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Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response

Publication ,  Conference
Highland, T; Parker, SM; Price, H; Reynolds, M; He, S; Hoffman, BD; Wax, A
Published in: Optics InfoBase Conference Papers
January 1, 2022

Demonstration of quantitative phase microscopy and Förster resonance energy transfer for analyzing molecular and structural information simultaneously. We focus on signaling pathways and sub-cellular structure for endothelial cells exposed to various flows.

Duke Scholars

Published In

Optics InfoBase Conference Papers

EISSN

2162-2701

Publication Date

January 1, 2022
 

Citation

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Highland, T., Parker, S. M., Price, H., Reynolds, M., He, S., Hoffman, B. D., & Wax, A. (2022). Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response. In Optics InfoBase Conference Papers.
Highland, T., S. M. Parker, H. Price, M. Reynolds, S. He, B. D. Hoffman, and A. Wax. “Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response.” In Optics InfoBase Conference Papers, 2022.
Highland T, Parker SM, Price H, Reynolds M, He S, Hoffman BD, et al. Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response. In: Optics InfoBase Conference Papers. 2022.
Highland T, Parker SM, Price H, Reynolds M, He S, Hoffman BD, Wax A. Combined Quantitative Phase Microscopy and Förster Resonance Energy Transfer Imaging for Analyzing Endothelial Cell Shear Stress Response. Optics InfoBase Conference Papers. 2022.

Published In

Optics InfoBase Conference Papers

EISSN

2162-2701

Publication Date

January 1, 2022