Your search keyword '"Martien J H Kas"' showing total 204 results

201. Behavioral signatures related to genetic disorders in autism

Author

Martien J H Kas, Patrick Bolton, Sarah Curran, Hilgo Bruining, Marinus J.C. Eijkemans, and Jacob A. S. Vorstman

Subjects

medicine.medical_specialty, Neurology, SOCIAL-INTERACTION, CHILDREN, COPY-NUMBER VARIATION, SPECTRUM DISORDERS, DE-NOVO, behavioral disciplines and activities, Developmental Neuroscience, mental disorders, medicine, DIAGNOSTIC INTERVIEW, FRAGILE-X-SYNDROME, TUBEROUS SCLEROSIS COMPLEX, Copy-number variation, Molecular Biology, SYNAPTIC PATHOPHYSIOLOGY, Genetic heterogeneity, Research, Neuropsychology, medicine.disease, Human genetics, Fragile X syndrome, Psychiatry and Mental health, Autism spectrum disorder, PRADER-WILLI-SYNDROME, Autism, Psychology, Neuroscience, Developmental Biology

Abstract

Background: Autism spectrum disorder (ASD) is well recognized to be genetically heterogeneous. It is assumed that the genetic risk factors give rise to a broad spectrum of indistinguishable behavioral presentations.Methods: We tested this assumption by analyzing the Autism Diagnostic Interview-Revised (ADI-R) symptom profiles in samples comprising six genetic disorders that carry an increased risk for ASD 22q11.2 deletion, Down's syndrome, Prader-Willi, supernumerary marker chromosome 15, tuberous sclerosis complex and Klinefelter syndrome; total n = 322 cases, groups ranging in sample sizes from 21 to 90 cases). We mined the data to test the existence and specificity of ADI-R profiles using a multiclass extension of support vector machine SVM) learning. We subsequently applied the SVM genetic disorder algorithm on idiopathic ASD profiles from the Autism Genetics Resource Exchange AGRE).Results: Genetic disorders were associated with behavioral specificity, indicated by the accuracy and certainty of SVM predictions; one-by-one genetic disorder stratifications were highly accurate leading to 63% accuracy of correct genotype prediction when all six genetic disorder groups were analyzed simultaneously. Application of the SVM algorithm to AGRE cases indicated that the algorithm could detect similarity of genetic behavioral signatures in idiopathic ASD subjects. Also, affected sib pairs in the AGRE were behaviorally more similar when they had been allocated to the same genetic disorder group.Conclusions: Our findings provide evidence for genotype-phenotype correlations in relation to autistic symptomatology. SVM algorithms may be used to stratify idiopathic cases of ASD according to behavioral signature patterns associated with genetic disorders. Together, the results suggest a new approach for disentangling the heterogeneity of ASD.

202. Models and methods: a perspective of the impact of six IMI translational data-centric initiatives for Alzheimer’s disease and other neuropsychiatric disorders

Author

Hilary North, Martin Hofmann-Apitius, Martien J. H. Kas, Hugh Marston, and Magali Haas

Subjects

innovative medicines initiative, pharmaceutical industry, public–private partnership, European Union, neuropsychiatric disorders, Neurology. Diseases of the nervous system, RC346-429

Abstract

The Innovative Medicines Initiative (IMI), was a European public–private partnership (PPP) undertaking intended to improve the drug development process, facilitate biomarker development, accelerate clinical trial timelines, improve success rates, and generally increase the competitiveness of European pharmaceutical sector research. Through the IMI, pharmaceutical research interests and the research agenda of the EU are supported by academic partnership and financed by both the pharmaceutical companies and public funds. Since its inception, the IMI has funded dozens of research partnerships focused on solving the core problems that have consistently obstructed the translation of research into clinical success. In this post-mortem review paper, we focus on six research initiatives that tackled foundational challenges of this nature: Aetionomy, EMIF, EPAD, EQIPD, eTRIKS, and PRISM. Several of these initiatives focused on neurodegenerative diseases; we therefore discuss the state of neurodegenerative research both at the start of the IMI and now, and the contributions that IMI partnerships made to progress in the field. Many of the initiatives we review had goals including, but not limited to, the establishment of translational, data-centric initiatives and the implementation of trans-diagnostic approaches that move beyond the candidate disease approach to assess symptom etiology without bias, challenging the construct of disease diagnosis. We discuss the successes of these initiatives, the challenges faced, and the merits and shortcomings of the IMI approach with participating senior scientists for each. Here, we distill their perspectives on the lessons learned, with an aim to positively impact funding policy and approaches in the future.

Published

2023

203. A New Intervention for Implementation of Pharmacogenetics in Psychiatry: A Description of the PSY-PGx Clinical Study

Author

Teuntje A. D. Pelgrim, Alexandra Philipsen, Allan H. Young, Mario Juruena, Ester Jimenez, Eduard Vieta, Marin Jukić, Erik Van der Eycken, Urs Heilbronner, Ramona Moldovan, Martien J. H. Kas, Raj R. Jagesar, Markus M. Nöthen, Per Hoffmann, Noam Shomron, Laura L. Kilarski, Thérèse van Amelsvoort, Bea Campforts, The PSY-PGx Consortium, and Roos van Westrhenen

Subjects

pharmacogenomics, mental disorders, personalized medicine, psychopharmacology, depressive disorders, anxiety disorders, Medicine, Pharmacy and materia medica, RS1-441

Abstract

(1) Background Pharmacological treatment for psychiatric disorders has shown to only be effective in about one-third of patients, as it is associated with frequent treatment failure, often because of side effects, and a long process of trial-and-error pharmacotherapy until an effective and tolerable treatment is found. This notion emphasizes the urgency for a personalized medicine approach in psychiatry. (2) Methods This prospective patient- and rater-blinded, randomized, controlled study will investigate the effect of dose-adjustment of antidepressants escitalopram and sertraline or antipsychotics risperidone and aripiprazole according to the latest state-of-the-art international dosing recommendations for CYP2C19 and CYP2D6 metabolizer status in patients with mood, anxiety, and psychotic disorders. A total sample of N = 2500 will be recruited at nine sites in seven countries (expected drop-out rate of 30%). Patients will be randomized to a pharmacogenetic group or a dosing-as-usual group and treated over a 24-week period with four study visits. The primary outcome is personal recovery using the Recovery Assessment Scale as assessed by the patient (RAS-DS), with secondary outcomes including clinical effects (response or symptomatic remission), side effects, general well-being, digital phenotyping, and psychosocial functioning. (3) Conclusions This is, to our knowledge, the first international, multi-center, non-industry-sponsored randomized controlled trial (RCT) that may provide insights into the effectiveness and utility of implementing pharmacogenetic-guided treatment of psychiatric disorders, and as such, results will be incorporated in already available dosing guidelines.

Published

2024

204. Modeling the quantitative nature of neurodevelopmental disorders using Collaborative Cross mice

Author

Remco T. Molenhuis, Hilgo Bruining, Myrna J. V. Brandt, Petra E. van Soldt, Hanifa J. Abu-Toamih Atamni, J. Peter H. Burbach, Fuad A. Iraqi, Richard F. Mott, and Martien J. H. Kas

Subjects

Neurodevelopmental disorders, Autism, Animal models, Quantitative genetics, Genetic reference population, Behavioral neuroscience, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Animal models for neurodevelopmental disorders (NDD) generally rely on a single genetic mutation on a fixed genetic background. Recent human genetic studies however indicate that a clinical diagnosis with Autism Spectrum Disorder (ASD) is almost always associated with multiple genetic fore- and background changes. The translational value of animal model studies would be greatly enhanced if genetic insults could be studied in a more quantitative framework across genetic backgrounds. Methods We used the Collaborative Cross (CC), a novel mouse genetic reference population, to investigate the quantitative genetic architecture of mouse behavioral phenotypes commonly used in animal models for NDD. Results Classical tests of social recognition and grooming phenotypes appeared insufficient for quantitative studies due to genetic dilution and limited heritability. In contrast, digging, locomotor activity, and stereotyped exploratory patterns were characterized by continuous distribution across our CC sample and also mapped to quantitative trait loci containing genes associated with corresponding phenotypes in human populations. Conclusions These findings show that the CC can move animal model studies beyond comparative single gene-single background designs, and point out which type of behavioral phenotypes are most suitable to quantify the effect of developmental etiologies across multiple genetic backgrounds.

Published

2018