M
Mohesh Moothanchery
Researcher at Agency for Science, Technology and Research
Publications - 46
Citations - 946
Mohesh Moothanchery is an academic researcher from Agency for Science, Technology and Research. The author has contributed to research in topics: Shrinkage & Electronic speckle pattern interferometry. The author has an hindex of 13, co-authored 38 publications receiving 518 citations. Previous affiliations of Mohesh Moothanchery include Dublin Institute of Technology & Nanyang Technological University.
Papers
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Journal ArticleDOI
A Review of Clinical Photoacoustic Imaging: Current and Future Trends
Amalina Binte Ebrahim Attia,Ghayathri Balasundaram,Mohesh Moothanchery,U. S. Dinish,Renzhe Bi,Vasilis Ntziachristos,Malini Olivo +6 more
TL;DR: This review provides an overview of the rapidly expanding clinical applications of photoacoustic imaging including breast imaging, dermatologic imaging, vascular imaging, carotid artery imaging, musculoskeletal imaging, gastrointestinal imaging and adipose tissue imaging and the future directives utilizing different configurations of photoACoustic imaging.
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Performance Characterization of a Switchable Acoustic Resolution and Optical Resolution Photoacoustic Microscopy System.
TL;DR: A switchable acoustic resolution and optical resolution photoacoustic microscopy (AR-OR-PAM) system in a single imaging system capable of both high resolution and low resolution on the same sample is reported.
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In vivo studies of transdermal nanoparticle delivery with microneedles using photoacoustic microscopy.
TL;DR: The promising results reveal that photoacoustic microscopy can be used as a potential imaging modality for the in vivo characterization of microneedles based drug delivery.
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Photoacoustic microscopy for evaluating combretastatin A4 phosphate induced vascular disruption in orthotopic glioma.
Renzhe Bi,Ghayathri Balasundaram,Seungwan Jeon,Hui Chien Tay,Yang Pu,Xiuting Li,Mohesh Moothanchery,Chulhong Kim,Malini Olivo +8 more
TL;DR: The use of an optical resolution photoacoustic microscopy system to evaluate the vascular disruptive effect of combretastatin A4 Phosphate on a murine orthotopic glioma with intact skull is described here, marking the beginning of potential prospects of this technology as an imaging tool for preclinical and clinical study of pathologies characterized by changes in the vasculature.
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Study of the shrinkage caused by holographic grating formation in acrylamide based photopolymer film
TL;DR: From the experimental results it can be seen that the shrinkage of the material is lower for recording with higher intensities and at lower spatial frequencies.