Kevin McHugh's primary research interest is in the development of biomaterial microdevices for drug delivery and tissue engineering. His laboratory combines cutting edge manufacturing techniques (e.g. multi-photon 3D printing) at the nano- and microscale with favorable material properties to facilitate device behavior. By using polymers' well-understood structure-function relationships, McHugh aims to rationally design constructs that demonstrate predictable behavior and can be customized for a variety of applications. New research in the McHugh Lab, which is supported by a $2 million grant from the Cancer Prevention and Research Institute of Texas (CPRIT), aims to apply the controlled-release technology he has developed for vaccines to cancer immunotherapy for the treatment of hepatocellular carcinoma.
Prior to arriving at Rice, McHugh’s research focused on the use of microfabrication, 3D printing and soft lithography to generate drug delivery platforms aimed at improving global health. As a postdoctoral fellow in the laboratory of Robert Langer at the Massachusetts Institute of Technology, McHugh developed two technologies focused on improving vaccination rates in the developing world.
The first created a pulsatile drug delivery platform that could to eliminate the need for multiple injections prior to full immunization. As part of this effort, McHugh and colleagues developed a novel process termed the stamped assembly of polymer layers which enabled the fabrication of polymeric microparticles with a core-shell structure. By controlling the composition of the polymeric shell, he demonstrated the ability to tune drug release from days to months. He then showed that this controlled-release system to achieve an immune response that was more robust after a single injection of microparticles than the response to multiple injections of the antigen. His other postdoctoral project developed an invisible, microneedle-based platform for determining vaccination status in areas of the developing world that lack proper medical recordkeeping.
All of McHugh’s research is focused on developing technologies with the potential to be translated to the clinic. His work has resulted in patents for technology ranging from advanced microscale manufacturing techniques to predictive computational modeling of disease and led to the founding of an early-stage startup company.
The McHugh Lab has three major projects currently ongoing: