Adam P. Wax

Adam P. Wax

Professor of Biomedical Engineering

Professor of Physics (Secondary)

Faculty Network Member of the Duke Institute for Brain Sciences

Member of the Duke Cancer Institute

Bass Fellow

Office Location: 
2571 CIEMAS, Durham, NC 27708
Front Office Address: 
Box 90281, Durham, NC 27708-0281
Phone: 
(919) 660-5143

Overview

Dr. Wax's research interests include optical spectroscopy for early cancer detection, novel microscopy and
interferometry techniques.

The study of intact, living cells with optical spectroscopy offers the opportunity to observe cellular structure, organization and dynamics in a way that is not possible with traditional methods. We have developed a set of novel spectroscopic techniques for measuring spatial, temporal and refractive structure on sub-hertz and sub-wavelength scales based on using low-coherence interferometry (LCI) to detect scattered light. We have applied these techniques in different types of cell biology experiments. In one experiment, LCI measurements of the angular pattern of backscattered light are used to determine non-invasively the structure of sub-cellular organelles in cell monolayers, and the components of epithelial tissue from freshly excised rat esophagus. This work has potential as a diagnostic method for early cancer detection. In another experiment, LCI phase measurements are used to examine volume changes of epithelial cells in a monolayer in response to environmental osmolarity changes. Although cell volume changes have been measured previously, this work demonstrates for the first time the volume of just a few cells (2 or 3) tracked continuously and in situ.

Education & Training

  • Ph.D., Duke University 1999

  • M.A., Duke University 1996

  • B.S., Rensselaer Polytechnic Institute 1993

Skala, M. C., et al. “Photothermal optical coherence tomography for molecular imaging.” Optics Infobase Conference Papers, 2011.

Rinehart, M. T., et al. “Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy.” Optics Infobase Conference Papers, 2011.

Zhu, Y., et al. “Spectral-domain differential interference contrast microscopy.” Optics Infobase Conference Papers, 2011.

Skala, M. C., et al. “Photothermal optical coherence tomography for molecular imaging.” Optics Infobase Conference Papers, Optical Society of America, 2011.

Rinehart, M. T., et al. “Whole-cell analysis of cardiomyocytes with combined quantitative phase and two-channel fluorescence microscopy.” Optics Infobase Conference Papers, Optical Society of America, 2011.

Rinehart, M. T., et al. “Real-time quantitative phase and dual-channel fluorescence microscopy for studying cellular and biomolecular dynamics.” Optics Infobase Conference Papers, Optical Society of America, 2011.

Zhu, Y., et al. “Spectral-domain differential interference contrast microscopy.” Optics Infobase Conference Papers, Optical Society of America, 2011.

Drake, T., et al. “Multimodal optical detection of intravaginal microbicide gel coating thickness distribution.” Optics Infobase Conference Papers, Jan. 2011.

Drake, T., et al. “Multimodal optical detection of intravaginal microbicide gel coating thickness distribution.” Optics Infobase Conference Papers, Jan. 2011. Scopus, doi:10.1364/omp.2011.otub5. Full Text

Pages