Quantitative gadolinium chelate-enhanced magnetic resonance imaging of normal endothelial barrier disruption from nanoparticle biophilicity interactions

Hemant Sarin; Steve H. Fung; Ariel S. Kanevsky; Haitao Wu; Colin M. Wilson; Howard Vo; Sungyoung Auh; Daniel Glen; Richard Reynolds

doi:10.1016/j.matpr.2021.01.537

Quantitative gadolinium chelate-enhanced magnetic resonance imaging of normal endothelial barrier disruption from nanoparticle biophilicity interactions

Hemant Sarin, Steve H. Fung, Ariel S. Kanevsky, Haitao Wu, Colin M. Wilson, Howard Vo, Sungyoung Auh, Daniel Glen, Richard Reynolds

Research output: Contribution to journal › Conference article › peer-review

Abstract

The biocompatibility of macromolecular therapeutics for enhanced passive permeation and retention remains a concern due to release kinetics or surface area properties. Dendritic conjugates functionalized with paramagnetic metal chelate with diameters less than (<) 12 nm and within the 8 to 10 nm size range can be utilized for high-resolution Gadolinium-based r_1-¹-adjusted dynamic magnetic resonance concentration mapping of solid tumor barrier hyper-permeability and study of contrast agent pharmacodynamics. Cationic dye- or doxorubicin-linked dendrimer nanoparticle surface-to-membrane channel or receptor biophilicity interaction results in abnormal contrast enhancement of endothelial barriers identifiable by transvenous dual flip angle T₁-weighted blood-brain barrier imaging with higher-generation polyamidoamine interior core gadopentetic acid-chelated dendrimers with 1 + IS 1 + functionalized exteriors. The neutralization of nanoparticle exterior surface charge would afford biocompatibility in clinical transability across abnormal barrier endothelium pores for effective transvascular delivery.

Original language	English (US)
Pages (from-to)	3795-3799
Number of pages	5
Journal	Materials Today: Proceedings
Volume	45
DOIs	https://doi.org/10.1016/j.matpr.2021.01.537
State	Published - 2020
Event	2nd International Symposium on Functional Nanomaterials in Industrial Applications: Academy - Industry Meet - Preston, United Kingdom Duration: Apr 14 2020 → Apr 16 2020

Keywords

Cationotoxicity
Chemoxenobiotic
Endocytic effective pressure
General kinetic model
Molecular diameter
Theranostic agent
Vasomodulation

ASJC Scopus subject areas

Materials Science(all)

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10.1016/j.matpr.2021.01.537

Cite this

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title = "Quantitative gadolinium chelate-enhanced magnetic resonance imaging of normal endothelial barrier disruption from nanoparticle biophilicity interactions",

abstract = "The biocompatibility of macromolecular therapeutics for enhanced passive permeation and retention remains a concern due to release kinetics or surface area properties. Dendritic conjugates functionalized with paramagnetic metal chelate with diameters less than (<) 12 nm and within the 8 to 10 nm size range can be utilized for high-resolution Gadolinium-based r1-1-adjusted dynamic magnetic resonance concentration mapping of solid tumor barrier hyper-permeability and study of contrast agent pharmacodynamics. Cationic dye- or doxorubicin-linked dendrimer nanoparticle surface-to-membrane channel or receptor biophilicity interaction results in abnormal contrast enhancement of endothelial barriers identifiable by transvenous dual flip angle T1-weighted blood-brain barrier imaging with higher-generation polyamidoamine interior core gadopentetic acid-chelated dendrimers with 1 + IS 1 + functionalized exteriors. The neutralization of nanoparticle exterior surface charge would afford biocompatibility in clinical transability across abnormal barrier endothelium pores for effective transvascular delivery.",

keywords = "Cationotoxicity, Chemoxenobiotic, Endocytic effective pressure, General kinetic model, Molecular diameter, Theranostic agent, Vasomodulation",

author = "Hemant Sarin and Fung, {Steve H.} and Kanevsky, {Ariel S.} and Haitao Wu and Wilson, {Colin M.} and Howard Vo and Sungyoung Auh and Daniel Glen and Richard Reynolds",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier Ltd. All rights reserved. Selection and peer-review under responsibility of the scientific committee of the Second International Symposium ''Functional Nanomaterials in Industrial Applications: Academy - Industry Meet''.; 2nd International Symposium on Functional Nanomaterials in Industrial Applications: Academy - Industry Meet ; Conference date: 14-04-2020 Through 16-04-2020",

year = "2020",

doi = "10.1016/j.matpr.2021.01.537",

language = "English (US)",

volume = "45",

pages = "3795--3799",

journal = "Materials Today: Proceedings",

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AU - Sarin, Hemant

AU - Fung, Steve H.

AU - Kanevsky, Ariel S.

AU - Wu, Haitao

AU - Wilson, Colin M.

AU - Vo, Howard

AU - Auh, Sungyoung

AU - Glen, Daniel

AU - Reynolds, Richard

N1 - Publisher Copyright: © 2020 Elsevier Ltd. All rights reserved. Selection and peer-review under responsibility of the scientific committee of the Second International Symposium ''Functional Nanomaterials in Industrial Applications: Academy - Industry Meet''.

PY - 2020

Y1 - 2020

N2 - The biocompatibility of macromolecular therapeutics for enhanced passive permeation and retention remains a concern due to release kinetics or surface area properties. Dendritic conjugates functionalized with paramagnetic metal chelate with diameters less than (<) 12 nm and within the 8 to 10 nm size range can be utilized for high-resolution Gadolinium-based r1-1-adjusted dynamic magnetic resonance concentration mapping of solid tumor barrier hyper-permeability and study of contrast agent pharmacodynamics. Cationic dye- or doxorubicin-linked dendrimer nanoparticle surface-to-membrane channel or receptor biophilicity interaction results in abnormal contrast enhancement of endothelial barriers identifiable by transvenous dual flip angle T1-weighted blood-brain barrier imaging with higher-generation polyamidoamine interior core gadopentetic acid-chelated dendrimers with 1 + IS 1 + functionalized exteriors. The neutralization of nanoparticle exterior surface charge would afford biocompatibility in clinical transability across abnormal barrier endothelium pores for effective transvascular delivery.

AB - The biocompatibility of macromolecular therapeutics for enhanced passive permeation and retention remains a concern due to release kinetics or surface area properties. Dendritic conjugates functionalized with paramagnetic metal chelate with diameters less than (<) 12 nm and within the 8 to 10 nm size range can be utilized for high-resolution Gadolinium-based r1-1-adjusted dynamic magnetic resonance concentration mapping of solid tumor barrier hyper-permeability and study of contrast agent pharmacodynamics. Cationic dye- or doxorubicin-linked dendrimer nanoparticle surface-to-membrane channel or receptor biophilicity interaction results in abnormal contrast enhancement of endothelial barriers identifiable by transvenous dual flip angle T1-weighted blood-brain barrier imaging with higher-generation polyamidoamine interior core gadopentetic acid-chelated dendrimers with 1 + IS 1 + functionalized exteriors. The neutralization of nanoparticle exterior surface charge would afford biocompatibility in clinical transability across abnormal barrier endothelium pores for effective transvascular delivery.

KW - Cationotoxicity

KW - Chemoxenobiotic

KW - Endocytic effective pressure

KW - General kinetic model

KW - Molecular diameter

KW - Theranostic agent

KW - Vasomodulation

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ER -

Quantitative gadolinium chelate-enhanced magnetic resonance imaging of normal endothelial barrier disruption from nanoparticle biophilicity interactions

Abstract

Keywords

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