Manually Actuated Device Capable of On-demand/Programmed Pulsatile Drug Delivery

Diurnal variation in enzymes, hormones, and other biological mediators has long been recognized in mammalian physiology. Developments in pharmacobiology over the past few decades have shown that timing drug delivery can enhance drug efficacy. Here, we report the development of a battery-free, refillable, subcutaneous, and trocar-compatible implantable system that facilitates chronotherapy by enabling tight control over the timing of drug administration in response to external mechanical actuation. The external wearable system is coupled to a mobile app to facilitate control over dosing time. Using this system, we show the efficacy of bromocriptine on glycemic control in a diabetic rat model. We also demonstrate that antihypertensives can be delivered through this device, which could have clinical applications given the recognized diurnal variation of hypertension-related complications. We anticipate that implants capable of chronotherapy will have a substantial impact on our capacity to enhance treatment effectiveness for a broad range of chronic conditions.

Researchers

Carlo Giovanni Traverso / Jason Li / Rebecca McManus / Seungho Lee / Adam Wentworth / Qianqian Wan

Departments: Department of Mechanical Engineering, David H Koch Institute for Integrative Cancer Res
Technology Areas: Biotechnology: Biomedical Devices & Systems
Impact Areas: Healthy Living

  • actuatable device for pulsatile drug delivery
    United States of America | Published application

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