Litcius/Paper detail

Sonopermeation Enhances Uptake and Therapeutic Effect of Free and Encapsulated Cabazitaxel

Sofie Snipstad, Ýrr Mørch, Einar Sulheim, Andreas Åslund, André Pedersen, Catharina de Lange Davies, Rune Hansen, Sigrid Berg

2021Ultrasound in Medicine & Biology43 citationsDOIOpen Access PDF

Abstract

Delivery of drugs and nanomedicines to tumors is often heterogeneous and insufficient and, thus, of limited efficacy. Microbubbles in combination with ultrasound have been found to improve delivery to tumors, enhancing accumulation and penetration. We used a subcutaneous prostate cancer xenograft model in mice to investigate the effect of free and nanoparticle-encapsulated cabazitaxel in combination with ultrasound and microbubbles with a lipid shell or a shell of nanoparticles. Sonopermeation reduced tumor growth and prolonged survival (26%-100%), whether the free drug was co-injected with lipid-shelled microbubbles or the nanoformulation was co-injected with lipid-shelled or nanoparticle-shelled microbubbles. Coherently with the improved therapeutic response, we found enhanced uptake of nanoparticles directly after ultrasound treatment that lasted several weeks (2.3 × -15.8 × increase). Neither cavitation dose nor total accumulation of nanoparticles could explain the variation within treatment groups, emphasizing the need for a better understanding of the tumor biology and mechanisms involved in ultrasound-mediated treatment.

Topics & Concepts

MicrobubblesCabazitaxelUltrasoundNanoparticleDrug deliveryLiposomeCancer researchChemistryPharmacologyPenetration (warfare)Therapeutic ultrasoundProstate cancerMedicineBiophysicsNanotechnologyMaterials scienceCancerInternal medicineBiochemistryBiologyRadiologyAndrogen deprivation therapyOperations researchEngineeringUltrasound and Hyperthermia ApplicationsNanoparticle-Based Drug DeliveryRadiation Therapy and Dosimetry