Effect of microneedle on the pharmacokinetics of ketoprofen from its transdermal formulations

Non-invasive transdermal delivery using microneedle arrays was recently introduced to deliver a variety of large and hydrophilic compounds into the skin, including proteins and DNA. In this study, a microneedle array was applied to the delivery of a hydrophobic drug, ketoprofen, to determine if transdermal delivery in rats can be improved without the need for permeation enhancers. The ability of a microneedle to increase the skin permeability of ketoprofen was tested using the following procedure. A microneedle array was inserted into the lower back skin of a rat using a clip for 10 min. Subsequently, 24 mg/kg of a ketoprofen gel was loaded on the same site where the microneedle had been applied. Simultaneously, the microneedle was coated with 24 mg/kg of a ketoprofen gel, and inserted into the skin using a clip for 10 min. As a negative control experiment, only 24 mg/kg of the ketoprofen gel was applied to the shaved lower back of a rat. Blood samples were taken at the indicated times. The plasma concentration (Cp) was obtained as a function of time (t), and the pharmacokinetic parameters were calculated using the BE program. The group loaded with the microneedle coated with ketoprofen gel showed a 1.86-fold and 2.86-fold increase in the AUC and Cmax compared with the ketoprofen gel alone group. These results suggest that a microneedle can be an ideal tool for transdermal delivery products.

[1]  J. Fries,et al.  The relative toxicity of disease-modifying antirheumatic drugs. , 1993, Arthritis and rheumatism.

[2]  M. Allen,et al.  Microfabricated microneedles: a novel approach to transdermal drug delivery. , 1998, Journal of pharmaceutical sciences.

[3]  M. Smith,et al.  The effect of ketoprofen creams on periodontal disease in rhesus monkeys. , 1996, Journal of periodontal research.

[4]  S. Gabriel,et al.  Risk for serious gastrointestinal complications related to use of nonsteroidal anti-inflammatory drugs. A meta-analysis. , 1991, Annals of internal medicine.

[5]  M. Griffin,et al.  Epidemiology of nonsteroidal anti-inflammatory drug-associated gastrointestinal injury. , 1998, The American journal of medicine.

[6]  Manhee Han,et al.  A novel fabrication process for out-of-plane microneedle sheets of biocompatible polymer , 2007 .

[7]  T. Chan,et al.  Nonsteroidal anti-inflammatory drugs, apoptosis, and colon-cancer chemoprevention. , 2002, The Lancet. Oncology.

[8]  U. Schaefer,et al.  Comparison of effects of different ointment bases on the penetration of ketoprofen through heat-separated human epidermis and artificial lipid barriers. , 2003, Journal of Pharmacy and Science.

[9]  Mari Takahashi,et al.  PLGA implant tablet of ketoprofen: comparison of in vitro and in vivo releases. , 2005, Biological & pharmaceutical bulletin.

[10]  Ju-Hyun Kim,et al.  Effect of additives on the crystallization and the permeation of ketoprofen from adhesive matrix. , 2002, International journal of pharmaceutics.

[11]  B. Mazières Topical Ketoprofen Patch , 2005, Drugs in R&D.

[12]  Michael L. Reed,et al.  Microsystems for drug and gene delivery , 2004, Proceedings of the IEEE.

[13]  Mark R Prausnitz,et al.  Microneedles for transdermal drug delivery. , 2004, Advanced drug delivery reviews.

[14]  M. Cormier,et al.  Transdermal Delivery of Antisense Oligonucleotides with Microprojection Patch (macroflux®) Technology , 2001, Pharmaceutical Research.

[15]  M. T. J. Garcia,et al.  Transdermal Delivery of Ketoprofen: The Influence of Drug–Dioleylphosphatidylcholine Interactions , 2006, Pharmaceutical Research.

[16]  D. Barrow,et al.  Microfabricated silicon microneedles for nonviral cutaneous gene delivery , 2004, The British journal of dermatology.

[17]  Y. Tashiro,et al.  Iontophoretic transdermal delivery of ketoprofen: effect of iontophoresis on drug transfer from skin to cutaneous blood. , 2000, Biological & pharmaceutical bulletin.

[18]  Christopher P. Thomas,et al.  In Vitro Transcutaneous Delivery of Ketoprofen and Essential Polyunsaturated Fatty Acids from a Fish Oil Vehicle Incorporating 1,8-Cineole , 2004, Drug delivery.

[19]  C. Heard,et al.  Film drying and complexation effects in the simultaneous skin permeation of ketoprofen and propylene glycol from simple gel formulations. , 2006, International journal of pharmaceutics.

[20]  D. McCarthy Comparative toxicity of nonsteroidal anti-inflammatory drugs. , 1999, The American journal of medicine.

[21]  G. Yener,et al.  Inclusion of ketoprofen with skimmed milk by freeze-drying. , 1999, Farmaco.

[22]  S. Gallagher,et al.  Solvent Content and Macroviscosity Effects on the in vitro Transcutaneous Delivery and Skin Distribution of Ketoprofen from Simple Gel Formulations , 2005, Skin Pharmacology and Physiology.