Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves

Damage to peripheral nerves caused during a surgical intervention often results in function loss. Fluorescence imaging has the potential to improve intraoperative identification and preservation of these structures. However, only very few nerve targeting agents are available. This study describes th...

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Autores principales: KleinJan, Gijs Hendrik, Buckle, Tessa, van Willigen, Danny Michel, van Oosterom, Matthias Nathanaël, Spa, Silvia Johara, Kloosterboer, Harmen Egbert, van Leeuwen, Fijs Willem Bernhard
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2014
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6271788/
https://www.ncbi.nlm.nih.gov/pubmed/25006792
http://dx.doi.org/10.3390/molecules19079876
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author KleinJan, Gijs Hendrik
Buckle, Tessa
van Willigen, Danny Michel
van Oosterom, Matthias Nathanaël
Spa, Silvia Johara
Kloosterboer, Harmen Egbert
van Leeuwen, Fijs Willem Bernhard
author_facet KleinJan, Gijs Hendrik
Buckle, Tessa
van Willigen, Danny Michel
van Oosterom, Matthias Nathanaël
Spa, Silvia Johara
Kloosterboer, Harmen Egbert
van Leeuwen, Fijs Willem Bernhard
author_sort KleinJan, Gijs Hendrik
collection PubMed
description Damage to peripheral nerves caused during a surgical intervention often results in function loss. Fluorescence imaging has the potential to improve intraoperative identification and preservation of these structures. However, only very few nerve targeting agents are available. This study describes the in vivo nerve staining capabilities of locally administered fluorescent lectin-analogues. To this end WGA, PNA, PHA-L and LEL were functionalized with Cy5 (λ(ex max) 640 nm; λ(em max) 680 nm). Transfer of these imaging agents along the sciatic nerve was evaluated in Thy1-YFP mice (n = 12) after intramuscular injection. Migration from the injection site was assessed in vivo using a laboratory fluorescence scanner and ex vivo via fluorescence confocal microscopy. All four lectins showed retrograde movement and staining of the epineurium with a signal-to-muscle ratio of around two. On average, the longest transfer distance was obtained with WGA-Cy5 (0.95 cm). Since WGA also gave minimal uptake in the lymphatic system, this lectin type revealed the highest potential as a migration imaging agent to visualize nerves.
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spelling pubmed-62717882018-12-21 Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves KleinJan, Gijs Hendrik Buckle, Tessa van Willigen, Danny Michel van Oosterom, Matthias Nathanaël Spa, Silvia Johara Kloosterboer, Harmen Egbert van Leeuwen, Fijs Willem Bernhard Molecules Article Damage to peripheral nerves caused during a surgical intervention often results in function loss. Fluorescence imaging has the potential to improve intraoperative identification and preservation of these structures. However, only very few nerve targeting agents are available. This study describes the in vivo nerve staining capabilities of locally administered fluorescent lectin-analogues. To this end WGA, PNA, PHA-L and LEL were functionalized with Cy5 (λ(ex max) 640 nm; λ(em max) 680 nm). Transfer of these imaging agents along the sciatic nerve was evaluated in Thy1-YFP mice (n = 12) after intramuscular injection. Migration from the injection site was assessed in vivo using a laboratory fluorescence scanner and ex vivo via fluorescence confocal microscopy. All four lectins showed retrograde movement and staining of the epineurium with a signal-to-muscle ratio of around two. On average, the longest transfer distance was obtained with WGA-Cy5 (0.95 cm). Since WGA also gave minimal uptake in the lymphatic system, this lectin type revealed the highest potential as a migration imaging agent to visualize nerves. MDPI 2014-07-08 /pmc/articles/PMC6271788/ /pubmed/25006792 http://dx.doi.org/10.3390/molecules19079876 Text en © 2014 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
KleinJan, Gijs Hendrik
Buckle, Tessa
van Willigen, Danny Michel
van Oosterom, Matthias Nathanaël
Spa, Silvia Johara
Kloosterboer, Harmen Egbert
van Leeuwen, Fijs Willem Bernhard
Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title_full Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title_fullStr Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title_full_unstemmed Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title_short Fluorescent Lectins for Local in Vivo Visualization of Peripheral Nerves
title_sort fluorescent lectins for local in vivo visualization of peripheral nerves
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6271788/
https://www.ncbi.nlm.nih.gov/pubmed/25006792
http://dx.doi.org/10.3390/molecules19079876
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