Arun Anand
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Explore the profile of Arun Anand including associated specialties, affiliations and a list of published articles.
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Articles
39
Citations
177
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Recent Articles
11.
Patel N, Trivedi V, Mahajan S, Chhaniwal V, Fournier C, Lee S, et al.
Biomed Opt Express
. 2018 Sep;
9(6):2779-2784.
PMID: 30258690
Digital holographic microscopy is the state of the art quantitative phase imaging of micro-objects including living cells. It is an ideal tool to image and quantify cell thickness profiles with...
12.
Javidi B, Markman A, Rawat S, OConnor T, Anand A, Andemariam B
Opt Express
. 2018 May;
26(10):13614-13627.
PMID: 29801384
We present a spatio-temporal analysis of cell membrane fluctuations to distinguish healthy patients from patients with sickle cell disease. A video hologram containing either healthy red blood cells (h-RBCs) or...
13.
Vora P, Trivedi V, Mahajan S, Patel N, Joglekar M, Chhaniwal V, et al.
J Biomed Opt
. 2017 Dec;
22(12):1-11.
PMID: 29235271
Quantitative three-dimensional (3-D) imaging of living cells provides important information about the cell morphology and its time variation. Off-axis, digital holographic interference microscopy is an ideal tool for 3-D imaging,...
14.
Aakhte M, Abbasian V, Akhlaghi E, Moradi A, Anand A, Javidi B
Appl Opt
. 2017 Apr;
56(9):D8-D13.
PMID: 28375382
In this paper, we use a glass microsphere incorporated into a digital holographic microscope to increase the effective resolution of the system, aiming at precise cell identification. A Mirau interferometric...
15.
Rawat S, Komatsu S, Markman A, Anand A, Javidi B
Appl Opt
. 2017 Apr;
56(9):D127-D133.
PMID: 28375380
We propose a low-cost, compact, and field-portable 3D printed holographic microscope for automated cell identification based on a common path shearing interferometer setup. Once a hologram is captured from the...
16.
Fernando S, Fitzpatrick T, Hurdle H, Anand A, Skinner C, Boyd K, et al.
Can J Anaesth
. 2017 Mar;
64(7):783-785.
PMID: 28349315
No abstract available.
17.
Ozana N, Beiderman Y, Anand A, Javidi B, Polani S, Schwarz A, et al.
J Biomed Opt
. 2016 Jun;
21(6):65001.
PMID: 27251076
We experimentally verify a speckle-based technique for noncontact measurement of glucose concentration in the bloodstream. The final device is intended to be a single wristwatch-style device containing a laser, a...
18.
Mahajan S, Trivedi V, Vora P, Chhaniwal V, Javidi B, Anand A
Opt Lett
. 2015 Aug;
40(16):3743-6.
PMID: 26274649
Interferometric microscopy has grown into a very potent tool for quantitative phase imaging of biological samples. Among the interfermetric methods, microscopy by digital holography is one of the most effective...
19.
Digital holographic microscopy with coupled optical fiber trap for cell measurement and manipulation
Ebrahimi S, Moradi A, Anand A, Javidi B
Opt Lett
. 2014 Jul;
39(10):2916-9.
PMID: 24978236
We present an integrated optical system for three-dimensional (3D) imaging of micrometer-sized samples, while immobilizing and manipulating the samples by means of an optical fiber trap. Optical traps allow us...
20.
Ozana N, Arbel N, Beiderman Y, Mico V, Sanz M, Garcia J, et al.
Biomed Opt Express
. 2014 Jun;
5(6):1926-40.
PMID: 24940550
The ability to extract different bio-medical parameters from one single wristwatch device can be very applicable. The wearable device that is presented in this paper is based on two optical...