Dr. Arunima Sharma Profile

Dr. Arunima Sharma

SPIE Involvement:

Author

Area of Expertise:

Photoacoustic imaging , Photoacoustic microscopy , Ultrasound imaging , Breast imaging , Radionics

Publications (9)

SPIE Journal Paper | 5 August 2024 Open Access

Predictive model for laser-induced tissue necrosis with immunohistochemistry validation

J. Junior Arroyo, Arunima Sharma, Jiaxin Zhang, Muyinatu A. Lediju Bell

BIOS, Vol. 1, Issue 02, 025003, (August 2024) https://doi.org/10.1117/12.10.1117/1.BIOS.1.2.025003

KEYWORDS: Tissues, Liver, Laser irradiation, Biological samples, Laser energy, Image segmentation, Optical simulations, Monte Carlo methods, Laser applications, Biomedical optics

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SPIE Journal Paper | 4 September 2023 Open Access

Optical absorption spectra and corresponding in vivo photoacoustic visualization of exposed peripheral nerves

Michelle Graham, Arunima Sharma, William Padovano, Visakha Suresh, Arlene Chiu, Susanna Thon, Sami Tuffaha, Muyinatu Bell

JBO, Vol. 28, Issue 09, 097001, (September 2023) https://doi.org/10.1117/12.10.1117/1.JBO.28.9.097001

KEYWORDS: Nerve, Photoacoustic spectroscopy, Absorbance, Nervous system, In vivo imaging, Photoacoustic imaging, Absorption spectrum, Windows, Tissue optics, Light absorption

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SignificanceMultispectral photoacoustic imaging has the potential to identify lipid-rich, myelinated nerve tissue in an interventional or surgical setting (e.g., to guide intraoperative decisions when exposing a nerve during reconstructive surgery by limiting operations to nerves needing repair, with no impact to healthy or regenerating nerves). Lipids have two optical absorption peaks within the NIR-II and NIR-III windows (i.e., 1000 to 1350 nm and 1550 to 1870 nm wavelength ranges, respectively) which can be exploited to obtain photoacoustic images. However, nerve visualization within the NIR-III window is more desirable due to higher lipid absorption peaks and a corresponding valley in the optical absorption of water.AimWe present the first known optical absorption characterizations, photoacoustic spectral demonstrations, and histological validations to support in vivo photoacoustic nerve imaging in the NIR-III window.ApproachFour in vivo swine peripheral nerves were excised, and the optical absorption spectra of these fresh ex vivo nerves were characterized at wavelengths spanning 800 to 1880 nm, to provide the first known nerve optical absorbance spectra and to enable photoacoustic amplitude spectra characterization with the most optimal wavelength range. Prior to excision, the latter two of the four nerves were surrounded by aqueous, lipid-free, agarose blocks (i.e., 3% w/v agarose) to enhance acoustic coupling during in vivo multispectral photoacoustic imaging using the optimal NIR-III wavelengths (i.e., 1630 to 1850 nm) identified in the ex vivo studies.ResultsThere was a verified characteristic lipid absorption peak at 1725 nm for each ex vivo nerve. Results additionally suggest that the 1630 to 1850 nm wavelength range can successfully visualize and differentiate lipid-rich nerves from surrounding water-containing and lipid-deficient tissues and materials.ConclusionsPhotoacoustic imaging using the optimal wavelengths identified and demonstrated for nerves holds promise for detection of myelination in exposed and isolated nerve tissue during a nerve repair surgery, with possible future implications for other surgeries and other optics-based technologies.

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Proceedings Article | 7 April 2023 Presentation + Paper

Theoretical basis and experimental validation of harmonic coherence-based ultrasound imaging for breast mass diagnosis

Khadijat Kokumo, Arunima Sharma, Kelly Myers, Emily Ambinder, Eniola Oluyemi, Muyinatu Lediju Bell

Proceedings Volume 12463, 124630J (2023) https://doi.org/10.1117/12.2655716

KEYWORDS: Breast imaging, Solids, Ultrasonography, Spatial coherence, In vivo imaging, Breast, Coherence imaging, Image resolution, Data acquisition, Ultrasound transducers

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Coherence-based ultrasound imaging has demonstrated potential to improve breast mass diagnosis by distinguishing solid from fluid-filled masses. Harmonic imaging, which is known to reduce acoustic clutter, has the potential to offer additional improvements. However, the lack of a theoretical basis to describe these improvements precludes clinical recommendations based on physics and engineering principles. This work is the first to develop a theoretical model of coherence-based ultrasound imaging to describe both solid vs. fluid mass distinction and the effects of harmonic short-lag spatial coherence (SLSC) imaging. The scattering function and the transmit ultrasound beam of the van Cittert-Zernike theorem applied to ultrasound imaging were redefined to generate the theoretical model for solid vs. fluid mass distinction and for harmonic imaging, respectively. The derived theory was used to compare fundamental and harmonic SLSC images for hypoechoic solid, hypoechoic fluid, hyperechoic, and point targets. Theoretical simulations showed improved resolution, mitigated dark-region artifacts around hyperechoic targets, and increased spatial coherence of fluid masses in harmonic SLSC images when compared to fundamental SLSC images. Experimental data from tissue-mimicking phantoms and in vivo breast ultrasound images agreed with theoretical results. In particular, when compared to fundamental SLSC imaging, harmonic SLSC imaging improved resolution by 0.19 ± 0.25 mm, mitigated dark region artifacts by 0.55 ± 0.54 mm, and increased the spatial coherence of fluid-filled masses, resulting in a 6.50 ± 4.28 dB decrease in contrast. Results will enable future clinical recommendations supporting the use of fundamental or harmonic SLSC imaging for analyses of fluid or solid masses, respectively. These contributions establish a theoretical foundation to combine fundamental and harmonic coherence-based imaging with harmonic B-mode imaging to improve the accuracy of breast mass diagnoses.

Proceedings Article | 5 March 2021 Poster + Presentation + Paper

Improving out-of-focus resolution in acoustic resolution photoacoustic microscopy using deep learning

Arunima Sharma, Manojit Pramanik

Proceedings Volume 11642, 1164247 (2021) https://doi.org/10.1117/12.2577501

KEYWORDS: Photoacoustic microscopy, Acoustics, Image resolution, Image enhancement, Ultrasonography, Transducers, Neural networks, MATLAB, Image quality, Image processing

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Proceedings Article | 17 February 2020 Paper

Monte Carlo simulations and photoacoustic experiments to compare imaging depth at 532 nm, 800 nm, and 1064 nm

Arunima Sharma, Srishti Srishti, Vijitha Periyasamy, Manojit Pramanik

Proceedings Volume 11240, 1124043 (2020) https://doi.org/10.1117/12.2544568

KEYWORDS: Tissues, Monte Carlo methods, Breast, Absorption, Scattering, Absorbance, Blood, Blood vessels, Light scattering

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Proceedings Article | 17 February 2020 Paper

Photoacoustic imaging of live chicken embryo at multiple developmental stages

Arunima Sharma, Noreen Ishak, Teoh Swee-Hin, Christine Cheung, Manojit Pramanik

Proceedings Volume 11240, 1124030 (2020) https://doi.org/10.1117/12.2544534

KEYWORDS: Photoacoustic imaging, Photoacoustic tomography, Calcium, Image resolution, Signal attenuation, Medical research, Visualization, Acoustics

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SPIE Journal Paper | 10 August 2019 Open Access

Photoacoustic imaging depth comparison at 532-, 800-, and 1064-nm wavelengths: Monte Carlo simulation and experimental validation

Arunima Sharma , Srishti Srishti, Vijitha Periyasamy, Manojit Pramanik

JBO, Vol. 24, Issue 12, 121904, (August 2019) https://doi.org/10.1117/12.10.1117/1.JBO.24.12.121904

KEYWORDS: Tissues, Breast, Blood, Monte Carlo methods, Absorbance, Imaging systems, Signal to noise ratio, Photoacoustic imaging, Acquisition tracking and pointing, Optical spheres

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Proceedings Article | 19 February 2018 Paper

Comparison of continuous and stop-and-go scanning techniques in photoacoustic tomography

Arunima Sharma , Sandeep Kumar Kalva, Manojit Pramanik

Proceedings Volume 10494, 104943L (2018) https://doi.org/10.1117/12.2288095

KEYWORDS: Acquisition tracking and pointing, Transducers, Image quality, Nd:YAG lasers, Photoacoustic tomography, Ultrasonography, Imaging systems, Signal to noise ratio, Pulsed laser operation

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Proceedings Article | 19 February 2018 Paper

High resolution and deep tissue imaging using a near infrared acoustic resolution photoacoustic microscopy

Mohesh Moothanchery, Arunima Sharma , Vijitha Periyasamy, Manojit Pramanik

Proceedings Volume 10494, 104945R (2018) https://doi.org/10.1117/12.2287838

KEYWORDS: Imaging systems, Acoustics, Photoacoustic microscopy

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Showing 5 of 9 publications

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