Anubhav Arora scite author profile

Skin makes an excellent site for drug and vaccine delivery due to easy accessibility, immunosurveillance functions, avoidance of macromolecular degradation in the gastrointestinal tract and possibility of self-administration. However, macromolecular drug delivery across the skin is primarily accomplished using hypodermic needles, which have several disadvantages including accidental needle-sticks, pain and needle phobia. These limitations have led to extensive research and development of alternative methods for drug and vaccine delivery across the skin. This review focuses on the recent trends and developments in this field of micro-scale devices for transdermal macromolecular delivery. These include liquid jet injectors, powder injectors, microneedles and thermal microablation. The historical perspective, mechanisms of action, important design parameters, applications and challenges are discussed for each method.

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Needle-free delivery of macromolecules across the skin by nanoliter-volume pulsed microjets

Arora¹,

Hakim²,

Baxter

et al. 2007

Proc. Natl. Acad. Sci. U.S.A.

139

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Needle-free liquid jet injectors were invented >50 years ago for the delivery of proteins and vaccines. Despite their long history, needle-free liquid jet injectors are not commonly used as a result of frequent pain and bruising. We hypothesized that pain and bruising originate from the deep penetration of the jets and can potentially be addressed by minimizing the penetration depth of jets into the skin. However, current jet injectors are not designed to maintain shallow dermal penetration depths. Using a new strategy of jet injection, pulsed microjets, we report on delivery of protein drugs into the skin without deep penetration. The high velocity (v >100 m/s) of microjets allows their entry into the skin, whereas the small jet diameters (50 -100 m) and extremely small volumes (2-15 nanoliters) limit the penetration depth (Ϸ200 m).In vitro experiments confirmed quantitative delivery of molecules into human skin and in vivo experiments with rats confirmed the ability of pulsed microjets to deliver therapeutic doses of insulin across the skin. Pulsed microjet injectors could be used to deliver drugs for local as well as systemic applications without using needles.MEMS ͉ nanotechnology ͉ noninvasive ͉ piezoelectric ͉ transdermal

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Dynamic control of needle-free jet injection

Stachowiak

Arora

et al. 2009

Journal of Controlled Release

115

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Synergistic effects of chemical enhancers on skin permeability: A case study of sodium lauroylsarcosinate and sorbitan monolaurate

Karande

Jain

Arora

et al. 2007

European Journal of Pharmaceutical Sciences

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Transcutaneous immunization using common chemicals

Karande

Arora

Pham

et al. 2009

Journal of Controlled Release

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Anubhav Arora

Micro-scale devices for transdermal drug delivery

Needle-free delivery of macromolecules across the skin by nanoliter-volume pulsed microjets

Dynamic control of needle-free jet injection

Synergistic effects of chemical enhancers on skin permeability: A case study of sodium lauroylsarcosinate and sorbitan monolaurate

Transcutaneous immunization using common chemicals

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