Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy

Lei Wang; Antonio R. Montaño; Anas M. Masillati; Jocelyn A. Jones; Connor W. Barth; Jason R. Combs; Sashini Udeshika Kumarapeli; Nourhan A. Shams; Nynke S. van den Berg; Alexander L. Antaris; S. N. Galvis; Ian McDowall; Syed Zaki Husain Rizvi; Adam W.G. Alani; Jonathan M. Sorger; Summer L. Gibbs

doi:10.1002/adma.202304724

Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy

Lei Wang, Antonio R. Montaño, Anas M. Masillati, Jocelyn A. Jones, Connor W. Barth, Jason R. Combs, Sashini Udeshika Kumarapeli, Nourhan A. Shams, Nynke S. van den Berg, Alexander L. Antaris, S. N. Galvis, Ian McDowall, Syed Zaki Husain Rizvi, Adam W.G. Alani, Jonathan M. Sorger, Summer L. Gibbs

Research output: Contribution to journal › Article › peer-review

Abstract

Fluorescence-guided surgery (FGS) is poised to revolutionize surgical medicine through near-infrared (NIR) fluorophores for tissue- and disease-specific contrast. Clinical open and laparoscopic FGS vision systems operate nearly exclusively at NIR wavelengths. However, tissue-specific NIR contrast agents compatible with clinically available imaging systems are lacking, leaving nerve tissue identification during prostatectomy a persistent challenge. Here, it is shown that combining drug-like molecular design concepts and fluorophore chemistry enabled the production of a library of NIR phenoxazine-based fluorophores for intraoperative nerve-specific imaging. The lead candidate readily delineated prostatic nerves in the canine and iliac plexus in the swine using the clinical da Vinci Surgical System that has been popularized for minimally invasive prostatectomy procedures. These results demonstrate the feasibility of molecular engineering of NIR nerve-binding fluorophores for ready integration into the existing surgical workflow, paving the path for clinical translation to reduce morbidity from nerve injury for prostate cancer patients.

Original language	English (US)
Journal	Advanced Materials
DOIs	https://doi.org/10.1002/adma.202304724
State	Accepted/In press - 2023

Keywords

Biomaterials
clinical translation
fluorescence
fluorescence-guided surgery
fluorophore
near-infrared imaging
nerve

ASJC Scopus subject areas

General Materials Science
Mechanics of Materials
Mechanical Engineering

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10.1002/adma.202304724

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Wang, L., Montaño, A. R., Masillati, A. M., Jones, J. A., Barth, C. W., Combs, J. R., Kumarapeli, S. U., Shams, N. A., van den Berg, N. S., Antaris, A. L., Galvis, S. N., McDowall, I., Rizvi, S. Z. H., Alani, A. W. G., Sorger, J. M., & Gibbs, S. L. (Accepted/In press). Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy. Advanced Materials. https://doi.org/10.1002/adma.202304724

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title = "Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy",

abstract = "Fluorescence-guided surgery (FGS) is poised to revolutionize surgical medicine through near-infrared (NIR) fluorophores for tissue- and disease-specific contrast. Clinical open and laparoscopic FGS vision systems operate nearly exclusively at NIR wavelengths. However, tissue-specific NIR contrast agents compatible with clinically available imaging systems are lacking, leaving nerve tissue identification during prostatectomy a persistent challenge. Here, it is shown that combining drug-like molecular design concepts and fluorophore chemistry enabled the production of a library of NIR phenoxazine-based fluorophores for intraoperative nerve-specific imaging. The lead candidate readily delineated prostatic nerves in the canine and iliac plexus in the swine using the clinical da Vinci Surgical System that has been popularized for minimally invasive prostatectomy procedures. These results demonstrate the feasibility of molecular engineering of NIR nerve-binding fluorophores for ready integration into the existing surgical workflow, paving the path for clinical translation to reduce morbidity from nerve injury for prostate cancer patients.",

keywords = "Biomaterials, clinical translation, fluorescence, fluorescence-guided surgery, fluorophore, near-infrared imaging, nerve",

author = "Lei Wang and Monta{\~n}o, {Antonio R.} and Masillati, {Anas M.} and Jones, {Jocelyn A.} and Barth, {Connor W.} and Combs, {Jason R.} and Kumarapeli, {Sashini Udeshika} and Shams, {Nourhan A.} and {van den Berg}, {Nynke S.} and Antaris, {Alexander L.} and Galvis, {S. N.} and Ian McDowall and Rizvi, {Syed Zaki Husain} and Alani, {Adam W.G.} and Sorger, {Jonathan M.} and Gibbs, {Summer L.}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors. Advanced Materials published by Wiley-VCH GmbH.",

year = "2023",

doi = "10.1002/adma.202304724",

language = "English (US)",

journal = "Advanced Materials",

issn = "0935-9648",

publisher = "Wiley-VCH Verlag",

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TY - JOUR

T1 - Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy

AU - Wang, Lei

AU - Montaño, Antonio R.

AU - Masillati, Anas M.

AU - Jones, Jocelyn A.

AU - Barth, Connor W.

AU - Combs, Jason R.

AU - Kumarapeli, Sashini Udeshika

AU - Shams, Nourhan A.

AU - van den Berg, Nynke S.

AU - Antaris, Alexander L.

AU - Galvis, S. N.

AU - McDowall, Ian

AU - Rizvi, Syed Zaki Husain

AU - Alani, Adam W.G.

AU - Sorger, Jonathan M.

AU - Gibbs, Summer L.

PY - 2023

Y1 - 2023

N2 - Fluorescence-guided surgery (FGS) is poised to revolutionize surgical medicine through near-infrared (NIR) fluorophores for tissue- and disease-specific contrast. Clinical open and laparoscopic FGS vision systems operate nearly exclusively at NIR wavelengths. However, tissue-specific NIR contrast agents compatible with clinically available imaging systems are lacking, leaving nerve tissue identification during prostatectomy a persistent challenge. Here, it is shown that combining drug-like molecular design concepts and fluorophore chemistry enabled the production of a library of NIR phenoxazine-based fluorophores for intraoperative nerve-specific imaging. The lead candidate readily delineated prostatic nerves in the canine and iliac plexus in the swine using the clinical da Vinci Surgical System that has been popularized for minimally invasive prostatectomy procedures. These results demonstrate the feasibility of molecular engineering of NIR nerve-binding fluorophores for ready integration into the existing surgical workflow, paving the path for clinical translation to reduce morbidity from nerve injury for prostate cancer patients.

AB - Fluorescence-guided surgery (FGS) is poised to revolutionize surgical medicine through near-infrared (NIR) fluorophores for tissue- and disease-specific contrast. Clinical open and laparoscopic FGS vision systems operate nearly exclusively at NIR wavelengths. However, tissue-specific NIR contrast agents compatible with clinically available imaging systems are lacking, leaving nerve tissue identification during prostatectomy a persistent challenge. Here, it is shown that combining drug-like molecular design concepts and fluorophore chemistry enabled the production of a library of NIR phenoxazine-based fluorophores for intraoperative nerve-specific imaging. The lead candidate readily delineated prostatic nerves in the canine and iliac plexus in the swine using the clinical da Vinci Surgical System that has been popularized for minimally invasive prostatectomy procedures. These results demonstrate the feasibility of molecular engineering of NIR nerve-binding fluorophores for ready integration into the existing surgical workflow, paving the path for clinical translation to reduce morbidity from nerve injury for prostate cancer patients.

KW - Biomaterials

KW - clinical translation

KW - fluorescence

KW - fluorescence-guided surgery

KW - fluorophore

KW - near-infrared imaging

KW - nerve

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DO - 10.1002/adma.202304724

M3 - Article

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SN - 0935-9648

JO - Advanced Materials

JF - Advanced Materials

ER -

Nerve Visualization using Phenoxazine-Based Near-Infrared Fluorophores to Guide Prostatectomy

Abstract

Keywords

ASJC Scopus subject areas

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