Holography of Cells fitted to DDA scattering solutions

Thomas G. Dimiduk; Jerome Fung; Rebecca W. Perry; Ryan McGorty; Vinothan Manoharan

Holography of Cells fitted to DDA scattering solutions

ORAL

Abstract

Understanding the dynamics of cells is important to many areas of biophysics. Digital Holography offers a way to observe these dynamics at high speed, in 3D, in relatively native conditions. I will present work studying single cell dynamics through in-line digital holography. To quantify the motion of subcellular components, we fit our holograms to models of scattering based on the Discrete Dipole Approximation. In particular, we apply the technique to determine the the fluctuations of the cell membrane. The technique allows us to interrogate the cells over a broad range of time scales, from 10$^{-3}$ s up to the time scale for cell division.

Feb. 29, 2012, 4:30 PM – Feb. 29, 2012, 4:42 PM

Authors

Thomas G. Dimiduk
- Harvard
- Harvard University, Dept. of Physics
Jerome Fung
- Harvard
- Harvard University, Dept. of Physics
Rebecca W. Perry
- Harvard
- Harvard University, School of Engineering and Applied Sciences
Ryan McGorty
- UCSF
- UC San Fransisco
Vinothan Manoharan
- Harvard University
- Harvard
- Harvard University, Dept. of Physics and School of Engineering and Applied Sciences
- Harvard SEAS and Physics
- School of Engineering and Applied Sciences, Harvard University, Cambridge, MA, USA
- Department of Physics, Harvard University