La stimulation cérébrale pourrait aider à traiter la maladie d’Alzheimer

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Stimulation cérébrale profonde pour la maladie d'Alzheimer

Chez les personnes atteintes de la maladie d’Alzheimer, l’effet positif le plus important a été observé lors de la stimulation de la région située entre le fornix (vert) et le noyau du lit de la strie terminale (bleu). Sont également représentés deux structures cérébrales – le thalamus (rose) et l’hippocampe (jaune) – ainsi que les électrodes de stimulation. Crédit : © Charité | Ana Sofía Ríos

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Des chercheurs de la Charité ont découvert un réseau cérébral qui, lorsqu’il est stimulé, peut atténuer les symptômes.

Nature Communications, provides hope for further research in this area.

Deep brain stimulation (DBS) is a therapeutic technique that is already authorized in Germany to treat neurological movement disorders such as Parkinson’s disease and dystonia, as well as neuropsychiatric conditions like obsessive-compulsive disorder. In DBS, thin electrodes are implanted in the patient’s brain and deliver constant, mild electrical pulses to a specific area.

The electrodes remain in the brain permanently and are connected via wires that run under the skin to a pacemaker-like device implanted in the chest area. The device is used to adjust the strength and frequency of the electrical stimulation.

“Although DBS has been an established treatment for Parkinson’s disease for a good 20 years now, and the costs are covered by health insurance providers, it’s still not a very well-known therapy,” says Prof. Andreas Horn, head of a lab that explores network-based brain stimulation at the Department of Neurology and Experimental Neurology at Campus Charité Mitte, and at Brigham and Women’s Hospital and Massachusetts General Hospital, both affiliates of Harvard Medical School in Boston, USA.

“DBS works very well in patients with Parkinson’s,” he says. “It improves their quality of life significantly.”

Since Alzheimer’s is also a neurodegenerative disease, it seems likely that DBS could be used to treat this condition, too. But safe, effective treatment is only possible if the precise brain regions that require stimulation are known.

The starting point for the current study, which the researchers carried out in close cooperation with multiple partners including the University of Toronto in Canada, was a random observation made within a Canadian study. “In one patient, who was being treated for obesity, deep brain stimulation caused flashbacks – sudden memories of their childhood and adolescence,” says Dr. Ana Sofía Ríos from the Department of Neurology and Experimental Neurology at Campus Charité Mitte, and the study’s lead author. “This led the Canadian researchers to suspect that stimulating this brain region, which was located in the fornix, might also be suitable for treating Alzheimer’s.”

To investigate this further, researchers working at seven international centers as part of a multicenter study implanted electrodes in the same area of the fornix in participants with mild Alzheimer’s disease. “Unfortunately, most patients showed no improvement in their symptoms. But a handful of participants benefited considerably from the treatment,” says Dr. Ríos. “In the present study, we wanted to find the root cause of these differences, so we compared the exact position of the electrodes in each participant.”

Prof. Horn’s research group has specialized in analyzing high-resolution magnetic resonance images of the brain and combining these with computer models to precisely pinpoint the optimal locations for DBS.

“One of the main challenges is that every brain is different – and that’s really important for accurately planting the electrodes,” says Prof. Horn. “When electrodes are placed even a few millimeters off target, it could lead to a lack of benefit for the patient.” This was what happened for most of the study participants. But Prof. Horn and his team were able to use imaging data to determine the exact position of the electrodes in the patients that profited from the procedure.

“The optimal stimulation site seems to be the intersection of two fiber bundles – the fornix and stria terminalis – that connect regions deep in the brain. Both structures have been linked to memory function,” says Prof. Horn.

Further clinical studies are needed before DBS can be approved and used to treat Alzheimer’s disease. The present results are an important next step in the process. “If our data make it possible to place electrodes more precisely in neurosurgical studies trialing DBS in Alzheimer’s patients, that would be fantastic,” says Prof. Horn. “We desperately need an effective therapy that alleviates the symptoms of this disease – and DBS is very promising.”

Going forward, the Horn laboratory will conduct further studies to investigate and define other neural networks in the brain that could be useful in treating dementia. Their work will include examining areas of brain lesions and identifying target regions for both DBS and other methods of neurostimulation.

Reference: “Optimal deep brain stimulation sites and networks for stimulation of the fornix in Alzheimer’s disease” by Ana Sofía Ríos, Simón Oxenford, Clemens Neudorfer, Konstantin Butenko, Ningfei Li, Nanditha Rajamani, Alexandre Boutet, Gavin J. B. Elias, Jurgen Germann, Aaron Loh, Wissam Deeb, Fuyixue Wang, Kawin Setsompop, Bryan Salvato, Leonardo Brito de Almeida, Kelly D. Foote, Robert Amaral, Paul B. Rosenberg, David F. Tang-Wai, David A. Wolk, Anna D. Burke, Stephen Salloway, Marwan N. Sabbagh, M. Mallar Chakravarty, Gwenn S. Smith, Constantine G. Lyketsos, Michael S. Okun, William S. Anderson, Zoltan Mari, Francisco A. Ponce, Andres M. Lozano and Andreas Horn, 14 December 2022, Nature Communications.
DOI: 10.1038/s41467-022-34510-3

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