Sonopermeation With Size-sorted Microbubbles Synergistically Increases Survival and Enhances Tumor Apoptosis With L-DOX by Increasing Vascular Permeability and Perfusion in Neuroblastoma Xenografts.

Objective: Despite aggressive therapy, approximately 50% of patients with neuroblastoma (NB) fail to respond, and survivors endure lifelong toxicities. Sonopermeation increases drug uptake via cell bilayer disruption through focused ultrasound and microbubbles (MBs)-gas-filled, sound sensitive lipid spheres. MB response to a given ultrasound pulse (cavitation) varies according to MB size. We asked whether size-sorted MBs (SSMB) 4 to 5 µm in diameter will more consistently and predictably enhance doxorubicin uptake, compared with polydisperse MBs (PMB, 0.5-10 µm in diameter), thereby increasing drug delivery to NB xenografts.
Methods: Human NB cells were implanted into the left kidney of nude mice and grown for 5 to 6 wk. Mice received sonopermeation alongside either PMB or SSMB at low (0.6 MPa) or high (2 MPa) negative pressures. Some mice also received different chemotherapy agents (doxorubicin, etoposide or cyclophosphamide). Circulating tumor cells were assessed by flow cytometry 1 h after treatment. Survival was assessed for up to 21 d, a subset of mice was euthanized 24 h after treatment for histological assessment of apoptosis, vascular lumen size and tight junctions.
Results: Tumors treated with SSMB and high pressure showed synergy with liposomal doxorubicin (L-DOX) owing to increased vascular lumen and disruption of tight junctions, resulting in drug uptake, apoptosis, lack of tumor growth and increased survival. We found no difference in the numbers of circulating tumor cells.
Conclusion: Sonopermeation with SSMB at 2 MPa synergizes with L-DOX delivery, increasing apoptosis, perfusion and vascular permeability, suggesting that SSMB sonopermeation at high pressure is promising for NB-targeted treatment, especially in combination with L-DOX.
Competing Interests: Conflict of interest Jameel Feshitan is co-founder and CEO of Advanced MBs. Other authors have no conflicts of interest.
(Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)