Deep Brain Stimulation of the Pedunculopontine Nucleus for Alzheimer's Disease

Alzheimer's disease (AD) is a brain disorder that gradually impacts cognitive functions such as memory, thinking, and daily functioning. Gamma oscillations are a type of brain activity thought to play a role in memory and cognition (thinking abilities). In AD, these oscillations are impaired - meaning they are smaller and slower than the brain waves observed in healthy individuals. Research suggests that enhancing these brain waves may help slow the progression of AD. This research is investigating a technique called deep brain stimulation (DBS) of the pedunculopontine nucleus (PPN) as an experimental intervention. An electrode will be implanted in the PPN and deliver mild stimulation over the course of a 12-month period. As a novel intervention, the priority of the study is to determine if DBS-PPN is a safe and feasible intervention for mild-AD. Additionally, the study investigators are evaluating whether DBS-PPN can increase natural gamma oscillations in ways that improve memory and cognition. The insights from this study will guide the design of an accessible larger trial to more definitively assess how effective DBS-PPN could be as a treatment for AD. Participants will: * Undergo a 12-month experimental intervention involving DBS of the PPN. The procedure for implanting the DBS device takes approximately 2-3 hours under general anesthesia, followed by an overnight stay in the hospital for safety monitoring. * Be required to attend regular appointments every 3 months from DBS implantation for the duration of the study. The follow-up visits will include safety and feasibility monitoring, brain scans (EEG and MEG), and cognitive assessments/questionnaires. * Participants' caregiver will also complete questionnaires about their cognition, functioning, and overall health at the follow-up visits.

Alzheimer's disease (AD) is a progressive neurodegenerative disorder that gradually impairs memory, cognitive abilities, and daily functioning, placing a significant burden not only on patients but also on caregivers and the healthcare system. Despite extensive research, current treatments provide only symptomatic relief without halting or reversing the disease's progression. This study investigates a novel approach using deep brain stimulation (DBS) to target the pedunculopontine nucleus (PPN), a region involved in generating and regulating gamma oscillations across the brain. DBS is a neurosurgical procedure that utilizes stereotactic techniques to implant an electrode in a specific brain target, delivering electrical stimulation via a pulse generator. By stimulating the PPN, the study intervention aims to enhance gamma activity, potentially improving memory and cognition in AD patients. Preclinical studies have demonstrated that gamma enhancement has disease modifying effects in AD. Furthermore, DBS-PPN has shown cognitive improvements in Parkinson's dementia patients with a firmly established safety profile. This pilot study is designed as a single-centre, single-cohort, open-label, non-randomized prospective clinical trial. The open-label nature means that both the researchers and the participants will be aware of the intervention being administered. The trial will recruit a small group of participants (N=6) with AD (amnestic subtype), to evaluate the safety, feasibility, and preliminary efficacy of DBS-PPN in treating AD. Each participant will serve as their own control, with outcome measures compared from before DBS implantation, and at regular follow-up visits over a 12-month period. The primary outcomes will focus on safety and feasibility metrics, serving to inform the design of a subsequent RCT. The secondary outcomes will assess electrophysiological (EEG and MEG) and cognitive measures, providing proof-of-concept for the potential disease-modifying effects of DBS-PPN.