Welcome to the website for the Bioelectronics Laboratory
The Bioelectronics Laboratory develops new technology and techniques for neuromodulation. As a part of the Feinstein Institutes for Medical research we partner with other labs to perform preclinical and clinical research to develop new therapies for the growing field of Bioelectronic Medicine. Our medical device technology development focuses on both fully implantable and non-invasive approaches for stimulating the vagus nerve, other peripheral nerve targets, and the brain.
News and Media
We are excited to announce the publication of our paper describing our fully implantable bidirectional neuromodulation system that can be used in mice. Our device is the first-of-it-kind since it is built using only off-the-shelf components and 3D printing. It allows neurostimulation and biopotential recording in freely moving mice, and it can also be recharged wirelessly.
Paper Published on TaVNS Therapy in Systemic Lupus ErythematosusAnnals of the Rheumatic Diseases, BMJ Journals Nov 3, 2020
We are excited to announce the publication of a manuscript examining the effects of Transcutaneous Auricular Vagus Nerve Stimulation in Lupus. This work was a collaborative effort led by our colleague Cindy Aranow at the Feinstein Institutes for Medical Research.
New Commentary PublishedBioelectronic Medicine, BMC Springer Nature Aug 12, 2020
Take a look at our recently published commentary on the use of piezoelectric powered stimulation devices. In this article we discuss some recent contributions to the field for this exciting method of powering implantable devices, and examine the technical challenges and future directions for such devices.
New Mini-Review PublishedBioelectronic Medicine, BMC Springer Nature Mar 31, 2020
Our mini review was just published in the journal Bioelectronic Medicine. In it we discuss some of the exciting new ways that non-invasive vagus nerve stimulation can be used to treat opioid withdrawal. We find that auricular VNS using two new FDA cleared medical devices shows clinical efficacy with lower side effects than pharmacological approaches.
All content here are my personal thoughts and opinions and do not represent the interests of anyone else or any other parties
Copyright 2018-2020 Timir Datta-Chaudhuri