Vascular immune-inflammatory responses play a crucial role in the progression and outcome of atherosclerosis. The ability to assess localized inflammation through detection of specific vascular inflammatory biomarkers would significantly improve cardiovascular risk assessment and management; however, no multi-parameter molecular imaging technologies have been established to date. Here, we report the targeted in vivo imaging of multiple vascular biomarkers using antibody-functionalized nanoparticles and surface-enhanced Raman scattering (SERS). Methods: A series of antibody-functionalized gold nanoprobes (BFNP) were designed containing unique Raman signals in order to detect intercellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1) and P-selectin using SERS. Results: SERS and BFNP were utilized to detect, discriminate and quantify ICAM-1, VCAM-1 and P-selectin in vitro on human endothelial cells and ex vivo in human coronary arteries. Ultimately, non-invasive multiplex imaging of adhesion molecules in a humanized mouse model was demonstrated in vivo following intravenous injection of the nanoprobes. Conclusion: This study demonstrates that multiplexed SERS-based molecular imaging can indicate the status of vascular inflammation in vivo and gives promise for SERS as a clinical imaging technique for cardiovascular disease in the future.

In vivo multiplex molecular imaging of vascular inflammation using surface-enhanced Raman spectroscopy / Noonan, Jonathan; Asiala, Steven M.; Grassia, Gianluca; Macritchie, Neil; Gracie, Kirsten; Carson, Jake; Moores, Matthew; Girolami, Mark; Bradshaw, Angela C.; Guzik, Tomasz J.; Meehan, Gavin R.; Scales, Hannah E.; Brewer, James M.; Mcinnes, Iain B.; Sattar, Naveed; Faulds, Karen; Garside, Paul; Graham, Duncan; Maffia, Pasquale. - In: THERANOSTICS. - ISSN 1838-7640. - 8:22(2018), pp. 6195-6209. [10.7150/thno.28665]

In vivo multiplex molecular imaging of vascular inflammation using surface-enhanced Raman spectroscopy

Grassia, Gianluca
Writing – Original Draft Preparation
;
Garside, Paul
Funding Acquisition
;
Maffia, Pasquale
Ultimo
Project Administration
2018

Abstract

Vascular immune-inflammatory responses play a crucial role in the progression and outcome of atherosclerosis. The ability to assess localized inflammation through detection of specific vascular inflammatory biomarkers would significantly improve cardiovascular risk assessment and management; however, no multi-parameter molecular imaging technologies have been established to date. Here, we report the targeted in vivo imaging of multiple vascular biomarkers using antibody-functionalized nanoparticles and surface-enhanced Raman scattering (SERS). Methods: A series of antibody-functionalized gold nanoprobes (BFNP) were designed containing unique Raman signals in order to detect intercellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1) and P-selectin using SERS. Results: SERS and BFNP were utilized to detect, discriminate and quantify ICAM-1, VCAM-1 and P-selectin in vitro on human endothelial cells and ex vivo in human coronary arteries. Ultimately, non-invasive multiplex imaging of adhesion molecules in a humanized mouse model was demonstrated in vivo following intravenous injection of the nanoprobes. Conclusion: This study demonstrates that multiplexed SERS-based molecular imaging can indicate the status of vascular inflammation in vivo and gives promise for SERS as a clinical imaging technique for cardiovascular disease in the future.
2018
In vivo multiplex molecular imaging of vascular inflammation using surface-enhanced Raman spectroscopy / Noonan, Jonathan; Asiala, Steven M.; Grassia, Gianluca; Macritchie, Neil; Gracie, Kirsten; Carson, Jake; Moores, Matthew; Girolami, Mark; Bradshaw, Angela C.; Guzik, Tomasz J.; Meehan, Gavin R.; Scales, Hannah E.; Brewer, James M.; Mcinnes, Iain B.; Sattar, Naveed; Faulds, Karen; Garside, Paul; Graham, Duncan; Maffia, Pasquale. - In: THERANOSTICS. - ISSN 1838-7640. - 8:22(2018), pp. 6195-6209. [10.7150/thno.28665]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/726555
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