Overview: Soterix Medical Inc. (SMI) was formed to develop and deploy innovative medical treatments focused on neuropsychiatric and neurological disorders and rehabilitation. Founded in 2008, SMI is the world leader in clinical trials for non-invasive neuromodulation working with over 150 medical centers in the US and worldwide. SMI has licensed and developed a comprehensive intellectual property portfolio that includes High-Definition transcranial Direct Current Stimulation (HD-tDCS), Limited Total Energy tDCS (LTE-tDCS), and Neurotargeting. From the most targeted non-invasive clinical systems to the most portable units, Soterix Medical provides clinicians and patients with unique and adaptable solutions. Ongoing Phase I, II, IIb, and III trials use investigational devices that are regulated/limited by US or Federal law. SMI is proudly based in New York City with international distributors in all major markets.

Engineering Serving Humanity: At Soterix Medical, Engineering Serving Humanity means that we are committed to bring the most advanced medical technology into the hands of people who need it. The commitment underpins everything we do.

tDCS-Limited Total Energy (LTE™) is an exclusive neuromodulation technology developed by Soterix Medical Inc. Invented at The City College of New York, tDCS-LTE is the only tDCS technology platform optimized for robust low-energy Transcranial Direct Current Stimulation. tDCS-LTE is under investigation in susceptible populations including stroke, pediatric, traumatic brain injury, etc. tDCS-LTE is made possible through a proprietary adaptive stimulation limiting the voltage and power required for tDCS. Soterix Medical tDCS-LTE is the only non-invasive neuromodulation technology further optimized for robust deployment in a wide variety of environments including emergency medicine, field-work, home-use, etc.

High Definition tDCS (HD-tDCS) is an exclusive Neuromodulation technology developed by Soterix Medical Inc. Invented at The City College of New York, it is the only technology platform that allows tolerated non-invasive delivery of therapeutic current to desired brain regions. As a result, HD-tDCS offers potential for safe and effective treatment of neuropsychiatric disorders not possible with any other technology. HD-tDCS is made possible through innovations in electrode design allowing safe and tolerated passage of current through proprietary “High-Definition” electrodes, individualized brain current-flow modeling and through patented targeting algorithms indicating how to place and energize HD-electrodes on the head.

CAUTION: Investigational device. Limited by Federal (or US) law to investigational use.

New York, NY