Advanced optoacoustic methods for multiscale imaging of in vivo dynamics

Deán‐Ben, Xosé Luís; Gottschalk, Sven; Larney, Benedict Mc; Shoham, Sharon; Razansky, Daniel

doi:10.1039/c6cs00765a

Cited by 264 publications

(199 citation statements)

References 360 publications

(468 reference statements)

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“…Frequencies of light or ultrasound can be chosen to make certain molecules glow or darken. Such approaches can now reach resolutions of about 150 micrometres at depths of about 2-3 centimetres 10 . With focused research, they could become good enough to track microbots within a few years.…”

Section: Seeing Furthermentioning

confidence: 99%

Medical microbots need better imaging and control

Medina‐Sánchez

Schmidt

2017

Nature

237

199

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Section: Seeing Furthermentioning

confidence: 99%

Medical microbots need better imaging and control

Medina‐Sánchez

Schmidt

2017

Nature

237

199

View full text Add to dashboard Cite

“…In conclusion, optimum light delivery can significantly enhance the effective FOV, quantitativeness and overall performance of volumetric OA tomography. Considering the unique spatiotemporal resolution range covered with the imaging system employed in the current work , the suggested approach can facilitate more accurate interpretation of OA images in numerous ex vivo, in vivo and in vitro studies, especially when it comes to functional imaging studies where more homogenous light delivery could result in more accurate spectral unmixing and quantification of specific chromophores .…”

Section: Discussionmentioning

confidence: 99%

Uniform light delivery in volumetric optoacoustic tomography

Larney

Rebling

Chen

et al. 2019

Journal of Biophotonics

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Accurate image reconstruction in volumetric optoacoustic tomography implies the efficient generation and collection of ultrasound signals around the imaged object. Non‐uniform delivery of the excitation light is a common problem in optoacoustic imaging often leading to a diminished field of view, limited dynamic range and penetration, as well as impaired quantification abilities. Presented here is an optimized illumination concept for volumetric tomography that utilizes additive manufacturing via 3D printing in combination with custom‐made optical fiber illumination. The custom‐designed sample chamber ensures convenient access to the imaged object along with accurate positioning of the sample and a matrix array ultrasound transducer used for collection of the volumetric image data. Ray tracing is employed to optimize the positioning of the individual fibers in the chamber. Homogeneity of the generated light excitation field was confirmed in tissue‐mimicking agar spheres. Applicability of the system to image entire mouse organs ex vivo has been showcased. The new approach showed a clear advantage over conventional, single‐sided illumination strategies by eliminating the need to correct for illumination variances and resulting in enhancement of the effective field of view, greater penetration depth and significant improvements in the overall image quality.

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“…Is there a two‐pronged approach to solve this problem? Photoacoustic tomography (PAT), a rapidly growing biomedical imaging technique, may be the answer . PAT reconstructs images from the captured ultrasound signals generated from tissue thermally expanded by laser pulses .…”

Section: Introductionmentioning

confidence: 99%

Photoacoustic assessment of hemodynamic changes in foot vessels

Yang

Zhang

et al. 2019

Journal of Biophotonics

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Monitoring the blood supply in the lower extremities is critical for individuals who are vulnerable to vascular dysfunction. Current clinical approaches are ineffective in observing hemodynamic changes in peripheral vessels. In this paper, we investigate the potential of photoacoustic tomography (PAT) as an alternative way to in vivo monitor hemodynamic changes in foot vessels. High spatial and temporal resolution maps of hemoglobin in major arteries and veins are shown. Results from twelve human subjects are presented here to visualize vascular perfusion of healthy volunteers in two age groups (young vs aged). Significant differences between the two groups are observed and verify the declining in vascular function with aging, highlighting the potential of PAT as a new tool to evaluate vascular function in the lower extremities.

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Advanced optoacoustic methods for multiscale imaging of in vivo dynamics

Cited by 264 publications

References 360 publications

Medical microbots need better imaging and control

Medical microbots need better imaging and control

Uniform light delivery in volumetric optoacoustic tomography

Photoacoustic assessment of hemodynamic changes in foot vessels

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