BLADDERSENS: Detecting bladder volume and pressure from sacral nerve signals
An EPSRC-funded research project detecting bladder volume and pressure to aid the management of the urinary bladder following spinal cord trauma.
Planned, ongoing, and completed research projects and campus and service improvements.
An EPSRC-funded research project detecting bladder volume and pressure to aid the management of the urinary bladder following spinal cord trauma.
This Royal Society Mobility Award allows the partners at Bath and Malaysia to join forces to develop novel biosensors for prostate cancer diagnostics.
We are developing disposable, painless glucose quantification patches for developing country diabetic pre-screening.
We are investigating the impact of long-duration spaceflight on immune proteins in blood collected from astronauts on the International Space Station.
We are developing a more realistic human brain cell culture model through microelectrode array and microfluidic circuit integration.
We are developing inkjet-printed electrochemical biosensors for sepsis-related protein biomarker quantification.
We are developing low-cost biosensors for robust cancer diagnostic sensors using a capacitance method with DNA aptamers.