Your search keyword '"Leonor, Joseph P."' showing total 2 results

1. First experience imaging short-wave infrared fluorescence in a large animal: indocyanine green angiography of a pig brain.

Author

Byrd BK, Marois M, Tichauer KM, Wirth DJ, Hong J, Leonor JP, Elliott JT, Paulsen KD, and Davis SC

Subjects

Animals, Contrast Media pharmacology, Fluorescent Dyes, Microscopy, Fluorescence methods, Optical Imaging methods, Swine, Swine, Miniature, Angiography methods, Brain diagnostic imaging, Indocyanine Green, Spectrophotometry, Infrared methods

Abstract

The potential to image subsurface fluorescent contrast agents at high spatial resolution has facilitated growing interest in short-wave infrared (SWIR) imaging for biomedical applications. The early but growing literature showing improvements in resolution in small animal models suggests this is indeed the case, yet to date, images from larger animal models that more closely recapitulate humans have not been reported. We report the first imaging of SWIR fluorescence in a large animal model. Specifically, we imaged the vascular kinetics of an indocyanine green (ICG) bolus injection during open craniotomy of a mini-pig using a custom SWIR imaging instrument and a clinical-grade surgical microscope that images ICG in the near-infrared-I (NIR-I) window. Fluorescence images in the SWIR were observed to have higher spatial and contrast resolutions throughout the dynamic sequence, particularly in the smallest vessels. Additionally, vessels beneath a surface pool of blood were readily visualized in the SWIR images yet were obscured in the NIR-I channel. These first-in-large-animal observations represent an important translational step and suggest that SWIR imaging may provide higher spatial and contrast resolution images that are robust to the influence of blood.

Published

2019

2. Characterizing short-wave infrared fluorescence of conventional near-infrared fluorophores.

Author

Byrd BK, Folaron MR, Leonor JP, Strawbridge RR, Cao X, Bruza P, and Davis SC

Subjects

Equipment Design, Optical Imaging instrumentation, Phantoms, Imaging, Spectroscopy, Near-Infrared instrumentation, Fluorescent Dyes chemistry, Optical Imaging methods, Spectroscopy, Near-Infrared methods

Abstract

The observed behavior of short-wave infrared (SWIR) light in tissue, characterized by relatively low scatter and subdiffuse photon transport, has generated considerable interest for the potential of SWIR imaging to produce high-resolution, subsurface images of fluorescence activity in vivo. These properties have important implications for fluorescence-guided surgery and preclinical biomedical research. Until recently, translational efforts have been impeded by the conventional understanding that fluorescence molecular imaging in the SWIR regime requires custom molecular probes that do not yet have proven safety profiles in humans. However, recent studies have shown that two readily available near-infrared (NIR-I) fluorophores produce measurable SWIR fluorescence, implying that other conventional fluorophores produce detectable fluorescence in the SWIR window. Using SWIR spectroscopy and wide-field SWIR imaging with tissue-simulating phantoms, we characterize and compare the SWIR emission properties of eight commercially available red/NIR-I fluorophores commonly used in preclinical and clinical research, in addition to a SWIR-specific fluorophore. All fluorophores produce measurable fluorescence emission in the SWIR, including shorter wavelength dyes such as Alexa Fluor 633 and methylene blue. This study is the first to report SWIR fluorescence from six of the eight conventional fluorophores and establishes an important comparative reference for developing and evaluating SWIR imaging strategies for biomedical applications.

Published

2019