Literature DB >> 22829400

Hollow copper sulfide nanoparticle-mediated transdermal drug delivery.

Samy Ramadan1, Liangran Guo, Yajuan Li, Bingfang Yan, Wei Lu.   

Abstract

A photothermal ablation-enhanced transdermal drug delivery methodology is developed based on hollow copper sulfide nanoparticles (HCuSNPs) with intense photothermal coupling effects. Application of nanosecond-pulsed near-infrared laser allows rapid heating of the nanoparticles and instantaneous heat conduction. This provides very short periods of time but extremely high temperatures in local regions, with focused thermal ablation of the stratum corneum. The depth of skin perforations can be controlled by adjusting the laser power. Skin disruption by HCuSNP-mediated photothermal ablation significantly increases the permeability of human growth hormone. This technique offers compelling opportunities for macromolecular drug and vaccine delivery.
Copyright © 2012 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.

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Year:  2012        PMID: 22829400      PMCID: PMC3485307          DOI: 10.1002/smll.201200783

Source DB:  PubMed          Journal:  Small        ISSN: 1613-6810            Impact factor:   13.281


  44 in total

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3.  Copper sulfide nanoparticles for photothermal ablation of tumor cells.

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6.  Hydrophilic flower-like CuS superstructures as an efficient 980 nm laser-driven photothermal agent for ablation of cancer cells.

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10.  Photo-thermal tumor ablation in mice using near infrared-absorbing nanoparticles.

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  25 in total

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6.  Theranostic CuS Nanoparticles Targeting Folate Receptors for PET Image-Guided Photothermal Therapy.

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Review 7.  Positron emission tomography and nanotechnology: A dynamic duo for cancer theranostics.

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8.  Rapid, Reversible Release from Thermosensitive Liposomes Triggered by Near-Infra-Red Light.

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Review 9.  Synthesis and biomedical applications of copper sulfide nanoparticles: from sensors to theranostics.

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10.  In vitro and in vivo mapping of drug release after laser ablation thermal therapy with doxorubicin-loaded hollow gold nanoshells using fluorescence and photoacoustic imaging.

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