Responsive Neurostimulation for Post-Traumatic Stress Disorder

Summary

Post-traumatic stress disorder (PTSD) refractory to treatment is marked by failure of fear extinction and its biological substrate, amygdala reactivity to trauma reminders. Decades of research have clarified the neuronal mechanisms coordinating fear extinction and consolidation. Fear cells and extinction cells in the basolateral amygdala (BLA) alter their firing rate based on the nature of the stimulus and the influence from the medial prefrontal cortex (mPFC) and the ventral hippocampus (vHPC). Together, the BLA, mPFC, and the vHPC form an anxiety-processing network where the BLA links stimulus to emotion, the vHPC provides memory context, and the mPFC coordinates extinction or consolidation. Local field potential (LFP) recordings from the BLA have revealed specific signals that correspond to an enhanced fear state. Previous studies have shown that neuromodulation of the BLA can promote extinction in a rodent model and in a treatment-refractory PTSD patient. This action is likely carried by disrupting fear signals within the BLA; however, continuous neurostimulation may also disrupt normal function of the amygdala. The present application proposes to investigate the use of Responsive Neurostimulation (RNS, Neuropace) in six (6) veterans suffering from severe treatment-resistant PTSD. This dual-activity device will allow us to chronically record LFPs from the BLA under specific conditions such as fear conditioning, exposure to trauma reminders, and emotional memory encoding and retrieval. In addition, the neural activity will be captured during real-life symptoms of flashback and nightmares. These recordings will provide the specific electrophysiological biomarkers of hypervigilance and re-experiencing. The device will then be programmed to detect and treat these biomarkers with a pre-determined electrical pulse. The patients will be followed prospectively using psychological scales but also with functional neuroimaging and electroencephalograms. These modalities will be used to determine the extent of circuit engagement as a result of the therapy. By approaching PTSD from a fear processing mechanism perspective, our project will serve as a proof of concept for other circuit-based therapies in psychiatry. This proposal is a multi-departmental effort involving 11 investigators across 7 departments and requires a close collaboration between clinical and basic scientists. As a result, the findings underlying chronic recordings will bridge the basic science results from fear conditioning research to clinical neural processes in PTSD patients.

Conditions

• Post-Traumatic Stress Disorder

Interventions

DEVICE

NeuroPace® RNS® System

In this intervention, patients suffering from PTSD undergo a surgical procedure to implant the responsive neurostimulation device (RNS, NeuroPace). This procedure involves the placement of a depth lead bilaterally in the amygdala and hippocampus following a trans-occipital trajectory. The two leads are then connected to a pulse generator fixated to the skull. RNS is able to detect specific signals from the target and to respond with a programmed electrical stimulation. One month after the implantation of the system, the patients will undergo 3 tasks: a fear conditioning task, the international affective picture system and the subsequent memory recall paradigm. These tasks will yield electrophysiological biomarkers of arousal and re-experiencing. We will then program RNS to detect and respond to those biomarkers. The patients will be followed longitudinally for improvement and evidence of target engagement as seen on cerebral metabolism and global electroencephalography.

Sponsors & Collaborators

• University of California, Los Angeles

  collaborator OTHER

• VA Greater Los Angeles Healthcare System

  lead FED

Study Design

Allocation

NA

Purpose

TREATMENT

Masking

NONE

Model

SINGLE_GROUP

Eligibility

Min Age

25 Years

Max Age

60 Years

Sex

MALE

Healthy Volunteers

No

Timeline & Regulatory

Start

2021-03-22

Primary Completion

2026-07-31

Completion

2026-07-31

FDA Device

Yes

Countries

• United States

Study Locations