Haadi M. Shakir scite author profile

Haadi M. Shakir

3Publications

63Citation Statements Received

52Citation Statements Given

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University of Illinois Urbana-Champaign

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Halo-free Phase Contrast Microscopy

Nguyen

Kandel

Shakir

et al. 2017

Sci Rep

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We present a new approach for retrieving halo-free phase contrast microscopy (hfPC) images by upgrading the conventional PC microscope with an external interferometric module, which generates sufficient data for reversing the halo artifact. Acquiring four independent intensity images, our approach first measures haloed phase maps of the sample. We solve for the halo-free sample transmission function by using a physical model of the image formation under partial spatial coherence. Using this halo-free sample transmission, we can numerically generate artifact-free PC images. Furthermore, this transmission can be further used to obtain quantitative information about the sample, e.g., the thickness with known refractive indices, dry mass of live cells during their cycles. We tested our hfPC method on various control samples, e.g., beads, pillars and validated its potential for biological investigation by imaging live HeLa cells, red blood cells, and neurons.

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Three‐dimensional intracellular transport in neuron bodies and neurites investigated by label‐free dispersion‐relation phase spectroscopy

et al. 2017

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Due to the limitations of fluorescence imaging techniques, the study of intracellular cargo is typically restricted to two-dimensional analyses. To overcome low light levels and the risk of phototoxicity, we employ quantitative phase imaging, a family of full-field imaging techniques that measure the optical path length shift introduced by the specimen. Specifically, we use spatial light interference microscopy (SLIM) to study the transport of mass in whole tomographic volumes and show that a time-correlation technique, dispersion-relation phase spectroscopy (DPS), can be used to simultaneously assay the horizontal and vertical traffic of mass through a cell. To validate our method, we compare the traffic inside cell bodies and neuronal extensions, showing that the vertical transport of mass may prove a more sensitive and interesting metric than similar measurements limited to a 2D, horizontal plane. © 2017 International Society for Advancement of Cytometry.

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Halo-free phase contrast microscopy (Conference Presentation)

Nguyen

Kandel

Shakir

et al. 2017

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Haadi M. Shakir

Halo-free Phase Contrast Microscopy

Three‐dimensional intracellular transport in neuron bodies and neurites investigated by label‐free dispersion‐relation phase spectroscopy

Halo-free phase contrast microscopy (Conference Presentation)

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