Tiny, Implantable Device May Treat Bladder Problems

Scientists have developed a tiny, implantable device that has potential to help people with bladder problems bypass the need for medication or electronic stimulators.

The device, developed by researchers from Washington University, University of Illinois at Urbana-Champaign, and Northwestern University in the US, can detect overactivity in the bladder and then use light from tiny, biointegrated LEDs to tamp down the urge to urinate.

The team found that the device works in laboratory rats, and suggests that it may help people who suffer incontinence or frequently feel the need to urinate.

Overactive bladder, pain, burning and a frequent need to urinate are common and distressing problems. For about 30 years, many with severe bladder problems have been treated with stimulators that send an electric current to the nerve that controls the bladder.

Such implants improve incontinence and overactive bladder, but they also can disrupt normal nerve signalling to other organs.

During a minor surgical procedure, they implant a soft, stretchy belt-like device around the bladder. As the bladder fills and empties, the belt expands and contracts. The researchers also inject proteins called opsins into the animals' bladders.

The opsins are carried by a virus that binds to nerve cells in the bladder, making those cells sensitive to light signals. This allows the researchers to use optogenetics - the use of light to control cell behaviour in living tissue - to activate those cells.

Using blue-tooth communication to signal an external hand-held device, the scientists can read information in real time and, using a simple algorithm, detect when the bladder is full, when the animal has emptied its bladder, and when bladder emptying is occurring too frequently.

The researchers believe a similar strategy could work in people. Devices for people likely would be larger than the ones used in rats, and could be implanted without surgery, using catheters to place them through the urethra into the bladder.

Closed-loop operation essentially means the device delivers the therapy only when it detects a problem. When the behaviour is normalised, the micro-LEDs are turned off, and therapy can be discontinued.

Researcher expect to test similar devices in larger animals. The researchers also believe the strategy could be used in other parts of the body - treating chronic pain, for example, or using light to stimulate cells in the pancreas to secrete insulin.

One hurdle, however, involves the viruses used to get light-sensitive proteins to bind to cells in organs.