helped our Department increase our faculty and students who are women and from groups traditionally underrepresented in engineering. I truly enjoy and value engineering research and education, and will continue to work to ensure that all who wish to pursue engineering have an equal chance to participate and succeed. – PVB NEWS (click on image to read news story) BRAIN RESPONSE TO IMPULSE AND HARMONIC EXCITATION Strain patterns in the brain’s response to harmonic excitation at 10 Hz resemble those produced by impulsive loading of the skull (Escarcega et al., JBME, 2023). ACOUSTIC MICROFLUIDICS TO STUDY CELL MOTILITY Single-cell-per-well acoustic trap enables study of cilia motion (collaborative work with Meacham lab). (Cui et al., PNAS, 2023) CILIA MECHANICS PAPER Emergence of unstable oscillatory modes explains mechanics of cilia motion (Woodhams et al., RSIF, 2022) Contact Bayly LabThe Bayly LabMSC 1185-208-125Washington University in St. Louis1 Brookings DriveSt. Louis, MO 63130-4899314-935-7562 Philip Bayly, Principal Investigator Jubel Hall Room 125 314-935-6081 [email protected] ©2024 Washington University in St. Louis
