Correction: Association of Rare Genetic Variants in Opioid Receptors with Tourette Syndrome.

[This corrects the article DOI: 10.5334/tohm.464.].

Judith Balkányi-Lepintre (1912-1982): first woman neurosurgeon, first woman war neurosurgeon, and first woman pediatric neurosurgeon in France.

Recently, a series of historical reports portrayed the first women neurosurgeons in various countries. One such woman, a pioneer on many levels, remained unrecognized: Judith Balkányi-Lepintre. She was the first woman neurosurgeon in France, the first woman war neurosurgeon for the French Army, and the first woman pediatric neurosurgeon in France. Born in 1912 to a Hungarian Jewish family, she graduated with honors from medical school in Budapest in 1935, then moved to Paris where she started neurosurgical training in 1937 at L'Hôpital de la Pitié under the mentorship of Clovis Vincent, the founder of French neurosurgery. Shortly after marrying a French colleague in 1940, she had to escape the Geheime Staatspolizei (Gestapo) in Paris and ended up in Algeria, where she joined the French Army of De Gaulle. As a neurosurgeon, she participated in the campaigns of Italy and France between 1943 and 1945. After the war, she returned to work at La Pitié Hospital. In 1947, she defended her doctoral thesis, "Treatment of cranio-cerebral wounds by projectiles and their early complications." Soon thereafter, she joined Europe's first dedicated children's hospital, Hôpital Necker-Enfants Malades in Paris, and contributed to the establishment of pediatric neurosurgery in France. She remained clinically and academically active at Necker until her death in 1982 but was never promoted.

[The genesis of neurosciences: Between technosciences and innovation diplomacy, from the 1940s to the 1970s]. / La genèse des neurosciences - Entre technosciences* et diplomatie de l'innovation**, des années 1940 aux années 1970.

TITLE: La genèse des neurosciences - Entre technosciences* et diplomatie de l'innovation**, des années 1940 aux années 1970. ABSTRACT: À partir des années 1940, plusieurs dynamiques permirent de renforcer le champ des sciences du cerveau et du système nerveux dans un processus interdisciplinaire, favorisé par l'idée que les biochimistes viendraient désormais éclairer les mécanismes physiologiques du système nerveux. Plus globalement, des grands programmes de recherche comme le projet Manhattan*** ou bien la réalisation de l'ENIAC (electronic numerical integrator and computer), avaient mis en évidence l'interpénétration, sans dépendance unilatérale de l'une à l'égard de l'autre, des sciences et des techniques. L'illusion d'une technique « appliquant ¼ les découvertes scientifiques s'évanouit alors. Le concept de « technosciences ¼*, en permettant de sortir de cette dichotomie, permet de mieux comprendre comment, entre les années 1940 et 1970, diverses trajectoires convergèrent pour donner naissance aux « neurosciences modernes ¼ [1, 2].

[The origins of neuroscience: Heritage and foundations, from the 19th century to the 1940s]. / Aux origines des neurosciences - L'héritage et les fondations, du XIXe siècle aux années 1940.

TITLE: Aux origines des neurosciences - L'héritage et les fondations, du XIXe siècle aux années 1940. ABSTRACT: Depuis les bosses crâniennes censées refléter le caractère (une théorie désignée sous le nom de théorie de la phrénologie) jusqu'au « cerveau électrique ¼, en passant par l'avènement de la théorie neuronale, l'histoire du cerveau et du système nerveux du début du XIXe siècle jusqu'aux années 1940 révèle un large éventail, tant au regard de la pluralité des disciplines et des techniques utilisées qu'à celui des acteurs multiples qui s'y intéressent ; et cela, des sciences populaires aux instituts de recherche les plus réputés. La relation avec les sociétés est fondamentale : controverses, médiatisation et contestation des pratiques médicales, guerres, mais aussi innovations techniques, institutionnalisation et internationalisation croissantes de ces champs scientifiques. C'est dans ce passé pluriel que les neurosciences contemporaines puisent leurs origines.

Freezing of gait (FOG) in Parkinson's disease patients-the contribution of Garcin and Melaragno.

Raymond Garcin, professor of neurology in Paris, France, and his Brazilian assistant, Professor Roberto Melaragno described in 1948 the phenomenon defined as "bégaiement de la mise en route du mouvement" in patients with Parkinson's disease. This was one of the first descriptions of freezing of gait (FOG) in the world.

Amyloid-ß in Alzheimer's Disease: A Study of Citation Practices of the Amyloid Cascade Hypothesis Between 1992 and 2019.

The amyloid cascade hypothesis (ACH) has dominated contemporary biomedical research into Alzheimer's disease (AD) since the 1990 s but still lacks definitive confirmation by successful clinical trials of anti-amyloid medicines in human AD. In this uncertain period regarding the centrality of amyloid-ß (Aß) in AD pathophysiology, and with the community apparently divided about the ACH's validity, we used citation practices as a proxy for measuring how researchers have invested their belief in the hypothesis between 1992 and 2019. We sampled 445 articles citing Hardy & Higgins (1992, "HH92") and classified the polarity of their HH92 citation according to Greenberg (2009)'s citation taxonomy of positive, neutral, and negative citations, and then tested four hypotheses. We identified two major attitudes towards HH92: a majority (62%) of neutral attitudes with consistent properties across the time period, and a positive attitude (35%), tending to cite HH92 earlier on within the bibliography as time went by, tending to take HH92 as an established authority. Despite the majority of neutral HH92 citations, there was a positive majority of attitudes toward different versions of the ACH and anti-amyloid therapeutic strategies (65%), suggesting that the ACH has been dominant and has undergone significant refinement since 1992. Finally, of those 110 original articles within the sample also testing the ACH empirically, an overwhelming majority (89%) returned a pro-ACH test result, suggesting that the ACH's central claim is reproducible. Further studies will quantify the extent to which results from different methods within such original studies convergence to provide a robust conclusion vis-à-vis Aß's pathogenicity in AD.

Association of Rare Genetic Variants in Opioid Receptors with Tourette Syndrome.

Background: Genes involved in Tourette syndrome (TS) remain largely unknown. We aimed to identify genetic factors contributing to TS in a French cohort of 120 individuals using a combination of hypothesis-driven and exome-sequencing approaches. Methods: We first sequenced exons of SLITRK1-6 and HDC in the TS cohort and subsequently sequenced the exome of 12 individuals harboring rare variants in these genes to find additional rare variants contributing to the disorder under the hypothesis of oligogenic inheritance. We further screened three candidate genes (OPRK1, PCDH10, and NTSR2) preferentially expressed in the basal ganglia, and three additional genes involved in neurotensin and opioid signaling (OPRM1, NTS, and NTSR1), and compared variant frequencies in TS patients and 788 matched control individuals. We also investigated the impact of altering the expression of Oprk1 in zebrafish. Results: Thirteen ultrarare missense variants of SLITRK1-6 and HDC were identified in 12 patients. Exome sequencing in these patients revealed rare possibly deleterious variants in 3,041 genes, 54 of which were preferentially expressed in the basal ganglia. Comparison of variant frequencies altering selected candidate genes in TS and control individuals revealed an excess of potentially disrupting variants in OPRK1, encoding the opioid kappa receptor, in TS patients. Accordingly, we show that downregulation of the Oprk1 orthologue in zebrafish induces a hyperkinetic phenotype in early development. Discussion: These results support a heterogeneous and complex genetic etiology of TS, possibly involving rare variants altering the opioid pathway in some individuals, which could represent a novel therapeutic target in this disorder.

Programming parameters of subthalamic deep brain stimulators in Parkinson's disease from a controlled trial.

BACKGROUND: Programming algorithms have never been tested for outcome. The EARLYSTIM study showed superior outcomes of deep brain stimulation of the subthalamic nucleus (STN-DBS) over best medical treatment in early Parkinson's disease (PD). Patients were programmed according to common guidelines but customized for each patient. METHODS: Stimulation parameters were systematically documented at 1, 5, 12, and 24 month in the cohort of 114 patients who had bilateral STN-DBS at 24 month. We investigated the influence of atypical programming, changes of stimulated electrode contacts and stimulation energy delivered. Outcomes were the Unified Parkinson's Disease Rating Scale (UPDRS) motor and ADL-subscores, health-related quality of life (PDQ-39) summary index and mobility- and ADL-subscores. RESULTS: At 1/5/12/24 months follow up, mean amplitude (1.8/2.5/2.6/2.8 V), impedance (1107/1286/1229/1189 Ω) and TEED (33.7/69.0/84.4/93.0 V2*µs*Hz/Ω) mainly increased in the first 5 months, while mean pulse width (60.0/62.5/65.1/65.8 µs), frequency (130/137.7/139.1/142.7 Hz) remained relatively stable. Typical programming (single monopolar electrode contact) was used in 80.7% of electrodes. Double monopolar (11/114) and bipolar (2/114) stimulation was only rarely required. There was no significant difference in clinical outcomes between the patient groups requiring contact changes (n = 32/28.1%) nor between typical (n = 83/72.8%) versus non-typical programming. Energy used for STN-DBS was higher for the dominant side of PD. CONCLUSION: In the first 5 months an increase in amplitude is required to compensate for various factors. Monopolar stimulation is sufficient in 80% of patients at 24 months. Homogeneous stimulation strategies can account for the favorable outcomes reported in the Earlystim study.

Axial symptoms predict mortality in patients with Parkinson disease and subthalamic stimulation.

OBJECTIVE: To characterize how disease progression is associated with mortality in a large cohort of patients with Parkinson disease (PD) with long-term follow-up after subthalamic nucleus deep brain stimulation (STN-DBS). METHODS: Motor and cognitive disabilities were assessed before and 1, 2, 5, and 10 years after STN-DBS in 143 consecutive patients with PD. We measured motor symptoms "off" and "on" levodopa and STN-DBS and recorded causes of death. We used linear mixed models to characterize symptom progression, including interactions between treatment conditions and time to determine how treatments changed efficacy. We used joint models to link symptom progression to mortality. RESULTS: Median observation time was 12 years after surgery, during which akinesia, rigidity, and axial symptoms worsened, with mean increases of 8.8 (SD 6.5), 1.8 (3.1), and 5.4 (4.1) points from year 1-10 after surgery ("on" dopamine/"on" STN-DBS), respectively. Responses to dopaminergic medication and STN-DBS were attenuated with time, but remained effective for all except axial symptoms, for which both treatments and their combination were predicted to be ineffective 20 years after surgery. Cognitive status significantly declined. Forty-one patients died, with a median time to death of 9 years after surgery. The current level of axial disability was the only symptom that significantly predicted death (hazard ratio 4.30 [SE 1.50] per unit of square-root transformed axial score). CONCLUSIONS: We quantified long-term symptom progression and attenuation of dopaminergic medication and STN-DBS treatment efficacy in patients with PD and linked symptom progression to mortality. Axial disability significantly predicts individual risk of death after surgery, which may be useful for planning therapeutic strategies in PD.

Quality of life predicts outcome of deep brain stimulation in early Parkinson disease.

OBJECTIVE: To investigate predictors for improvement of disease-specific quality of life (QOL) after deep brain stimulation (DBS) of the subthalamic nucleus (STN) for Parkinson disease (PD) with early motor complications. METHODS: We performed a secondary analysis of data from the previously published EARLYSTIM study, a prospective randomized trial comparing STN-DBS (n = 124) to best medical treatment (n = 127) after 2 years follow-up with disease-specific QOL (39-item Parkinson's Disease Questionnaire summary index [PDQ-39-SI]) as the primary endpoint. Linear regression analyses of the baseline characteristics age, disease duration, duration of motor complications, and disease severity measured at baseline with the Unified Parkinson's Disease Rating Scale (UPDRS) (UPDRS-III "off" and "on" medications, UPDRS-IV) were conducted to determine predictors of change in PDQ-39-SI. RESULTS: PDQ-39-SI at baseline was correlated to the change in PDQ-39-SI after 24 months in both treatment groups (p < 0.05). The higher the baseline score (worse QOL) the larger the improvement in QOL after 24 months. No correlation was found for any of the other baseline characteristics analyzed in either treatment group. CONCLUSION: Impaired QOL as subjectively evaluated by the patient is the most important predictor of benefit in patients with PD and early motor complications, fulfilling objective gold standard inclusion criteria for STN-DBS. Our results prompt systematically including evaluation of disease-specific QOL when selecting patients with PD for STN-DBS. CLINICALTRIALSGOV IDENTIFIER: NCT00354133.

At the Origin of the History of Glia.

The history of brain science is dominated by the study of neurons. However, there are as many glial cells as neurons in the human brain, their complexity increases during evolution, and glial cells play important roles in brain function, behavior, and neurological disorders. Although neurons and glial cells were first described at the same time in the early 19th century, why did the physiological study of glial cells only begin in the 1950s? What are the scientific breakthroughs and conceptual shifts that determined the history of glial cells in relation to that of neurons? What is the impact of the history of glia on the evolution of neuroscience? In order to answer these questions, we reconstructed the history of glial cells, from their first description until the mid-20th century, by examining the relative role of technical developments and scientific interpretations.

Anterior pallidal deep brain stimulation for Tourette's syndrome: a randomised, double-blind, controlled trial.

BACKGROUND: Deep brain stimulation (DBS) has been proposed to treat patients with severe Tourette's syndrome, and open-label trials and two small double-blind trials have tested DBS of the posterior and the anterior internal globus pallidus (aGPi). We aimed to specifically assess the efficacy of aGPi DBS for severe Tourette's syndrome. METHODS: In this randomised, double-blind, controlled trial, we recruited patients aged 18-60 years with severe and medically refractory Tourette's syndrome from eight hospitals specialised in movement disorders in France. Enrolled patients received surgery to implant bilateral electrodes for aGPi DBS; 3 months later they were randomly assigned (1:1 ratio with a block size of eight; computer-generated pairwise randomisation according to order of enrolment) to receive either active or sham stimulation for the subsequent 3 months in a double-blind fashion. All patients then received open-label active stimulation for the subsequent 6 months. Patients and clinicians assessing outcomes were masked to treatment allocation; an unmasked clinician was responsible for stimulation parameter programming, with intensity set below the side-effect threshold. The primary endpoint was difference in Yale Global Tic Severity Scale (YGTSS) score between the beginning and end of the 3 month double-blind period, as assessed with a Mann-Whitney-Wilcoxon test in all randomly allocated patients who received active or sham stimulation during the double-blind period. We assessed safety in all patients who were enrolled and received surgery for aGPi DBS. This trial is registered with ClinicalTrials.gov, number NCT00478842. FINDINGS: Between Dec 6, 2007, and Dec 13, 2012, we enrolled 19 patients. We randomly assigned 17 (89%) patients, with 16 completing blinded assessments (seven [44%] in the active stimulation group and nine [56%] in the sham stimulation group). We noted no significant difference in YGTSS score change between the beginning and the end of the 3 month double-blind period between groups (active group median YGTSS score 68·5 [IQR 34·0 to 83·5] at the beginning and 62·5 [51·5 to 72·0] at the end, median change 1·1% [IQR -23·9 to 38·1]; sham group 73·0 [69·0 to 79·0] and 79·0 [59·0 to 81·5], median change 0·0% [-10·6 to 4·8]; p=0·39). 15 serious adverse events (three in patients who withdrew before stimulation and six each in the active and sham stimulation groups) occurred in 13 patients (three who withdrew before randomisation, four in the active group, and six in the sham group), with infections in DBS hardware in four patients (two who withdrew before randomisation, one in the sham stimulation group, and one in the active stimulation group). Other serious adverse events included one electrode misplacement (active stimulation group), one episode of depressive signs (active stimulation group), and three episodes of increased tic severity and anxiety (two in the sham stimulation group and one in the active stimulation group). INTERPRETATION: 3 months of aGPi DBS is insufficient to decrease tic severity for patients with Tourette's syndrome. Future research is needed to investigate the efficacy of aGPi DBS for patients over longer periods with optimal stimulation parameters and to identify potential predictors of the therapeutic response. FUNDING: French Ministry of Health.

Commentary: Dealing with the Aftermath.

In 2006, our team reported our experience in the use of bilateral high-frequency stimulation of the subthalamic nucleus (STN) in patients with severe levodopa-responsive forms of Parkinson's disease (PD). 1 The aim was to better understand and manage the difficulties experienced by patients who undergo neurosurgery, and by their families.