Microneedles: Current Status and Future Perspectives

[1]  M. Prausnitz,et al.  Coated microneedles for drug delivery to the eye. , 2007, Investigative ophthalmology & visual science.

[2]  Mark R Prausnitz,et al.  Minimally invasive extraction of dermal interstitial fluid for glucose monitoring using microneedles. , 2005, Diabetes technology & therapeutics.

[3]  W H Smart,et al.  The use of silicon microfabrication technology in painless blood glucose monitoring. , 2000, Diabetes technology & therapeutics.

[4]  Cheol-hyun Cho Holomorphic discs, spin structures, and Floer cohomology of the Clifford torus , 2003, math/0308224.

[5]  Conor O'Mahony,et al.  In-vivo dynamic characterization of microneedle skin penetration using optical coherence tomography. , 2010, Journal of biomedical optics.

[6]  Mark R. Prausnitz,et al.  Suprachoroidal Drug Delivery to the Back of the Eye Using Hollow Microneedles , 2010, Pharmaceutical Research.

[7]  J G Hamilton,et al.  Needle phobia: a neglected diagnosis. , 1995, The Journal of family practice.

[8]  Hartmut Derendorf,et al.  Clinical microdialysis : Current applications and potential use in drug development , 2006 .

[9]  D. Liepmann,et al.  A microneedle-based glucose monitor: fabricated on a wafer-level using in-device enzyme immobilization , 2003, TRANSDUCERS '03. 12th International Conference on Solid-State Sensors, Actuators and Microsystems. Digest of Technical Papers (Cat. No.03TH8664).

[10]  Richard H Guy,et al.  Reverse iontophoresis for non-invasive transdermal monitoring. , 2004, Physiological measurement.

[11]  James C. Birchall,et al.  Microneedles in Clinical Practice–An Exploratory Study Into the Opinions of Healthcare Professionals and the Public , 2010, Pharmaceutical Research.

[12]  Simon R Corrie,et al.  Surface-modified microprojection arrays for intradermal biomarker capture, with low non-specific protein binding. , 2010, Lab on a chip.

[13]  Thakur Raghu Raj Singh,et al.  Optical coherence tomography is a valuable tool in the study of the effects of microneedle geometry on skin penetration characteristics and in-skin dissolution. , 2010, Journal of controlled release : official journal of the Controlled Release Society.

[14]  Arto Urtti,et al.  Challenges and obstacles of ocular pharmacokinetics and drug delivery. , 2006, Advanced drug delivery reviews.

[15]  Ryan F Donnelly,et al.  Review of patents on microneedle applicators. , 2011, Recent patents on drug delivery & formulation.

[16]  Zhang Yong,et al.  Super-short solid silicon microneedles for transdermal drug delivery applications , 2010 .

[17]  Mark R. Prausnitz,et al.  Intrascleral Drug Delivery to the Eye Using Hollow Microneedles , 2009, Pharmaceutical Research.

[18]  Ajay K Banga,et al.  Microneedles and their applications. , 2011, Recent patents on drug delivery & formulation.

[19]  Nicholas A Peppas,et al.  Microfabricated drug delivery devices. , 2005, International journal of pharmaceutics.

[20]  Jin-Woo Choi,et al.  Disposable smart lab on a chip for point-of-care clinical diagnostics , 2004, Proceedings of the IEEE.

[21]  R H Guy,et al.  Reverse iontophoretic monitoring in premature neonates: feasibility and potential. , 2002, Journal of controlled release : official journal of the Controlled Release Society.

[22]  Gideon Kersten,et al.  Needle-free vaccine delivery , 2007, Expert opinion on drug delivery.

[23]  James D. Campbell,et al.  Needle-free vaccine delivery. , 2006, Advanced drug delivery reviews.

[24]  Ryan F. Donnelly,et al.  Microneedle Arrays Allow Lower Microbial Penetration Than Hypodermic Needles In Vitro , 2009, Pharmaceutical Research.

[25]  Ryan F. Donnelly,et al.  Design, Optimization and Characterisation of Polymeric Microneedle Arrays Prepared by a Novel Laser-Based Micromoulding Technique , 2010, Pharmaceutical Research.