Applicability and safety of dual-frequency ultrasonic treatment for the transdermal delivery of drugs

Schoellhammer, Carl M.; Srinivasan, Sharanya; Barman, Ross; Mo, Stacy; Polat, Barış; Langer, Robert; Blankschtein, Daniel

doi:10.1016/j.jconrel.2015.02.002

Cited by 58 publications

(45 citation statements)

References 27 publications

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“…The major advantages of this approach include the ease of use, direct effects caused on the focal lesions reduced first-pass drug-degradation, improved drug transportation into the cells and its bioavailability, reduced side effects due to limited circulation via blood, higher efficiency for a long time course, and its utility for various of drugs without any cross infection (Paudel et al, 2010;Prausnitz et al, 2004). The clinical use of this method has verified that the therapeutic doses of ultrasound are safe to human body (Mitragotri, 2005;Schoellhammer et al, 2015;Wiedersberg & Guy, 2014). A series of experiments proved that ultrasonic penetration is effective for many drugs, such as liposomal lidocaine and 5-Aminolevulinate (used for actinic keratosis and other nonmelanoma skin cancers) (Becker et al, 2005;Krishnan et al, 2013;Mitragotri, 2005;Polat et al, 2011;Prausnitz & Langer, 2008;Skarbek-Borowska et al, 2006).…”

Section: Discussionmentioning

confidence: 98%

Assessment of the efficacy of drug transdermal delivery by electro-phonophoresis in treating tuberculous lymphadenitis

Chen¹,

Qin

Han

et al. 2015

Drug Delivery

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Electro-phonophoresis (EP) has been used in various clinical fields. The objective of present study is to evaluate the skin permeability of isoniazid (INH) and rifampicin (RIF) in patients with tuberculous lymphadenitis with the aid of EP to validate the clinical applications of this transdermal delivery system for the treatment of superficial extrapulmonary tuberculosis. INH and RIF solutions were delivered transdermally, with or without EP, in the surrounding tissue of the lesion for 0.5 h. Local pyogenic fluids or necrotic tissue samples from the infection sites in patients were collected at 1 h after dosing. Drug concentrations in samples were evaluated by high performance liquid chromatography. The median INH and RIF intra-lesional concentrations were 0.365 (interquartile range [IQR] 0.185-1.775) mg/mL and 1.231 (IQR 0.304-1.836) mg/mL in oral group; 2.964 ) mg/mL and 2.646 (IQR 1.211-3.753) mg/mL in INH-and RIF-transdermal plus EP group. Drug concentrations in the local sites of patients receiving INH or RIF through EP transdermal delivery were statistically higher than those observed in patients only taking INH and RIF orally. However, this enhancement was not observed in the transdermal delivery of INH or RIF without EP in contrast to the oral administrations of drugs. EP can effectively enhance the skin permeability of INH and RIF in patients with tuberculous lymphadenitis. The increase in drug concentrations in the lesions could help eradication of the germs; shorten the treatment course and increase the cure rate of patients with tuberculous lymphadenitis.

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Section: Discussionmentioning

confidence: 98%

Assessment of the efficacy of drug transdermal delivery by electro-phonophoresis in treating tuberculous lymphadenitis

Chen¹,

Qin

Han

et al. 2015

Drug Delivery

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“…[148] The boosted enhancement by dual treatment is attributed to the simultaneous generation (under high-frequency US) and collapse (under low-frequency US) of bubbles.…”

Section: Transdermal Drug Deliverymentioning

confidence: 99%

Getting Drugs Across Biological Barriers

et al. 2017

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The delivery of drugs to a target site frequently involves crossing biological barriers. The degree and nature of the impediment to flux, as well as the potential approaches to overcoming it, depend on the tissue, the drug, and numerous other factors. Here we present an overview of approaches that have been taken to crossing biological barriers, with special attention to transdermal drug delivery. Technology and knowledge pertaining to addressing these issues in a variety of organs could have a significant clinical impact.

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“…Furthermore 3 kDa and 70 kDa dextrans serving as model macromolecules were successfully delivered with US ex vivo and shown to penetrate the entire thickness of the tissue with only one-minute of US treatment. This is in stark contrast to the typical treatment times required for transdermal drug delivery, which can exceed 10 minutes and requires co-administration with surfactants [1], [9]. The efficacy observed with short treatment times in the GI tract to achieve significant enhancement in delivery is thought to be a result of the architecture of the GI epithelium.…”

Section: Ultrasound-mediated Gastrointestinal Drug Deliverymentioning

confidence: 96%

“…The general findings from the transdermal field include the capacity to deliver nucleic acids [7], peptides [8], proteins [5], [6], as well as significantly enhance the delivery of small molecules [1], [9]. It was this capacity for delivery of a broad range of molecules, which motivated further exploration of this technology for drug delivery to parts of the body other than the skin.…”

Section: Introductionmentioning

confidence: 99%