by jshe074 | Jun 22, 2022 | DDS Projects
Development of an ultrasound-responsive implant to treat spinal cord injury Spinal cord injury is devastating and presently incurable. Treatment outcomes of the injury may be improved by creating a drug eluting implant that can be placed near the spinal cord and...
by jshe074 | Feb 17, 2021 | DDS Projects
An in vitro organoid model of spinal cord injury to accelerate the translation of basic science to successful clinical outcomes Spinal cord injury is a devastating condition that significantly compromises quality of life. Currently, there are few treatment options...
by jshe074 | Dec 10, 2020 | DDS Projects
Treating spinal cord injury using a novel bioelectronic implant Spinal cord injury (SCI) is a devastating condition that can result in permanent neurological impairment, and there are currently no regenerative therapies available. Our group is currently testing a thin...
by jshe074 | Dec 10, 2020 | DDS Projects
Real-time monitoring of spinal electrical activity in rats for treating spinal cord injury We are establishing a new bioelectronic spinal implant in rats, to monitor electrical activity around a spinal cord injury and provide sustained regenerative treatments directly...
by jshe074 | Dec 10, 2020 | DDS Projects
Design of stimuli-responsive gel systems On-demand drug delivery is highly sought after in a range of therapeutic applications. Gel formulations are an ideal vehicle here as it is possible to tune the rate of drug release from these systems using a variety of...
by jshe074 | Dec 10, 2020 | DDS Projects
Development of therapeutic microbubbles Delivery of gaseous therapeutic molecules is challenging due to difficulties in maintaining formulation stability and achieving dose consistency. It may be possible to overcome these shortfalls by incorporating the gases into...
