【 摘 要 】

Microneedles have been developed as a minimally invasive alternative to painful hypodermic needles to deliver modern biotherapeutics.Previously, several in-vitro and in-vivo animal studies have been conducted to show that microneedles increase skin permeability to a wide range of molecules that cannot cross the skin using conventional transdermal patches due to the skin's stratum corneum barrier.However, only a limited number of studies have been performed to study microneedle-based drug delivery in human subjects.Therefore, the objective of this study was to perform the first-in-humans microneedle studies to: a) characterize skin repair responses to solid microneedle insertion to determine the extent of increased skin permeability coupled with predictions of pharmacokinetics of drug delivered through premeabilized skin, b) determine the effect of hollow microneedle-based infusion parameters on flow conductivity of skin and pain and thereby identify barriers to fluid flow into the skin from hollow microneedles, c) assess the safety and efficacy of systemic therapeutic effects through measurement of pharmacokinetic parameters, pain and irritation for microneedle-based insulin delivery in type 1 diabetes subjects, and d) assess the safety and efficacy of local therapeutic effects though delivery of lidocaine to the skin.Results showed for the first time that solid microneedle-treated skin reseals rapidly (< 2 h) in the absence of occlusion whereas occluded skin reseals slowly (3-40 h) depending on microneedle geometry as determined by skin impedance measurements.Increased microneedle length, number, and cross-sectional area led to slower recovery kinetics in the presence of occlusion.This thesis also demonstrated that the flow conductivity of skin decreased as fluid was infused to the dermis through hollow microneedles due to the dense structure of the dermis.Microneedle retraction, low flow rates, and the addition of hyaluronidase helped increase flow conductivity.Microneedles were able to deliver 800 µl of saline to the dermis without causing significant pain.Further, microneedle-based insulin delivery in type 1 diabetes subjects revealed that microneedles provided faster pharmacokinetics and improved glycaemic control than conventional subcutaneous catheters.Lastly, microneedle-based lidocaine injection demonstrated that microneedles were less painful, as effective, and more preferred than hypodermic needles in anesthetizing clinically relevant areas.

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