Combined passive acoustic mapping and magnetic resonance thermometry for monitoring phase-shift nanoemulsion enhanced focused ultrasound therapy

Crake, Calum; Meral, F. Can; Burgess, Mark; Papademetriou, Iason T.; McDannold, Nathan; Porter, Tyrone M.

doi:10.1088/1361-6560/aa77df

Cited by 12 publications

(11 citation statements)

References 74 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…When exploiting the thermal effects of vaporized droplets, treatment monitoring may be achieved through magnetic resonance thermometry [85]. Crake et al [86] have shown that changes in proton resonance frequency may be used to measure the temperature change induced by vaporizing DDFP lipid-coated droplets in a polyacrylamide gel phantom.…”

Section: Magnetic Resonance Thermometrymentioning

confidence: 99%

Ultrasound-responsive droplets for therapy: A review

Lea‐Banks

O’Reilly

Hynynen

2019

Journal of Controlled Release

103

191

View full text Add to dashboard Cite

The last two decades have seen the development of acoustically activated droplets, also known as phase-change emulsions, from a diagnostic tool to a therapeutic agent. Through bubble effects and triggered drug release, these superheated agents have found potential applications from oncology to neuromodulation. The aim of this review is to summarise the key developments in therapeutic droplet design and use, to discuss the current challenges slowing clinical translation, and to highlight the new frontiers progressing towards clinical implementation. The literature is summarised by addressing the droplet design criteria and by carrying out a multiparametric study of a range of droplet formulations and their associated vaporisation thresholds.

show abstract

Section: Magnetic Resonance Thermometrymentioning

confidence: 99%

Ultrasound-responsive droplets for therapy: A review

Lea‐Banks

O’Reilly

Hynynen

2019

Journal of Controlled Release

103

191

View full text Add to dashboard Cite

show abstract

“…The proposed method as an alternative for the current embolization method eliminates the invasive treatment limitations when catheter is utilized [107]. The recent studies illustrated that the NDs emulsion used in the ADV is not only influential due to its noninvasive nature, but also it is possible to harvest the energy absorption and to control the thermal dissipation particularly in highly vascular organs during the cancer treatment [93]. Being able to monitor the heat dissipation helps one to detect the nucleation and cavitation bubbles generation, which is essential in guiding the vaporized droplets to the target properly [108].…”

Section: Recent Developments In the Fieldmentioning

confidence: 99%

Review on Acoustic Droplet Vaporization in Ultrasound Diagnostics and Therapeutics

Loskutova

Grishenkov

Ghorbani

2019

BioMed Research International

View full text Add to dashboard Cite

Acoustic droplet vaporization (ADV) is the physical process in which liquid undergoes phase transition to gas after exposure to a pressure amplitude above a certain threshold. In recent years, new techniques in ultrasound diagnostics and therapeutics have been developed which utilize microformulations with various physical and chemical properties. The purpose of this review is to give the reader a general idea on how ADV can be implemented for the existing biomedical applications of droplet vaporization. In this regard, the recent developments in ultrasound therapy which shed light on the ADV are considered. Modern designs of capsules and nanodroplets (NDs) are shown, and the material choices and their implications for function are discussed. The influence of the physical properties of the induced acoustic field, the surrounding medium, and thermophysical effects on the vaporization are presented. Lastly, current challenges and potential future applications towards the implementation of the therapeutic droplets are discussed.

show abstract

“…However, its high cost, lack of portability, long treatment times, and inability to monitor acoustic cavitation-based FUS therapies limits the enthusiasm of MRIgFUS for BBB opening. Ultrasound-guided FUS (USgFUS) systems, stand-alone or in combination with MRI, have the ability to address these limitations (Arvanitis et al, 2013; Wei et al, 2013; Crake et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Power cavitation-guided blood-brain barrier opening with focused ultrasound and microbubbles

2018

View full text Add to dashboard Cite

Image-guided monitoring of microbubble-based focused ultrasound (FUS) therapies relies on the accurate localization of FUS-stimulated microbubble activity (i.e. acoustic cavitation). Passive cavitation imaging with ultrasound arrays can achieve this, but with insufficient spatial resolution. In this study, we address this limitation and perform high-resolution monitoring of acoustic cavitation-mediated blood-brain barrier (BBB) opening with a new technique called power cavitation imaging. By synchronizing the FUS transmit and passive receive acquisition, high-resolution passive cavitation imaging was achieved by using delay and sum beamforming with absolute time delays. Since the axial image resolution is now dependent on the duration of the received acoustic cavitation emission, short pulses of FUS were used to limit its duration. Image sets were acquired at high-frame rates for calculation of power cavitation images analogous to power Doppler imaging. Power cavitation imaging displays the mean intensity of acoustic cavitation over time and was correlated with areas of acoustic cavitation-induced BBB opening. Power cavitation-guided BBB opening with FUS could constitute a standalone system that may not require MRI guidance during the procedure. The same technique can be used for other acoustic cavitation-based FUS therapies, for both safety and guidance.

show abstract

Combined passive acoustic mapping and magnetic resonance thermometry for monitoring phase-shift nanoemulsion enhanced focused ultrasound therapy

Cited by 12 publications

References 74 publications

Ultrasound-responsive droplets for therapy: A review

Ultrasound-responsive droplets for therapy: A review

Review on Acoustic Droplet Vaporization in Ultrasound Diagnostics and Therapeutics

Power cavitation-guided blood-brain barrier opening with focused ultrasound and microbubbles

Contact Info

Product

Resources

About