Cerine Lal
National University of Ireland, Galway
14 Papers
42 Citations
Cerine Lal is an academic researcher from National University of Ireland, Galway. The author has contributed to research in topics: Optical coherence tomography & Speckle pattern. The author has an hindex of 4, co-authored 14 publications. Previous affiliations of Cerine Lal include Indian Institute of Technology Madras.
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Papers
An Updated Review of Methods and Advancements in Microvascular Blood Flow Imaging.
TL;DR: There has been a consistent growth in research involving imaging of microvasculature over the past few decades as discussed by the authors and many techniques have been demonstrated for the measurement of the microcirculation ranging from the earliest invasive techniques to the present high-speed, high-resolution noninvasive imaging techniques.
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Nanosensitive optical coherence tomography to assess wound healing within the cornea
TL;DR: The capability of nsOCT is demonstrated to detect structural changes deep in the rat cornea following superficial corneal injury, and could potentially improve the diagnostic capability of OCT in medical applications.
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Nanosensitive optical coherence tomography to assess wound healing within the cornea.
TL;DR: In this article, the authors demonstrate the capability of nsOCT to detect structural changes deep in the rat cornea following superficial corneal injury using a single B-scan within very limited depth.
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Quantitative assessment of rat corneal thickness and morphology during stem cell therapy by high-speed optical coherence tomography
TL;DR: The changes in corneal thickness in the anterior segment of the eye during wound healing process in a rat corneAL burn model following stem cell therapy using high speed swept source OCT is assessed.
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Feasibility of correlation mapping optical coherence tomography angiographic technique using a 200 kHz vertical-cavity surface-emitting laser source for in vivo microcirculation imaging applications.
TL;DR: A modified scanning-based correlation mapping OCT using a 200 kHz high-speed swept-source OCT system operating at 1300 nm is presented and its wide field-imaging capability in ocular angiographic studies is demonstrated.
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