This article presents a miniature shock wave driven micro-jet generator to deliver liquid drugs into human skin, to a controlled depth, with minimal invasion. The device can release the vaccine/drug to the depth of dermal blood vessels, without breaching much of the microcirculation system of dermis. The drug delivery technique is needle-free, which can reduce pain, trauma, and contamination besides minimal dosage and systemic exposure. The device can also be used to deliver liquid or colloidal drugs into soft tissues in human. The mechanical analyses of the device were carried out by analyzing the strength of the impulse of the shock wave, measuring the velocity of the generated jet and capturing the pressure exerted by the jet on the target. The penetrating ability of the jet was investigated by delivering it into sample of human skin and gelatin slabs. Theoretical analyses were carried out on the physics of the delivery and the predicted results had a close agreement with the experimental observations. The development can offer an important cost-effective solution to needle-free health care worldwide. Biotechnol. Bioeng. 2016;113: 2507-2512. © 2016 Wiley Periodicals, Inc.
Keywords: micro-jet injector; needle-free vaccine/drug delivery; shock wave; skin; soft tissue.
© 2016 Wiley Periodicals, Inc.