Researchers invent novel microneedle patch

Published: 8-Sep-2014

National University of Singapore research team develops simple technique for faster and more effective delivery of painkiller and collagen

A small adhesive patch topped with minuscule needles pioneered by researchers from the National University of Singapore (NUS) could offer a faster, more effective and painless alternative to injections as well as a way to enable collagen to penetrate deeper into the skin.

The research team, led by Dr Kang Lifeng of the Department of Pharmacy at the NUS Faculty of Science, has successfully developed a simple technique to encapsulate lidocaine or collagen in the tiny needles attached to an adhesive patch. When applied to the skin, the microneedles deliver the drug or collagen rapidly into the skin without any discomfort to the user.

This innovation could be used clinically to administer painkiller non-invasively to patients, or in home care settings for patients suffering from conditions such as diabetes and cancer. In addition, the novel transdermal delivery system could also be used for cosmetic and skincare purposes to deliver collagen to inner skin layers.

Faster delivery of painkillers is key to effective management of acute and chronic pain conditions. Currently, such drugs are mainly administered through invasive injections, or through the use of conventional transdermal patches, which may have limited efficiency due to variability of drug absorption among individuals. To address the clinical gap, Dr Kang, together with Dr Jaspreet Singh Kochhar, who had recently graduated from NUS with a doctorate degree in Pharmacy, and their team members, used a photolithography-based process to fabricate a novel transdermal patch with polymeric microneedles. The tiny needles are encapsulated with the common painkiller lidocaine.

Laboratory experiments showed that the novel microneedles patch can deliver lidocaine within five minutes of application whereas a commercial lidocaine patch takes 45 minutes for the drug to penetrate into the skin. The shorter time for drug delivery is made possible as the miniature needles on the patch create micrometre-sized porous channels in the skin to deliver the drug rapidly. As the needle shafts are about 600µm in length, they do not cause any perceptible pain on the skin.

The patch also comprises a reservoir system to act as channels for drugs to be encapsulated in backing layers, circumventing the premature closure of miniaturised pores created by the microneedles. This facilitates continued drug permeation. In addition, the size of patch could be easily adjusted to encapsulate different drug dosages.

By delivering painkillers faster into the body through the skin, patients could potentially experience faster pain relief. In addition, enabling a larger amount of lidocaine to permeate through the skin could potentially reduce the time needed to apply the patch and this reduces the likelihood of patients developing skin irritation. This novel technique was first reported in the scientific journal Molecular Pharmaceutics.

To expand their research on potential applications of the microneedles patch, the NUS team conducted a study to explore its effectiveness in delivering collagen into skin. The researchers encapsulated collagen in the microneedles and tested the transdermal delivery of collagen using the novel technique. They found that collagen can be delivered up to the dermis layer of the skin, while current skincare products can only deliver to the outermost layer of skin. The findings of this study were first published earlier this year in the scientific journal Pharmaceutical Research.

Further research to expand applications

As their novel technique for drug delivery is non-invasive and easy to use, the NUS team envisioned that it has great potential for the management of perioperative pain and chronic pain in patients suffering from conditions like diabetes and cancer. The innovative patch could also have paediatric applications.

'One prospective application is during vaccination for babies. The patch can be applied on the baby’s arm five minutes before the jab, for the painkiller to set in,' Dr Kang explained. 'In this way, vaccination can potentially be painless for babies.'

The research team intends to conduct clinical testing of the painkiller patch to further ascertain its effectiveness for clinical applications. They will also be conducting clinical studies to examine the efficacy of delivering collagen for cosmetic and skincare purposes.

Recognising that their novel transdermal delivery system is easy to fabricate and commercially scalable, the research team is also keen to work with industry partners to commercialise their work. The researchers have filed a patent for their technique through the NUS Industry Liaison Office, which is part of NUS Enterprise.

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