Engineers have taken their transient pacemaker and integrated it into a coordinated network of four soft, flexible, wireless wearable sensors and control units placed on different anatomically ...

It's a problem nobody wants to talk about, suffering in silence and embarrassment. Of the 25 million Americans living with incontinence, 80% are women. But a pacemaker for the bladder may be the ...

Last year, scientists at Northwestern University announced a transient pacemaker that dissolves when no longer needed. They've now improved the device, and incorporated it into a linked suite of ...

Researchers at Northwestern University just found a way to make a temporary pacemaker that’s controlled by light—and it’s smaller than a grain of rice. A study on the new device, published last week ...

Two pacemakers in the brain work together in harmony to ensure that breathing occurs in a regular rhythm, according to new research from MIT scientists. That cooperation provides critical backup ...

Motor activity in the intestine comprises propulsion (to move contents forward) and segmentation (to mix contents for absorption of nutrients). The underlying mechanisms to control the 'switch' from ...

Almost all pacemakers use wires to send electrical signals that help your heart beat normally. Most patients will never experience problems or complications from these life-saving devices. But for a ...

Defibrillators use electrical shocks to restore a normal heart rate, especially in cases of life threatening arrhythmias or sudden cardiac arrest, while pacemakers use low-energy electrical pulses to ...

Last summer, Northwestern University researchers introduced the first-ever transient pacemaker — a fully implantable, wireless device that harmlessly dissolves in the body after it’s no longer needed.

Two pacemakers in the brain work together in harmony to ensure that breathing occurs in a regular rhythm, according to new research. That cooperation provides critical backup during respiratory stress ...