Advancement in Chronic Disease Management

The Advancement in Chronic Disease Management

Welcome the first bidirectional vagus nerve simulator and sensing device by this bioelectronics medicine scientist. Is this a step up towards advancement in chronic disease management?

Scientists in New York’s largest health care provider has possibly found a way to deal with chronic diseases.

Engineers and Researchers in New York, working in the Institute of Bioelectronics Medicine have added more to the advancement in the medical field. The development of a completely implantable wireless bidirectional vagus nerve stimulation and sensing device is one. The details for this particular device are to publish, outlining the ability to perform bioelectronics medicine research worldwide.

According to Timir Datta, Ph.D., associate professor in the Institute of Bioelectronics Medicine, Neuromodulation, and bioelectronic medicine have the ability and power to treat multiple diseases. What’s amazing its use without the use of traditional pharmaceuticals and their possible side effects. However, the scaling devices that are to be used for studying mice have been a great challenge. He along with his team are leading ways to new discoveries in the field.

Advancement in Chronic Disease Management

With the introduction of this new device, it is possible to get in the ease with the fundamental preclinical studies that can help with future clinical trials. Further, leading to potential revolutionary bioelectronics therapies for needed patients.

The introduction of bioelectronics medicine is an updated approach that will help diagnose and treat disease and injury. The developments in science represent the convergence of neuroimmunology and technology, using electricity to stimulate the nervous system. Coming up with electrical stimulation, scientists have come across the ways how the brain and organs help communicate with the body. This includes how to control inflammation, oxygen, heart rate, and many other similar things.

Conducting the early research on mice, this helps scientists researchers discover alternate therapies including heart failure, crohn’s, and arthritis. This resulted in a number of groundbreaking discoveries related to failing to reach clinical application in the past.

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The Introduction of this new device by Timir Datta and his team ensures the use of various commercially available components and 3D-printed parts. This assured other researchers that they can also establish and make use of such a system. The guidelines to use are in the paper.

Although Bioelectronic medicine research has come up with an advanced strategy for the making of mouse models for human diseases, there are some engineering limitations. It includes affecting the ability to study the effects of device-based therapies in the long run. The good news is that this device is compatible with different types of electrodes and sensors. All of these work with multiple applications other than VNS. This device is rechargeable wirelessly, allowing the mouse free to move and interact with its environment. Thereby, help the researchers to explore and study disease treatment progression.

According to Kevin J.Tracey, MD, President, and CEO of the Feinstein Institute, Whenever a new device enters the medical world, testing on mice help effectively with treating patients.