Research ArticleDrug Delivery

First-in-Human Testing of a Wirelessly Controlled Drug Delivery Microchip

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Science Translational Medicine  22 Feb 2012:
Vol. 4, Issue 122, pp. 122ra21
DOI: 10.1126/scitranslmed.3003276

Forget About It

“Remind me to take my medicine” are often the famous last words of someone who, incidentally, forgets to take his or her medication. Adherence to a treatment plan, or “compliance,” is a major challenge for complicated drug regimens, where patients may be ingesting or injecting several medications per day; sometimes, for years. Now, Farra and colleagues have made great strides in solving this compliance problem by developing an implantable microchip that delivers drugs for you. The best part about this device? It is wirelessly controlled by your doctor, so you can literally forget about your daily doses.

In this first-in-human trial, Farra et al. implanted a drug delivery microchip subcutaneously into eight postmenopausal women with osteoporosis. The microchip-based device is only about the size of a watch face, but was able to deliver microgram quantities of an anti-osteoporosis drug once daily for up to 3 weeks. A computer-based programmer communicated wirelessly with the device to confirm proper operation (no malfunction). The authors monitored the pharmacokinetics of the drug during patient visits to the clinic and found that the profiles were similar after implant-mediated release or after multiple injections of the drug. Finally, by measuring several bone markers, the authors indicated that not only was the device releasing intact drug on schedule, but also that the drug was performing its intended function: promoting bone growth to reverse the loss that is characteristic of osteoporosis.

The women in the clinical trial reported that they were satisfied with the size and function of the device, that the implant site was comfortable, and that they would repeat the procedure to implant a “fresh” microchip. Although the implanted device needs additional engineering for higher number of doses, this controlled-release microchip developed by Farra and colleagues represents an important shift in drug delivery, wherein patients with chronic diseases, such as diabetes or osteoporosis, can adhere to their complex treatment plan without compromising quality of life.

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