Characterization of Contrast Agent Microbubbles for Ultrasound Imaging and Therapy Research

Mulvana, Helen; Browning, Richard; Luan, Ying; Jong, Nico de; Tang, Meng‐Xing; Eckersley, Robert J.; Stride, Eleanor

doi:10.1109/tuffc.2016.2613991

Cited by 55 publications

(56 citation statements)

References 205 publications

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“…Undoubtedly, the understanding of ageing is pivotal for the optimisation of the acoustic properties, injectability, and biodistribution of UCAs [2,10,11]. To this end, valuable methodologies such as confocal [12] and near-field microscopies [13][14][15], together with acoustic spectroscopy [16,17], can be used and combined to detect morphological, structural, and, thus, functional fine alterations on the MB's wall at the liquid interface. Nevertheless, the literature has still been found to lack long-term studies in this respect.…”

Section: U N C O R R E C T E D P R O O Fmentioning

confidence: 99%

Long-term physical evolution of an elastomeric ultrasound contrast microbubble

Domenici

Brasili

Oddo

et al. 2019

Journal of Colloid and Interface Science

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Hypothesis One of the main assets of crosslinked polymer-shelled microbubbles (MBs) as ultrasound-active theranostic agents is the robustness of the shells, combined with the chemical versatility in modifying the surface with ligands and/or drugs. Despite the long shelf-life, subtle modifications occur in the MB shells involving shifts in acoustic, mechanical and structural properties. Experiments We carried out a long-term morphological and acoustic evolution analysis on elastomeric polyvinyl-alcohol (PVA)-shelled MBs, a novel platform accomplishing good acoustic and surface performances in one agent. Confocal laser scanning microscopy, acoustic spectroscopy and AFM nanomechanics were integrated to understand the mechanism of PVA MBs ageing. The changes in the MB acoustic properties were framed in terms of shell thickness and viscoelasticity using a linearised oscillation theory, and compared to MB morphology and to nanomechanical analysis. Findings We enlightened a novel, intriguing ageing time evolution of the PVA MBs with double behaviour with respect to a crossover time of ∼50 days. Before, significant changes occur in MB stiffness and shell thickness, mainly due to a massive release of entangled PVA chains. Then, the MB resonance frequency increases together with shell thickening and softening. Our benchmark study is of general interest for emerging viscoelastomeric bubbles towards personalised medicine.

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Section: U N C O R R E C T E D P R O O Fmentioning

confidence: 99%

Long-term physical evolution of an elastomeric ultrasound contrast microbubble

Domenici

Brasili

Oddo

et al. 2019

Journal of Colloid and Interface Science

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“…As permeability changes are temporary, it is essential that the drug and cavitation event are proximate. Cavitation nuclei typically consist of a gas bubble or phase change liquid encapsulated in a biocompatible shell, which can be surface functionalized to allow loading of drugs and/or nanoparticle drug carriers, [163][164][165] as reviewed in several publications. [166][167][168] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 24 muscle delivery in mice using fluorescent PLGA-based nanoparticles covalently attached to microbubbles compared to unbound co-injections of nanoparticle and microbubble, 169 highlighting the importance of localizing drug and cavitation.…”

Section: Ultrasound Mediated Deliverymentioning

confidence: 99%

Drug Delivery Strategies for Platinum-Based Chemotherapy

Browning

Reardon²,

Parhizkar³

et al. 2017

ACS Nano

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185

129

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Few chemotherapeutics have had such an impact on cancer management as cis-diamminedichloridoplatinum(II) (CDDP), also known as cisplatin. The first member of the platinum-based drug family, CDDP's potent toxicity in disrupting DNA replication has led to its widespread use in multidrug therapies, with particular benefit in patients with testicular cancers. However, CDDP also produces significant side effects that limit the maximum systemic dose. Various strategies have been developed to address this challenge including encapsulation within micro- or nanocarriers and the use of external stimuli such as ultrasound to promote uptake and release. The aim of this review is to look at these strategies and recent scientific and clinical developments.

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“…In general, as permeability is only temporarily altered, colocalising the drug or nanocarrier to the site of microbubble activity promotes the delivery [131], effect [132], and release [133,134]. Finally, appropriate characterisation of the cavitation agent and drug loading is of vital importance to any drug delivery strategy (recently reviewed in [135]).…”

Section: Mechanical Deliverymentioning

confidence: 99%

Microbubble-Mediated Delivery for Cancer Therapy

Browning

Stride

2018

Fluids

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Despite an overall improvement in survival rates for cancer, certain resistant forms of the disease still impose a significant burden on patients and healthcare systems. Standard chemotherapy in these cases is often ineffective and/or gives rise to severe side effects. Targeted delivery of chemotherapeutics could improve both tumour response and patient experience. Hence, there is an urgent need to develop effective methods for this. Ultrasound is an established technique in both diagnosis and therapy. Its use in conjunction with microbubbles is being actively researched for the targeted delivery of small-molecule drugs. In this review, we cover the methods by which ultrasound and microbubbles can be used to overcome tumour barriers to cancer therapy.

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Characterization of Contrast Agent Microbubbles for Ultrasound Imaging and Therapy Research

Cited by 55 publications

References 205 publications

Long-term physical evolution of an elastomeric ultrasound contrast microbubble

Long-term physical evolution of an elastomeric ultrasound contrast microbubble

Drug Delivery Strategies for Platinum-Based Chemotherapy

Microbubble-Mediated Delivery for Cancer Therapy

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