Fibrous PCL / electrospun PCL / Bausch & Lomb / US Army Research Laboratory / /
Facility
US Army Research Laboratory / Patrick T. Mather Syracuse Biomaterials Institute / Syracuse University / Syracuse Biomaterials Institute / Chemical Engineering Syracuse University / /
IndustryTerm
nitric oxide using nanoscale media / drug carrier / electricity / chemical engineering / soft tissue applications / degradable shapememory polymer network / smart rubber / vascular applications / biomedical devices / microfluidic devices / healthcare / /
MedicalCondition
strain / /
MedicalTreatment
drug carrier / drug delivery system / minimally invasive surgery / drug therapies / /
Organization
Society of Plastics Engineers / Food and Drug Administration / National Science Foundation / United States Army / Syracuse Biomaterials Institute / Biomedical and Chemical Engineering Syracuse University Syracuse / Department of Biomedical / Patrick T. Mather Syracuse Biomaterials Institute / Syracuse University / /
Person
A. G. Krasznai / V / Patrick T. Mather / G. A. Ameer / L. Carbajal / Ifeanyi U. Onyejekwe / Melodie I. Lawton / Nat / M. Concepcion Serrano / /
Position
Professor of Biomedical and Chemical Engineering / Author Information Melodie / director / engineer / /
Product
RhB / /
Technology
drug delivery / biomaterials / drug delivery system / crystallization / /
speproTunable drug delivery from a smart rubber composite Melodie I. Lawton and Patrick T. Mather