Noninvasive Transdermal Delivery System of Lidocaine Using an Acoustic Droplet‐Vaporization Based Wearable Patch

Soto, Fernando; Jeerapan, Itthipon; Silva‐Lopez, Cristian; Lopez‐Ramirez, Miguel Angel; Chai, Ingrid; Lu, Xiaolong; Lv, Jian; Kurniawan, Jonas; Martin, Ian; Chakravarthy, Krishnan; Wang, Joseph

doi:10.1002/smll.201803266

Cited by 50 publications

(39 citation statements)

References 50 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The use of acoustic droplet vaporization microballistic delivery resulted in enhanced delivery of the anesthetic agent lidocaine when compared to passive diffusion or the use of ultrasound pulses by themself. [279] Using a similar firing mechanism solidgas polymeric nanocups were used for deep tissue penetration.…”

Section: Tissue Penetrationmentioning

confidence: 99%

Medical Micro/Nanorobots in Precision Medicine

et al. 2020

Self Cite

View full text Add to dashboard Cite

Advances in medical robots promise to improve modern medicine and the quality of life. Miniaturization of these robotic platforms has led to numerous applications that leverages precision medicine. In this review, the current trends of medical micro and nanorobotics for therapy, surgery, diagnosis, and medical imaging are discussed. The use of micro and nanorobots in precision medicine still faces technical, regulatory, and market challenges for their widespread use in clinical settings. Nevertheless, recent translations from proof of concept to in vivo studies demonstrate their potential toward precision medicine.

show abstract

Section: Tissue Penetrationmentioning

confidence: 99%

Medical Micro/Nanorobots in Precision Medicine

et al. 2020

Self Cite

View full text Add to dashboard Cite

show abstract

“…Soto et al [11] recently developed a wearable transdermal patch, which consists of a drug reservoir containing hundreds of micropores loaded with lidocaine. The drug is released upon ultrasound exposure, which enables faster and deeper penetration on the skin compared to non-ADV-generating ultrasound exposure and therefore a more efficient drug release.…”

Section: Applications Of Acoustic Droplet Vaporizationmentioning

confidence: 99%

“…By benefiting from the broad potentials of ADV in medical applications, with consideration of its capability in localized noninvasive energy exposure, it is possible to utilize its effect in targeted drug delivery [4, 5], embolotherapy [6], ultrasound imaging [7–10], transdermal noninvasive drug delivery [11], theranostics [12, 13], thermal therapy [14, 15], and histotripsy [16, 17].…”

Section: Introductionmentioning

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

“…They showed that vaporization of phase-change droplets using FUS fired the silica nanoparticles from these “microcannons,” which could be useful for transdermal delivery (Figure 14) 226. Later they also used this strategy for transdermal delivery of an anesthetic agent lidocaine 227. However, metastability of these fluorocarbon-based ultrasound active agents prevents their long-term use as they evaporate or dissolve in hydrogels in a few days, and thus, hydrogels lose their ultrasound activity 223,224.…”

Section: Acoustically Active Materials For Fus Theranosticsmentioning

confidence: 99%

Colloids, nanoparticles, and materials for imaging, delivery, ablation, and theranostics by focused ultrasound (FUS)

2019

View full text Add to dashboard Cite

This review focuses on different materials and contrast agents that sensitize imaging and therapy with Focused Ultrasound (FUS). At high intensities, FUS is capable of selectively ablating tissue with focus on the millimeter scale, presenting an alternative to surgical intervention or management of malignant growth. At low intensities, FUS can be also used for other medical applications such as local delivery of drugs and blood brain barrier opening (BBBO). Contrast agents offer an opportunity to increase selective acoustic absorption or facilitate destructive cavitation processes by converting incident acoustic energy into thermal and mechanical energy. First, we review the history of FUS and its effects on living tissue. Next, we present different colloidal or nanoparticulate approaches to sensitizing FUS, for example using microbubbles, phase-shift emulsions, hollow-shelled nanoparticles, or hydrophobic silica surfaces. Exploring the science behind these interactions, we also discuss ways to make stimulus-responsive, or “turn-on” contrast agents for improved selectivity. Finally, we discuss acoustically-active hydrogels and membranes. This review will be of interest to those working in materials who wish to explore new applications in acoustics and those in acoustics who are seeking new agents to improve the efficacy of their approaches.

show abstract

Noninvasive Transdermal Delivery System of Lidocaine Using an Acoustic Droplet‐Vaporization Based Wearable Patch

Cited by 50 publications

References 50 publications

Medical Micro/Nanorobots in Precision Medicine

Medical Micro/Nanorobots in Precision Medicine

Review on Acoustic Droplet Vaporization in Ultrasound Diagnostics and Therapeutics

Colloids, nanoparticles, and materials for imaging, delivery, ablation, and theranostics by focused ultrasound (FUS)

Contact Info

Product

Resources

About