Charles Sternberg, Associate Editor12.11.23
NeuroOne Medical Technologies Corporation, a medical technology company focused on improving surgical care options and outcomes for patients suffering from neurological disorders, has received U.S. Food and Drug Administration (FDA) 510(k) clearance to market its OneRF Ablation System for creation of radiofrequency (RF) lesions in nervous tissue for functional neurosurgical procedures.
NeuroOne believes their system has the potential to dramatically change the way neurosurgeries are performed so that patients may only need to go through surgery once for both diagnostic and therapeutic procedures. This may also reduce hospital stays, number of surgeries, and adverse events, while offering significant benefits from a clinical perspective.
The addition of temperature control at the point of ablation also may enhance patient safety.
“Our team’s achievement in reaching this milestone was the culmination of years of perseverance, and I could not be more excited for our future. We are now preparing for a commercial launch either directly or through a strategic partner in the first half of calendar 2024,” said Dave Rosa, CEO of NeuroOne.
Robert E. Gross, MD, PhD, chair of the Department of Neurosurgery at New Jersey Medical School and Robert Wood Johnson Medical School added, "The FDA clearance of NeuroOne's OneRF system will provide neurosurgeons with an important new tool in the surgical management of epilepsy, with the ability to provide ablative therapy using already implanted depth electrodes used for diagnosing the epileptic focus as part of stereoEEG. This may lead to improved outcomes for patients with potential for fewer interventions, and an improved therapeutic window."
The OneRF Ablation System is the Company’s first device with a therapeutic indication and its third FDA 510(k)-cleared device. NeuroOne now boasts a full line of electrode technology to address patients requiring diagnostic brain mapping procedures as well as RF ablation using the same sEEG electrode.
In addition to the OneRF Ablation System, NeuroOne’s other FDA-cleared devices include the Evo cortical and sEEG electrode product lines which are used primarily for recording electrical activity in the brain for less than 30 days.
NeuroOne believes their system has the potential to dramatically change the way neurosurgeries are performed so that patients may only need to go through surgery once for both diagnostic and therapeutic procedures. This may also reduce hospital stays, number of surgeries, and adverse events, while offering significant benefits from a clinical perspective.
The addition of temperature control at the point of ablation also may enhance patient safety.
“Our team’s achievement in reaching this milestone was the culmination of years of perseverance, and I could not be more excited for our future. We are now preparing for a commercial launch either directly or through a strategic partner in the first half of calendar 2024,” said Dave Rosa, CEO of NeuroOne.
Robert E. Gross, MD, PhD, chair of the Department of Neurosurgery at New Jersey Medical School and Robert Wood Johnson Medical School added, "The FDA clearance of NeuroOne's OneRF system will provide neurosurgeons with an important new tool in the surgical management of epilepsy, with the ability to provide ablative therapy using already implanted depth electrodes used for diagnosing the epileptic focus as part of stereoEEG. This may lead to improved outcomes for patients with potential for fewer interventions, and an improved therapeutic window."
The OneRF Ablation System is the Company’s first device with a therapeutic indication and its third FDA 510(k)-cleared device. NeuroOne now boasts a full line of electrode technology to address patients requiring diagnostic brain mapping procedures as well as RF ablation using the same sEEG electrode.
In addition to the OneRF Ablation System, NeuroOne’s other FDA-cleared devices include the Evo cortical and sEEG electrode product lines which are used primarily for recording electrical activity in the brain for less than 30 days.