Ultrasound-Mediated Drug Delivery With a Clinical Ultrasound System: In Vitro Evaluation

Maar, Josanne S de; Rousou, Charis; Elburg, Benjamin van; Vos, Hendrik J.; Lajoinie, Guillaume; Bos, Clemens; Moonen, Chrit; Deckers, Roel

doi:10.3389/fphar.2021.768436

Cited by 14 publications

(16 citation statements)

References 67 publications

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“…In addition to increasing the intercellular permeability of hydrophilic molecules across the epithelial barrier, USMB induced intracellular accumulation of SYTOX TM green (molecular weight 600 Da) and two dextrans (molecular weight 4 and 20 kDa) as was already shown by us [ 26 , 37 ] and other groups [ 38 , 39 , 40 ] before. Quantification of fluorescent signals 30 and 120 min after incubation revealed that intracellular accumulation of dextrans was significantly higher in the cells treated with USMB at 0.7 MPa as compared to 0 MPa.…”

Section: Discussionsupporting

confidence: 71%

“…New studies using molecules with various hydrophilicities and molecular weights could help to comprehend the potential and limitations of USMB therapy in ocular drug delivery. Ideally, clinically approved microbubbles and a clinical ultrasound system could be used for USMB treatment [ 26 ] and to monitor microbubble emissions [ 56 ]. Finally, combination of USMB with pharmaceuticals (such as an anti-CXCR4 nanobody for the treatment of retinoblastoma) could be tested in in vivo disease models in order to determine the therapeutic efficacy of the method.…”

Section: Discussionmentioning

confidence: 99%

“…Sham-treated samples were immersed in the PBS bath for 2 min and served as negative controls (0 MPa). The pressure field maps ( Figure 1 D) of the transducer were measured with a calibrated hydrophone [ 26 ].…”

Section: Methodsmentioning

confidence: 99%

“…Right: axial plane, white dotted line indicates position of transversal plane. Adapted from [ 26 ], Frontiers Media S.A., 2021.…”

Section: Methodsmentioning

confidence: 99%

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The Effect of Microbubble-Assisted Ultrasound on Molecular Permeability across Cell Barriers

et al. 2022

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The combination of ultrasound and microbubbles (USMB) has been applied to enhance drug permeability across tissue barriers. Most studies focused on only one physicochemical aspect (i.e., molecular weight of the delivered molecule). Using an in vitro epithelial (MDCK II) cell barrier, we examined the effects of USMB on the permeability of five molecules varying in molecular weight (182 Da to 20 kDa) and hydrophilicity (LogD at pH 7.4 from 1.5 to highly hydrophilic). Treatment of cells with USMB at increasing ultrasound pressures did not have a significant effect on the permeability of small molecules (molecular weight 259 to 376 Da), despite their differences in hydrophilicity (LogD at pH 7.4 from −3.2 to 1.5). The largest molecules (molecular weight 4 and 20 kDa) showed the highest increase in the epithelial permeability (3-7-fold). Simultaneously, USMB enhanced intracellular accumulation of the same molecules. In the case of the clinically relevant anti- C-X-C Chemokine Receptor Type 4 (CXCR4) nanobody (molecular weight 15 kDa), USMB enhanced paracellular permeability by two-fold and increased binding to retinoblastoma cells by five-fold. Consequently, USMB is a potential tool to improve the efficacy and safety of the delivery of drugs to organs protected by tissue barriers, such as the eye and the brain.

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Section: Discussionsupporting

confidence: 71%

Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

“…Right: axial plane, white dotted line indicates position of transversal plane. Adapted from [ 26 ], Frontiers Media S.A., 2021.…”

Section: Methodsmentioning

confidence: 99%

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The Effect of Microbubble-Assisted Ultrasound on Molecular Permeability across Cell Barriers

et al. 2022

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“…The improvement of drug/gene delivery by ultrasound in the presence of microbubbles has been widely studied. The combination of ultrasound and contrast agents of different compositions has been successfully applied in vitro and in vitro to molecules that hardly or not cross the cell membrane such as as cisplatin and bleomycin. − Evaluation of this approach in phase I clinical trials, although in a limited number of patients with pancreatic and hepatic cancer, has generated interesting results in terms of safety and drug clinical efficiency. , In a recent study using ultrasound in the presence of microbubbles and erythrocytes as carriers, increased trehalose uptake, an effective sugar for protection against desiccation, has been demonstrated by Centner et al with improvement of recovery of viable erythrocytes following freeze-drying and rehydration. The presented study is in the continuity of our previous publications exploiting the strong potential of ultrasound as an alternative tool for drug and nucleic acids delivery. − , A moderate correlation was found between inertial cavitation and hemolysis.…”

Section: Discussionmentioning

confidence: 99%

Proof of Concept: Protein Delivery into Human Erythrocytes Using Stable Cavitation

et al. 2022

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Human erythrocytes represent candidates of choice as carriers for a wide range of drugs due to their unique biophysical and physiological properties. In this study, we used a sonoporation device generating and monitoring acoustic stable cavitation without any addition of contrast or nucleation agents. The device was evaluated for bovine serum albumin (BSA) delivery into human erythrocytes. After determining the adequate hematocrit percentage compatible with the generation of stable cavitation, we determined the optimal sonoporation conditions allowing BSA delivery while preserving erythrocyte integrity. Our results demonstrate that stable cavitation allows efficient delivery of proteins into human erythrocytes with limited lysis of these cells. In conclusion, our study allowed for the development of a stable and regulated cavitation program and the establishment of sonoporation conditions suitable for intracellular protein delivery while maintaining erythrocyte integrity. Additional investigations are needed to move from the proof of concept to a larger-scale application.

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Implantable smart hyperthermia nanofibers for cancer therapy: Challenges and opportunities

Valizadeh

Asghari

Abbaspoor

et al. 2023

WIREs Nanomed Nanobiotechnol

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Nanofibers (NFs) with practical drug‐loading capacities, high stability, and controllable release have caught the attention of investigators due to their potential applications in on‐demand drug delivery devices. Developing novel and efficient multidisciplinary management of locoregional cancer treatment through the design of smart NF‐based systems integrated with combined chemotherapy and hyperthermia could provide stronger therapeutic advantages. On the other hand, implanting directly at the tumor area is a remarkable benefit of hyperthermia NF‐based drug delivery approaches. Hence, implantable smart hyperthermia NFs might be very hopeful for tumor treatment in the future and provide new avenues for developing highly efficient localized drug delivery systems. Indeed, features of the smart NFs lead to the construction of a reversibly flexible nanostructure that enables hyperthermia and facile switchable release of antitumor agents to eradicate cancer cells. Accordingly, this study covers recent updates on applications of implantable smart hyperthermia NFs regarding their current scope and future outlook.This article is categorized under: Implantable Materials and Surgical Technologies > Nanomaterials and Implants

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Ultrasound-Mediated Drug Delivery With a Clinical Ultrasound System: In Vitro Evaluation

Cited by 14 publications

References 67 publications

The Effect of Microbubble-Assisted Ultrasound on Molecular Permeability across Cell Barriers

The Effect of Microbubble-Assisted Ultrasound on Molecular Permeability across Cell Barriers

Proof of Concept: Protein Delivery into Human Erythrocytes Using Stable Cavitation

Implantable smart hyperthermia nanofibers for cancer therapy: Challenges and opportunities

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