Double-Balloon Catheter-Mediated Transarterial Chemotherapy Delivery in a Swine Model: A Mechanism Recruiting the Vasa Vasorum for Localized Therapies.
[PURPOSE] Treatment of hypovascular tumors, such as pancreatic adenocarcinoma, is challenging owing to inefficient drug delivery.
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APA
Farsad K, Novelli PM, et al. (2024). Double-Balloon Catheter-Mediated Transarterial Chemotherapy Delivery in a Swine Model: A Mechanism Recruiting the Vasa Vasorum for Localized Therapies.. Journal of vascular and interventional radiology : JVIR, 35(7), 1043-1048.e3. https://doi.org/10.1016/j.jvir.2024.03.016
MLA
Farsad K, et al.. "Double-Balloon Catheter-Mediated Transarterial Chemotherapy Delivery in a Swine Model: A Mechanism Recruiting the Vasa Vasorum for Localized Therapies.." Journal of vascular and interventional radiology : JVIR, vol. 35, no. 7, 2024, pp. 1043-1048.e3.
PMID
38508449
Abstract
[PURPOSE] Treatment of hypovascular tumors, such as pancreatic adenocarcinoma, is challenging owing to inefficient drug delivery. This report examines the potential mechanism of localized drug delivery via transarterial microperfusion (TAMP) using a proprietary adjustable double-balloon occlusion catheter in a porcine model.
[MATERIALS AND METHODS] Adult Yorkshire swine (N = 21) were used in the Institutional Animal Care & Use Committee-approved protocols. The RC-120 catheter (RenovoRx, Los Altos, California) was positioned into visceral, femoral, and pulmonary arteries with infusion of methylene blue dye, gemcitabine, or gold nanoparticles. Transmural delivery was compared under double-balloon occlusion with and without side-branch exclusion, single-balloon occlusion, and intravenous delivery. Intra-arterial pressure and vascular histologic changes were assessed.
[RESULTS] Infusion with double-balloon occlusion and side-branch exclusion provided increased intra-arterial pressure in the isolated segment and enhanced perivascular infusate penetration with minimal vascular injury. Infusates were predominantly found in the vasa vasorum by electron microscopy.
[CONCLUSIONS] TAMP enhanced transmural passage mediated by localized increase in arterial pressure via vasa vasorum.
[MATERIALS AND METHODS] Adult Yorkshire swine (N = 21) were used in the Institutional Animal Care & Use Committee-approved protocols. The RC-120 catheter (RenovoRx, Los Altos, California) was positioned into visceral, femoral, and pulmonary arteries with infusion of methylene blue dye, gemcitabine, or gold nanoparticles. Transmural delivery was compared under double-balloon occlusion with and without side-branch exclusion, single-balloon occlusion, and intravenous delivery. Intra-arterial pressure and vascular histologic changes were assessed.
[RESULTS] Infusion with double-balloon occlusion and side-branch exclusion provided increased intra-arterial pressure in the isolated segment and enhanced perivascular infusate penetration with minimal vascular injury. Infusates were predominantly found in the vasa vasorum by electron microscopy.
[CONCLUSIONS] TAMP enhanced transmural passage mediated by localized increase in arterial pressure via vasa vasorum.
MeSH Terms
Animals; Vasa Vasorum; Balloon Occlusion; Gemcitabine; Infusions, Intra-Arterial; Deoxycytidine; Models, Animal; Antineoplastic Agents; Methylene Blue; Swine; Metal Nanoparticles; Equipment Design; Arterial Pressure; Sus scrofa; Vascular Access Devices