Literature DB >> 32225868

Comparative phase imaging of live cells by digital holographic microscopy and transport of intensity equation methods.

Jeremy M Wittkopp, Ting Chean Khoo, Shane Carney, Kai Pisila, Shahab J Bahreini, Kate Tubbesing, Supriya Mahajan, Anna Sharikova, Jonathan C Petruccelli, Alexander Khmaladze.   

Abstract

We describe a microscopic setup implementing phase imaging by digital holographic microscopy (DHM) and transport of intensity equation (TIE) methods, which allows the results of both measurements to be quantitatively compared for either live cell or static samples. Digital holographic microscopy is a well-established method that provides robust phase reconstructions, but requires a sophisticated interferometric imaging system. TIE, on the other hand, is directly compatible with bright-field microscopy, but is more susceptible to noise artifacts. We present results comparing DHM and TIE on a custom-built microscope system that allows both techniques to be used on the same cells in rapid succession, thus permitting the comparison of the accuracy of both methods.

Mesh:

Year:  2020        PMID: 32225868      PMCID: PMC7347524          DOI: 10.1364/OE.385854

Source DB:  PubMed          Journal:  Opt Express        ISSN: 1094-4087            Impact factor:   3.894


  37 in total

1.  Quantitative phase-amplitude microscopy. III. The effects of noise.

Authors:  D Paganin; A Barty; P J McMahon; K A Nugent
Journal:  J Microsc       Date:  2004-04       Impact factor: 1.758

2.  High-resolution quantitative phase-contrast microscopy by digital holography.

Authors:  Christopher Mann; Lingfeng Yu; Chun-Min Lo; Myung Kim
Journal:  Opt Express       Date:  2005-10-31       Impact factor: 3.894

3.  Phase imaging of cells by simultaneous dual-wavelength reflection digital holography.

Authors:  Alexander Khmaladze; Myung Kim; Chun-Min Lo
Journal:  Opt Express       Date:  2008-07-21       Impact factor: 3.894

4.  Simultaneous dual-wavelength reflection digital holography applied to the study of the porous coal samples.

Authors:  Alexander Khmaladze; Alejandro Restrepo-Martínez; Myung Kim; Roman Castañeda; Astrid Blandón
Journal:  Appl Opt       Date:  2008-06-10       Impact factor: 1.980

5.  Noninterferometric single-shot quantitative phase microscopy.

Authors:  Chao Zuo; Qian Chen; Weijuan Qu; Anand Asundi
Journal:  Opt Lett       Date:  2013-09-15       Impact factor: 3.776

6.  Source diversity for transport of intensity phase imaging.

Authors:  Tonmoy Chakraborty; Jonathan C Petruccelli
Journal:  Opt Express       Date:  2017-04-17       Impact factor: 3.894

7.  Quantitative phase microscopy for cellular dynamics based on transport of intensity equation.

Authors:  Ying Li; Jianglei Di; Chaojie Ma; Jiwei Zhang; Jinzhan Zhong; Kaiqiang Wang; Teli Xi; Jianlin Zhao
Journal:  Opt Express       Date:  2018-01-08       Impact factor: 3.894

8.  Phase retrieval in in-line x-ray phase contrast imaging based on total variation minimization.

Authors:  Alexander Kostenko; K Joost Batenburg; Heikki Suhonen; S Erik Offerman; Lucas J van Vliet
Journal:  Opt Express       Date:  2013-01-14       Impact factor: 3.894

9.  Digital holographic microscopy: a quantitative label-free microscopy technique for phenotypic screening.

Authors:  Benjamin Rappaz; Billy Breton; Etienne Shaffer; Gerardo Turcatti
Journal:  Comb Chem High Throughput Screen       Date:  2014-01       Impact factor: 1.339

10.  Methamphetamine-induced apoptosis in glial cells examined under marker-free imaging modalities.

Authors:  Lianna Y D'Brant; Habben Desta; Ting Chean Khoo; Anna V Sharikova; Supriya D Mahajan; Alexander Khmaladze
Journal:  J Biomed Opt       Date:  2019-04       Impact factor: 3.170
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  1 in total

1.  Cellular analysis using label-free parallel array microscopy with Fourier ptychography.

Authors:  Devin L Wakefield; Richard Graham; Kevin Wong; Songli Wang; Christopher Hale; Chung-Chieh Yu
Journal:  Biomed Opt Express       Date:  2022-02-07       Impact factor: 3.732
  1 in total

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