Literature DB >> 24486388

Nucleic acid delivery with microbubbles and ultrasound.

Joshua J Rychak1, Alexander L Klibanov2.   

Abstract

Nucleic acid-based therapy is a growing field of drug delivery research. Although ultrasound has been suggested to enhance transfection decades ago, it took a combination of ultrasound with nucleic acid carrier systems (microbubbles, liposomes, polyplexes, and viral carriers) to achieve reasonable nucleic acid delivery efficacy. Microbubbles serve as foci for local deposition of ultrasound energy near the target cell, and greatly enhance sonoporation. The major advantage of this approach is in the minimal transfection in the non-insonated non-target tissues. Microbubbles can be simply co-administered with the nucleic acid carrier or can be modified to carry nucleic acid themselves. Liposomes with embedded gas or gas precursor particles can also be used to carry nucleic acid, release and deliver it by the ultrasound trigger. Successful testing in a wide variety of animal models (myocardium, solid tumors, skeletal muscle, and pancreas) proves the potential usefulness of this technique for nucleic acid drug delivery.
Copyright © 2014 Elsevier B.V. All rights reserved.

Entities:  

Keywords:  Acoustic; Distearoyl phosphatidylcholine, CID: 94190; Focused ultrasound; Gene delivery; Perfluorobutane, CID: 9638; Perfluoropentane, CID: 12675; Perfluoropropane, CID: 6432; Plasmid; Transfection; Viral; miRNA; siRNA

Mesh:

Substances:

Year:  2014        PMID: 24486388      PMCID: PMC4204336          DOI: 10.1016/j.addr.2014.01.009

Source DB:  PubMed          Journal:  Adv Drug Deliv Rev        ISSN: 0169-409X            Impact factor:   15.470


  107 in total

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2.  Focal disruption of the blood-brain barrier due to 260-kHz ultrasound bursts: a method for molecular imaging and targeted drug delivery.

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3.  Delivery of siRNA into the cytoplasm by liposomal bubbles and ultrasound.

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Review 4.  Role of blood cells in ischaemia-reperfusion induced endothelial barrier failure.

Authors:  Stephen F Rodrigues; D Neil Granger
Journal:  Cardiovasc Res       Date:  2010-03-17       Impact factor: 10.787

5.  Pharmacokinetics of plasmid DNA in the rat.

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Journal:  Pharm Res       Date:  2001-01       Impact factor: 4.200

6.  Hepatocyte growth factor delivered by ultrasound-mediated destruction of microbubbles induces proliferation of cardiomyocytes and amelioration of left ventricular contractile function in Doxorubicin-induced cardiomyopathy.

Authors:  Masayoshi Iwasaki; Yasushi Adachi; Takashi Nishiue; Keizo Minamino; Yasuhiro Suzuki; Yuming Zhang; Keiji Nakano; Yasushi Koike; Jianfeng Wang; Hiromi Mukaide; Shigeru Taketani; Fumio Yuasa; Hirohito Tsubouchi; Eiichi Gohda; Toshiji Iwasaka; Susumu Ikehara
Journal:  Stem Cells       Date:  2005-08-18       Impact factor: 6.277

7.  Inhibition of hepatic fibrosis with artificial microRNA using ultrasound and cationic liposome-bearing microbubbles.

Authors:  D Yang; Y-H Gao; K-B Tan; Z-X Zuo; W-X Yang; X Hua; P-J Li; Y Zhang; G Wang
Journal:  Gene Ther       Date:  2013-08-22       Impact factor: 5.250

8.  Augmentation of AAV-mediated cardiac gene transfer after systemic administration in adult rats.

Authors:  O J Müller; S Schinkel; J A Kleinschmidt; H A Katus; R Bekeredjian
Journal:  Gene Ther       Date:  2008-07-10       Impact factor: 5.250

9.  Ultrasound and microbubble-targeted delivery of macromolecules is regulated by induction of endocytosis and pore formation.

Authors:  Bernadet D M Meijering; Lynda J M Juffermans; Annemieke van Wamel; Rob H Henning; Inge S Zuhorn; Marcia Emmer; Amanda M G Versteilen; Walter J Paulus; Wiek H van Gilst; Klazina Kooiman; Nico de Jong; René J P Musters; Leo E Deelman; Otto Kamp
Journal:  Circ Res       Date:  2009-01-22       Impact factor: 17.367

10.  Ultrasound-mediated gene delivery with cationic versus neutral microbubbles: effect of DNA and microbubble dose on in vivo transfection efficiency.

Authors:  Cedric M Panje; David S Wang; Marybeth A Pysz; Ramasamy Paulmurugan; Ying Ren; Francois Tranquart; Lu Tian; Jürgen K Willmann
Journal:  Theranostics       Date:  2012-11-08       Impact factor: 11.556
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  29 in total

1.  Multiple sessions of liposomal doxorubicin delivery via focused ultrasound mediated blood-brain barrier disruption: a safety study.

Authors:  Muna Aryal; Natalia Vykhodtseva; Yong-Zhi Zhang; Nathan McDannold
Journal:  J Control Release       Date:  2015-02-24       Impact factor: 9.776

2.  Theranostic Multilayer Capsules for Ultrasound Imaging and Guided Drug Delivery.

Authors:  Jun Chen; Sithira Ratnayaka; Aaron Alford; Veronika Kozlovskaya; Fei Liu; Bing Xue; Kenneth Hoyt; Eugenia Kharlampieva
Journal:  ACS Nano       Date:  2017-03-10       Impact factor: 15.881

3.  Stimulus-responsive liposomes as smart nanoplatforms for drug delivery applications.

Authors:  Parham Sahandi Zangabad; Soroush Mirkiani; Shayan Shahsavari; Behrad Masoudi; Maryam Masroor; Hamid Hamed; Zahra Jafari; Yasamin Davatgaran Taghipour; Hura Hashemi; Mahdi Karimi; Michael R Hamblin
Journal:  Nanotechnol Rev       Date:  2017-12-12       Impact factor: 7.848

4.  Laser-Activated Polymeric Microcapsules for Ultrasound Imaging and Therapy: In Vitro Feasibility.

Authors:  Guillaume Lajoinie; Tom van Rooij; Ilya Skachkov; Emilie Blazejewski; Gert Veldhuis; Nico de Jong; Klazina Kooiman; Michel Versluis
Journal:  Biophys J       Date:  2017-05-09       Impact factor: 4.033

Review 5.  Mechanoresponsive materials for drug delivery: Harnessing forces for controlled release.

Authors:  Julia Wang; Jonah A Kaplan; Yolonda L Colson; Mark W Grinstaff
Journal:  Adv Drug Deliv Rev       Date:  2016-11-14       Impact factor: 15.470

Review 6.  Advances in Stimulus-Responsive Polymeric Materials for Systemic Delivery of Nucleic Acids.

Authors:  Minjie Sun; Kaikai Wang; David Oupický
Journal:  Adv Healthc Mater       Date:  2017-12-11       Impact factor: 9.933

7.  Increasing Distribution of Drugs Released from In Situ Forming PLGA Implants Using Therapeutic Ultrasound.

Authors:  Chawan Manaspon; Christopher Hernandez; Pinunta Nittayacharn; Selva Jeganathan; Norased Nasongkla; Agata A Exner
Journal:  Ann Biomed Eng       Date:  2017-09-19       Impact factor: 3.934

8.  Microbubbles and ultrasound increase intraventricular polyplex gene transfer to the brain.

Authors:  James-Kevin Y Tan; Binhan Pham; Yujin Zong; Camilo Perez; Don O Maris; Ashton Hemphill; Carol H Miao; Thomas J Matula; Pierre D Mourad; Hua Wei; Drew L Sellers; Philip J Horner; Suzie H Pun
Journal:  J Control Release       Date:  2016-02-06       Impact factor: 9.776

9.  Enhancing Tumor Drug Distribution With Ultrasound-Triggered Nanobubbles.

Authors:  Pinunta Nittayacharn; Hai-Xia Yuan; Christopher Hernandez; Peter Bielecki; Haoyan Zhou; Agata A Exner
Journal:  J Pharm Sci       Date:  2019-05-13       Impact factor: 3.534

10.  Transvascular Delivery of Hydrophobically Modified siRNAs: Gene Silencing in the Rat Brain upon Disruption of the Blood-Brain Barrier.

Authors:  Bruno M D C Godinho; Nils Henninger; James Bouley; Julia F Alterman; Reka A Haraszti; James W Gilbert; Ellen Sapp; Andrew H Coles; Annabelle Biscans; Mehran Nikan; Dimas Echeverria; Marian DiFiglia; Neil Aronin; Anastasia Khvorova
Journal:  Mol Ther       Date:  2018-08-08       Impact factor: 11.454
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