Depression is a common, recurrent and disabling disorder. Among patients with a chronic course of the disease, 20 to 30% are resistant to antidepressant medications. Among those patients, 50% would not benefit from electroconvulsive therapy (ECT). For such patients, deep brain stimulation (DBS) of nucleus accumbens is considered.
Depression is a common (12-Month Prevalence in the general population: 6%), recurrent and disabling disorder. Among patients with a chronic course of the disease, 20 to 30% are resistant to antidepressant medications. Among those patients not responding favorably to antidepressant medications, 50% would not benefit from ECT. For such patients, surgical interventions have been proposed in the past. Many results support the hypothesis of a dysfunction of the functional loops between cortical and subcortical structures underlying the expression of depressive disorders. Thus, therapeutic intervention focusing on these loops, in patients with chronic depression resistant to treatment, should be an issue and could improve prognosis of these patients. As part of a maximal resistance to antidepressant drug, after failure of a series of bilateral ECT, a surgical functional intervention using DBS of nucleus accumbens is considered. This open-label trial proposes to assess feasibility, safety and efficacy of DBS of nucleus accumbens in patients with chronic depression.
Study Type
OBSERVATIONAL
Enrollment
6
* Day0 : surgical placement of electrodes * M1 : stimulation of nucleus accumbens * M5 : stimulation of nucleus accumbens or associative territory of caudate nucleus (if no response observed with nucleus accumbens stimulation)
Grenoble University Hospital (Nord Hospital)
Grenoble, France, France
Bordeaux UH
Bordeaux, France
Gabriel montpied University Hospital
Clermont-Ferrand, France
Lille UH (Roger Salengro Hospital)
Lille, France
response after four months (M5) of DBS months defined as a 50% decrease in HDRS score
The primary outcome is response after four months (M5) of DBS months defined as a 50% decrease in HDRS score.
Time frame: At 5 months after the DBS
Remission (defined as a score in the HDRS ≤ 7) after 4 months
Time frame: At 5 months after the DBS
Duration of remission in the year of postoperative follow-up
Time frame: at one year of postoperative follow-up
Obtaining an overall score on the scale Anxiety Hamilton (HARS) ≤ 10 during the year of postoperative follow-up
Time frame: at one year of postoperative follow-up
Getting a score from 1 ("very much improved") or 2 ("strongly improved ") to item 2 of the Clinical Global Impression (CGI) during the year of postoperative follow-up
Time frame: at one year of postoperative follow-up
Obtaining a score ≥ 60 at the level of Global Assessment of Functioning (GAF) during the year of postoperative follow-up
Time frame: at one year of postoperative follow-up
Changes in score on the scale of social adjustment in its self-assessment by (SAS-SR) in the year of postoperative follow-up
Time frame: at one year of postoperative follow-up
Evaluation of tolerance to treatment by clinicians, and by the patient and his family circle, reporting by the patient for adverse events at each follow-up visits after surgery, completion of the initial neuropsychological checkup
Time frame: at each follow-up visits after surgery
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Lyon UH (Pierre Wertheimer Hospital)
Lyon, France
La Salpétrière UH
Paris, France
Sainte Anne UH
Paris, France
Poitiers UH
Poitiers, France
Rennes UH
Rennes, France
Toulouse UH
Toulouse, France
Effect of DBS at M9 after the DBS on caudate nucleus in case of non response at M5 after the DBS.
The same scales (as described before) will be used at M9, to describe the effect of DBS on caudate nucleus.
Time frame: at 9 months after the DBS