Drug-Eluting Beads Loaded with Antiangiogenic Agents for Chemoembolization: In Vitro Sunitinib Loading and Release and In Vivo Pharmacokinetics in an Animal Model

Fuchs, Katrin; Bize, Pierre; Dormond, Olivier; Denys, Alban; Doelker, Éric; Borchard, Gerrit; Jordan, Olivier

doi:10.1016/j.jvir.2013.11.039

Cited by 33 publications

(47 citation statements)

References 32 publications

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“…In the Boyd model, B is the exchange rate constant, from which the diffusion coefficient D i of two exchanging ions inside the 140 microsphere (radius r = 156 µm in sunitinib-loaded state (Fuchs et al, 2014)) was calculated.…”

Section: Release Kinetic Modelmentioning

confidence: 99%

“…To evaluate which set-up represented in vivo conditions best, the obtained release kinetics from 145 the three set-ups were related to in vivo concentrations obtained from previously conducted studies (Fuchs et al, 2014). Briefly, seven healthy New Zealand white rabbits were embolized with 100-300 µm microspheres loaded with 6 mg sunitinib.…”

Section: In Vitro-in Vivo Correlationmentioning

confidence: 99%

“…First, plasma sunitinib concentrations in rabbits embolized with sunitinib-eluting spheres (Figure 4 A) (Fuchs et al, 2014) were used. The area under the curve (AUC) of sunitinib in vivo was only related to the in vitro-released cumulative drug amounts in the dialysis insert 320 set-up in a Level A (point-by-point) IVIVC (FDA, 1997) until 24 h (Figure 4 B).…”

Section: In Vitro-in Vivo Correlation (Ivivc)mentioning

confidence: 99%

“…We have earlier shown DC Bead microspheres (Biocompatibles Ltd.), a widely used commercial type of embolic microspheres, to be an adequate carrier for a new drug, the anti-angiogenic agent sunitinib (Fuchs et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

“…The protonation of the tertiary amine of the anti-angiogenic drug, sunitinib and consequent incubation with the concentrated spheres 80 results in high capacity of sunitinib loading into the spheres by ionic interaction (Denys et al, 07.06.2012;Fuchs et al, 2014).…”

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confidence: 99%

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Sunitinib-eluting beads for chemoembolization: Methods for in vitro evaluation of drug release

Fuchs

Bize

Denys

et al. 2015

International Journal of Pharmaceutics

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Drug-eluting microspheres are used for embolization of hypervascular tumors and allow for 15 local controlled drug release. Although the drug release from the microspheres relies on fast ion-exchange, so far only slow-releasing in vitro dissolution methods have been correlated to in vivo data. Three in vitro release methods are assessed in this study for their potential to predict slow in vivo release of sunitinib from chemoembolization spheres to the plasma, and fast local in vivo release obtained in an earlier study in rabbits. 20Release in an orbital shaker was slow (t 50% = 4.5 h, 84% release) compared to fast release in USP 4 flow-through implant cells (t 50% = 1 h, 100% release). Release of sunitinib from microspheres in saline in dialysis inserts was prolonged and incomplete (t 50% = 9 d, 68% release) due to low drug diffusion through the dialysis membrane. The slow-release profile fitted best to low sunitinib plasma AUC following injection of sunitinib-eluting spheres. Although limited by lack of 25 standardization, release in the orbital shaker fitted best to local in vivo sunitinib concentrations.Drug release in USP flow-through implant cells was too fast to correlate with local concentrations, although this method is preferred to discriminate between different sphere types. 3 Graphical Abstract KeywordsIn vitro drug release, sunitinib, drug-eluting beads, USP dissolution apparatus 4, 35 chemoembolization, in vitro-in vivo correlation

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Section: Release Kinetic Modelmentioning

confidence: 99%

Section: In Vitro-in Vivo Correlationmentioning

confidence: 99%

Section: In Vitro-in Vivo Correlation (Ivivc)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

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Sunitinib-eluting beads for chemoembolization: Methods for in vitro evaluation of drug release

Fuchs

Bize

Denys

et al. 2015

International Journal of Pharmaceutics

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Advances in Biomaterials and Technologies for Vascular Embolization

et al. 2019

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Minimally invasive transcatheter embolization is a common nonsurgical procedure in interventional radiology used for the deliberate occlusion of blood vessels for the treatment of diseased or injured vasculature. A wide variety of embolic agents including metallic coils, calibrated microspheres, and liquids are available for clinical practice. Additionally, advances in biomaterials, such as shapememory foams, biodegradable polymers, and in situ gelling solutions have led to the development of novel pre-clinical embolic agents. The aim here is to provide a comprehensive overview of current and emerging technologies in endovascular embolization with respect to devices, materials, mechanisms, and design guidelines. Limitations and challenges in embolic materials are also discussed to promote advancement in the field.

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IR Liver-Directed Therapies for HCC

Choudhri

2021

Hepato-Pancreato-Biliary Malignancies

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Drug-Eluting Beads Loaded with Antiangiogenic Agents for Chemoembolization: In Vitro Sunitinib Loading and Release and In Vivo Pharmacokinetics in an Animal Model

Cited by 33 publications

References 32 publications

Sunitinib-eluting beads for chemoembolization: Methods for in vitro evaluation of drug release

Sunitinib-eluting beads for chemoembolization: Methods for in vitro evaluation of drug release

Advances in Biomaterials and Technologies for Vascular Embolization

IR Liver-Directed Therapies for HCC

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