Your search keyword '"Willeke M"' showing total 490 results

1. Mapping the glial transcriptome in Huntington’s disease using snRNAseq: selective disruption of glial signatures across brain regions

Author

Sunniva M. K. Bøstrand, Luise A. Seeker, Nadine Bestard-Cuche, Nina-Lydia Kazakou, Sarah Jäkel, Boyd Kenkhuis, Neil C. Henderson, Susanne T. de Bot, Willeke M. C. van Roon-Mom, Josef Priller, and Anna Williams

Subjects

Huntington’s disease, Transcriptomics, Glia, Chaperones, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Huntington’s disease (HD) is an autosomal dominant neurodegenerative disease with a fatal outcome. There is accumulating evidence of a prominent role of glia in the pathology of HD, and we investigated this by conducting single nuclear RNA sequencing (snRNAseq) of human post mortem brain in four differentially affected regions; caudate nucleus, frontal cortex, hippocampus and cerebellum. Across 127,205 nuclei from donors with HD and age/sex matched controls, we found heterogeneity of glia which is altered in HD. We describe prominent changes in the abundance of certain subtypes of astrocytes, microglia, oligodendrocyte precursor cells and oligodendrocytes between HD and control samples, and these differences are widespread across brain regions. Furthermore, we highlight possible mechanisms that characterise the glial contribution to HD pathology including depletion of myelinating oligodendrocytes, an oligodendrocyte-specific upregulation of the calmodulin-dependent 3’,5’-cyclic nucleotide phosphodiesterase 1 A (PDE1A) and an upregulation of molecular chaperones as a cross-glial signature and a potential adaptive response to the accumulation of mutant huntingtin (mHTT). Our results support the hypothesis that glia have an important role in the pathology of HD, and show that all types of glia are affected in the disease.

Published

2024

2. Calcium-Enhanced Medium-Based Delivery of Splice Modulating Antisense Oligonucleotides in 2D and 3D hiPSC-Derived Neuronal Models

Author

Ronald A. M. Buijsen, Linda M. van der Graaf, Elsa C. Kuijper, Barry A. Pepers, Elena Daoutsali, Lotte Weel, Vered Raz, David A. Parfitt, and Willeke M. C. van Roon-Mom

Subjects

ASO delivery, organoids, CEM, Biology (General), QH301-705.5

Abstract

Antisense technology demonstrates significant potential for addressing inherited brain diseases, with over a dozen products already available and numerous others in the development pipeline. The versatility of differentiating induced pluripotent stem cells (iPSCs) into nearly all neural cell types proves invaluable for comprehending the mechanisms behind neurological diseases, replicating cellular phenotypes, and advancing the testing and development of new therapies, including antisense oligonucleotide therapeutics. While delivering antisense oligonucleotides (ASOs) to human iPSC-based neuronal models has posed challenges, this study explores various delivery methods, including lipid-based transfection, gymnotic uptake, Ca(2+)-enhanced medium (CEM)-based delivery, and electroporation, in 2D and 3D hiPSC-derived neuronal models. This study reveals that CEM-based delivery exhibits efficiency and low toxicity in both 2D neuronal cultures and 3D brain organoids. Furthermore, the findings indicate that CEM is slightly more effective in neurons than in astrocytes, suggesting promising avenues for further exploration and optimization of preclinical ASO strategies in the treatment of neurological disorders.

Published

2024

3. Machine learning in Huntington’s disease: exploring the Enroll-HD dataset for prognosis and driving capability prediction

Author

Jasper Ouwerkerk, Stephanie Feleus, Kasper F. van der Zwaan, Yunlei Li, Marco Roos, Willeke M. C. van Roon-Mom, Susanne T. de Bot, Katherine J. Wolstencroft, and Eleni Mina

Subjects

Huntington’s disease, Enroll-HD, Data pre-processing, Machine learning, Recurrent neural networks, Medicine

Abstract

Abstract Background In biomedicine, machine learning (ML) has proven beneficial for the prognosis and diagnosis of different diseases, including cancer and neurodegenerative disorders. For rare diseases, however, the requirement for large datasets often prevents this approach. Huntington’s disease (HD) is a rare neurodegenerative disorder caused by a CAG repeat expansion in the coding region of the huntingtin gene. The world’s largest observational study for HD, Enroll-HD, describes over 21,000 participants. As such, Enroll-HD is amenable to ML methods. In this study, we pre-processed and imputed Enroll-HD with ML methods to maximise the inclusion of participants and variables. With this dataset we developed models to improve the prediction of the age at onset (AAO) and compared it to the well-established Langbehn formula. In addition, we used recurrent neural networks (RNNs) to demonstrate the utility of ML methods for longitudinal datasets, assessing driving capabilities by learning from previous participant assessments. Results Simple pre-processing imputed around 42% of missing values in Enroll-HD. Also, 167 variables were retained as a result of imputing with ML. We found that multiple ML models were able to outperform the Langbehn formula. The best ML model (light gradient boosting machine) improved the prognosis of AAO compared to the Langbehn formula by 9.2%, based on root mean squared error in the test set. In addition, our ML model provides more accurate prognosis for a wider CAG repeat range compared to the Langbehn formula. Driving capability was predicted with an accuracy of 85.2%. The resulting pre-processing workflow and code to train the ML models are available to be used for related HD predictions at: https://github.com/JasperO98/hdml/tree/main . Conclusions Our pre-processing workflow made it possible to resolve the missing values and include most participants and variables in Enroll-HD. We show the added value of a ML approach, which improved AAO predictions and allowed for the development of an advisory model that can assist clinicians and participants in estimating future driving capability.

Published

2023

4. Early identification of persistent somatic symptoms in primary care: data-driven and theory-driven predictive modelling based on electronic medical records of Dutch general practices

Author

Mattijs E Numans, Frank C Bennis, Willeke M Kitselaar, Stephen P Sutch, Andrea WM Evers, Rosalie van der Vaart, and Frederike L Büchner

Subjects

Medicine

Abstract

Objective The present study aimed to early identify patients with persistent somatic symptoms (PSS) in primary care by exploring routine care data-based approaches.Design/setting A cohort study based on routine primary care data from 76 general practices in the Netherlands was executed for predictive modelling.Participants Inclusion of 94 440 adult patients was based on: at least 7-year general practice enrolment, having more than one symptom/disease registration and >10 consultations.Methods Cases were selected based on the first PSS registration in 2017–2018. Candidate predictors were selected 2–5 years prior to PSS and categorised into data-driven approaches: symptoms/diseases, medications, referrals, sequential patterns and changing lab results; and theory-driven approaches: constructed factors based on literature and terminology in free text. Of these, 12 candidate predictor categories were formed and used to develop prediction models by cross-validated least absolute shrinkage and selection operator regression on 80% of the dataset. Derived models were internally validated on the remaining 20% of the dataset.Results All models had comparable predictive values (area under the receiver operating characteristic curves=0.70 to 0.72). Predictors are related to genital complaints, specific symptoms (eg, digestive, fatigue and mood), healthcare utilisation, and number of complaints. Most fruitful predictor categories are literature-based and medications. Predictors often had overlapping constructs, such as digestive symptoms (symptom/disease codes) and drugs for anti-constipation (medication codes), indicating that registration is inconsistent between general practitioners (GPs).Conclusions The findings indicate low to moderate diagnostic accuracy for early identification of PSS based on routine primary care data. Nonetheless, simple clinical decision rules based on structured symptom/disease or medication codes could possibly be an efficient way to support GPs in identifying patients at risk of PSS. A full data-based prediction currently appears to be hampered by inconsistent and missing registrations. Future research on predictive modelling of PSS using routine care data should focus on data enrichment or free-text mining to overcome inconsistent registrations and improve predictive accuracy.

Published

2023

5. Amyloid beta accumulations and enhanced neuronal differentiation in cerebral organoids of Dutch-type cerebral amyloid angiopathy patients

Author

Elena Daoutsali, Barry A. Pepers, Stavros Stamatakis, Linda M. van der Graaf, Gisela M. Terwindt, David A. Parfitt, Ronald A. M. Buijsen, and Willeke M. C. van Roon-Mom

Subjects

in vitro 3D disease modeling, cerebral organoids, Dutch-type cerebral amyloid angiopathy, Aβ accumulations, astrocytes, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionADutch-type cerebral amyloid angiopathy (D-CAA) is a hereditary brain disorder caused by a point mutation in the amyloid precursor protein (APP) gene. The mutation is located within the amyloid beta (Aβ) domain of APP and leads to Aβ peptide accumulation in and around the cerebral vasculature. There lack of disease models to study the cellular and molecular pathological mechanisms of D-CAA together with the absence of a disease phenotype in vitro in overexpression cell models, as well as the limited availability of D-CAA animal models indicates the need for a D-CAA patient-derived model.MethodsWe generated cerebral organoids from four D-CAA patients and four controls, cultured them up to 110 days and performed immunofluorescent and targeted gene expression analyses at two time points (D52 and D110).ResultsD-CAA cerebral organoids exhibited Aβ accumulations, showed enhanced neuronal and astrocytic gene expression and TGFβ pathway de-regulation.ConclusionsThese results illustrate the potential of cerebral organoids as in vitro disease model of D-CAA that can be used to understand disease mechanisms of D-CAA and can serve as therapeutic intervention platform for various Aβ-related disorders.

Published

2023

6. Unveiling Normative Trajectories of Lifespan Brain Maturation Using Quantitative MRI

Author

Chen, Xinjie, Ocampo-Pineda, Mario, Lu, Po-Jui, Ekerdt, Clara, Weigel, Matthias, Jansen, Michelle G., Cagol, Alessandro, Chan, Kwok-Shing, Schädelin, Sabine, Zwiers, Marcel, Oosterman, Joukje M., Norris, David G., Bayer, Johanna M. M., Marquand, Andre F., Menks, Willeke M., Kuhle, Jens, Kappos, Ludwig, Melie-Garcia, Lester, Granziera, Cristina, and Marques, José P.

Subjects

Physics - Medical Physics, Quantitative Biology - Neurons and Cognition

Abstract

Background: Brain maturation and aging involve significant microstructural changes, resulting in functional and cognitive alterations. Quantitative MRI (qMRI) can measure this evolution, distinguishing the physiological effects of normal aging from pathological deviations. Methods: We conducted a multicentre study using qMRI metrics (R1, R2*, and Quantitative Susceptibility Mapping) to model age trajectories across brain structures, including tractography-based white matter bundles (TWMB), superficial white matter (SWM), and cortical grey matter (CGM). MRI data from 537 healthy subjects, aged 8 to 79 years, were harmonized using two independent methods. We modeled age trajectories and performed regional analyses to capture maturation patterns and aging effects across the lifespan. Findings: Our findings revealed a distinct brain maturation gradient, with early qMRI peak values in TWMB, followed by SWM, and culminating in CGM regions. This gradient was observed as a posterior-to-anterior maturation pattern in the cortex and an inferior-to-superior maturation pattern in white matter tracts. R1 demonstrated the most robust age trajectories, while R2* and susceptibility exhibited greater variability and different patterns. The normative modeling framework confirmed the reliability of our age-modelled trajectories across datasets. Interpretation: Our study highlights the potential of multiparametric qMRI to capture complex, region-specific brain development patterns, addressing the need for comprehensive, age-spanning studies across multiple brain structures. Various harmonization strategies can merge qMRI cohorts, improving the robustness of qMRI-based age models and facilitating the understanding of normal patterns and disease-associated deviations.

Published

2024

7. The general practitioners perspective regarding registration of persistent somatic symptoms in primary care: a survey

Author

Willeke M. Kitselaar, Rosalie van der Vaart, Madelon van Tilborg-den Boeft, Hedwig M. M. Vos, Mattijs E. Numans, and Andrea W. M. Evers

Subjects

Clinical Coding, Electronic Health Records, General Practitioners, Medically Unexplained Symptoms, Persistent Somatic Symptoms, Primary Health Care, Medicine (General), R5-920

Abstract

Abstract Background Persistent somatic symptoms (PSS) are common in primary care and often accompanied by an increasing disease burden for both the patient and healthcare. In medical practice, PSS is historically considered a diagnosis by exclusion or primarily seen as psychological. Besides, registration of PSS in electronic health records (EHR) is unambiguous and possibly does not reflect classification adequately. The present study explores how general practitioners (GPs) currently register PSS, and their view regarding the need for improvements in classification, registration, and consultations. Method Dutch GPs were invited by email to participate in a national cross-sectional online survey. The survey addressed ICPC-codes used by GPs to register PSS, PSS-related terminology added to free text areas, usage of PSS-related syndrome codes, and GPs’ need for improvement of PSS classification, registration and care. Results GPs (n = 259) were most likely to use codes specific to the symptom presented (89.3%). PSS-related terminology in free-text areas was used sparsely. PSS-related syndrome codes were reportedly used by 91.5% of GPs, but this was primarily the case for the code for irritable bowel syndrome. The ambiguous registration of PSS is reported as problematic by 47.9% of GPs. Over 56.7% of GPs reported needing additional training, tools or other support for PSS classification and consultation. GPs also reported needing other referral options and better guidelines. Conclusions Registration of PSS in primary care is currently ambiguous. Approximately half of GPs felt a need for more options for registration of PSS and reported a need for further support. In order to improve classification, registration and care for patients with PSS, there is a need for a more appropriate coding scheme and additional training.

Published

2021

8. Therapeutic Strategies for Spinocerebellar Ataxia Type 1

Author

Laurie M. C. Kerkhof, Bart P. C. van de Warrenburg, Willeke M. C. van Roon-Mom, and Ronald A. M. Buijsen

Subjects

Spinocerebellar ataxia type 1, neurodegenerative disorder, therapeutic strategies, preclinical research, clinical trials, gain-of-function mechanism, Microbiology, QR1-502

Abstract

Spinocerebellar ataxia type 1 (SCA1) is an autosomal dominant neurodegenerative disorder that affects one or two individuals per 100,000. The disease is caused by an extended CAG repeat in exon 8 of the ATXN1 gene and is characterized mostly by a profound loss of cerebellar Purkinje cells, leading to disturbances in coordination, balance, and gait. At present, no curative treatment is available for SCA1. However, increasing knowledge on the cellular and molecular mechanisms of SCA1 has led the way towards several therapeutic strategies that can potentially slow disease progression. SCA1 therapeutics can be classified as genetic, pharmacological, and cell replacement therapies. These different therapeutic strategies target either the (mutant) ATXN1 RNA or the ataxin-1 protein, pathways that play an important role in downstream SCA1 disease mechanisms or which help restore cells that are lost due to SCA1 pathology. In this review, we will provide a summary of the different therapeutic strategies that are currently being investigated for SCA1.

Published

2023

9. Iron loading is a prominent feature of activated microglia in Alzheimer’s disease patients

Author

Boyd Kenkhuis, Antonios Somarakis, Lorraine de Haan, Oleh Dzyubachyk, Marieke E. IJsselsteijn, Noel F. C. C. de Miranda, Boudewijn P. F. Lelieveldt, Jouke Dijkstra, Willeke M. C. van Roon-Mom, Thomas Höllt, and Louise van der Weerd

Subjects

Alzheimer, Microglia, Iron, Ferritin, Human, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Brain iron accumulation has been found to accelerate disease progression in amyloid-β(Aβ) positive Alzheimer patients, though the mechanism is still unknown. Microglia have been identified as key players in the disease pathogenesis, and are highly reactive cells responding to aberrations such as increased iron levels. Therefore, using histological methods, multispectral immunofluorescence and an automated in-house developed microglia segmentation and analysis pipeline, we studied the occurrence of iron-accumulating microglia and the effect on its activation state in human Alzheimer brains. We identified a subset of microglia with increased expression of the iron storage protein ferritin light chain (FTL), together with increased Iba1 expression, decreased TMEM119 and P2RY12 expression. This activated microglia subset represented iron-accumulating microglia and appeared morphologically dystrophic. Multispectral immunofluorescence allowed for spatial analysis of FTL+Iba1+-microglia, which were found to be the predominant Aβ-plaque infiltrating microglia. Finally, an increase of FTL+Iba1+-microglia was seen in patients with high Aβ load and Tau load. These findings suggest iron to be taken up by microglia and to influence the functional phenotype of these cells, especially in conjunction with Aβ.

Published

2021

10. Identifying persistent somatic symptoms in electronic health records: exploring multiple theory-driven methods of identification

Author

Mattijs E Numans, Willeke M Kitselaar, Stephen P Sutch, Ammar Faiq, Andrea WM Evers, and Rosalie van der Vaart

Subjects

Medicine

Abstract

Objective Persistent somatic symptoms (PSSs) are defined as symptoms not fully explained by well-established pathophysiological mechanisms and are prevalent in up to 10% of patients in primary care. The present study aimed to explore methods to identify patients with a recognisable risk of having PSS in routine primary care data.Design A cross-sectional study to explore four identification methods that each cover part of the broad spectrum of PSS was performed. Cases were selected based on (1) PSS-related syndrome codes, (2) PSS-related symptom codes, (3) PSS-related terminology and (4) Four-Dimensional Symptom Questionnaire scores and all methods combined.Setting Coded electronic health record data were extracted from 76 general practices in the Netherlands.Participants Patients who were registered for at least 1 year during 2014–2018, were included (n=169 138).Outcome measures Identification methods were explored based on (1) PSS sample sizes and demographics, (2) presence of chronic conditions and (3) healthcare utilisation (HCU) variables. Overlap between methods and practice specific differences were examined.Results The percentage of cases identified varied between 0.3% and 7.0% across the methods. Over 58.1% of cases had chronic physical condition(s) and over 33.8% had chronic mental condition(s). HCU was generally higher for cases selected by any method compared with the total cohort. HCU was higher for method B compared with the other methods. In 26.7% of cases, cases were selected by multiple methods. Overlap between methods was low.Conclusions Different methods yielded different patient samples which were general practice specific. Therefore, for the most comprehensive data-based selection of PSS cases, a combination of methods A, C and D would be recommended. Advanced (data-driven) methods are needed to create a more sensitive algorithm for identifying the full spectrum of PSS. For clinical purposes, method B could possibly support screening of patients who are currently missed in daily practice.

Published

2021

11. Correction to: The general practitioners perspective regarding registration of persistent somatic symptoms in primary care: a survey

Author

Willeke M. Kitselaar, Rosalie van der Vaart, Madelon van Tilborg-den Boeft, Hedwig M. M. Vos, Mattijs E. Numans, and Andrea W. M. Evers

Subjects

Medicine (General), R5-920

Published

2021

12. White matter connectivity linked to novel word learning in children

Author

Ekerdt, Clara, Menks, Willeke M., Fernández, Guillén, McQueen, James M., Takashima, Atsuko, and Janzen, Gabriele

Published

2024

13. Transcriptional profiling and biomarker identification reveal tissue specific effects of expanded ataxin-3 in a spinocerebellar ataxia type 3 mouse model

Author

Lodewijk J. A. Toonen, Maurice Overzier, Melvin M. Evers, Leticia G. Leon, Sander A. J. van der Zeeuw, Hailiang Mei, Szymon M. Kielbasa, Jelle J. Goeman, Kristina M. Hettne, Olafur Th. Magnusson, Marion Poirel, Alexandre Seyer, Peter A. C. ‘t Hoen, and Willeke M. C. van Roon-Mom

Subjects

Spinocerebellar ataxia type 3, Mouse model, RNA sequencing, Metabolomics, Neurology. Diseases of the nervous system, RC346-429, Geriatrics, RC952-954.6

Abstract

Abstract Background Spinocerebellar ataxia type 3 (SCA3) is a progressive neurodegenerative disorder caused by expansion of the polyglutamine repeat in the ataxin-3 protein. Expression of mutant ataxin-3 is known to result in transcriptional dysregulation, which can contribute to the cellular toxicity and neurodegeneration. Since the exact causative mechanisms underlying this process have not been fully elucidated, gene expression analyses in brains of transgenic SCA3 mouse models may provide useful insights. Methods Here we characterised the MJD84.2 SCA3 mouse model expressing the mutant human ataxin-3 gene using a multi-omics approach on brain and blood. Gene expression changes in brainstem, cerebellum, striatum and cortex were used to study pathological changes in brain, while blood gene expression and metabolites/lipids levels were examined as potential biomarkers for disease. Results Despite normal motor performance at 17.5 months of age, transcriptional changes in brain tissue of the SCA3 mice were observed. Most transcriptional changes occurred in brainstem and striatum, whilst cerebellum and cortex were only modestly affected. The most significantly altered genes in SCA3 mouse brain were Tmc3, Zfp488, Car2, and Chdh. Based on the transcriptional changes, α-adrenergic and CREB pathways were most consistently altered for combined analysis of the four brain regions. When examining individual brain regions, axon guidance and synaptic transmission pathways were most strongly altered in striatum, whilst brainstem presented with strongest alterations in the pi-3 k cascade and cholesterol biosynthesis pathways. Similar to other neurodegenerative diseases, reduced levels of tryptophan and increased levels of ceramides, di- and triglycerides were observed in SCA3 mouse blood. Conclusions The observed transcriptional changes in SCA3 mouse brain reveal parallels with previous reported neuropathology in patients, but also shows brain region specific effects as well as involvement of adrenergic signalling and CREB pathway changes in SCA3. Importantly, the transcriptional changes occur prior to onset of motor- and coordination deficits.

Published

2018

14. The dynamics of early-state transcriptional changes and aggregate formation in a Huntington’s disease cell model

Author

Martijn van Hagen, Diewertje G. E. Piebes, Wim C. de Leeuw, Ilona M. Vuist, Willeke M. C. van Roon-Mom, Perry D. Moerland, and Pernette J. Verschure

Subjects

Huntington's disease, Transcription, Aggregates, Inducible HD cell line, Early HD cellular phenotype, Temporal analysis, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Huntington’s disease (HD) is a fatal neurodegenerative disorder caused by a CAG expansion in the Huntingtin (HTT) gene. Proteolytic cleavage of mutant huntingtin (Htt) protein with an expanded polyglutamine (polyQ) stretch results in production of Htt fragments that aggregate and induce impaired ubiquitin proteasome, mitochondrial functioning and transcriptional dysregulation. To understand the time-resolved relationship between aggregate formation and transcriptional changes at early disease stages, we performed temporal transcriptome profiling and quantification of aggregate formation in living cells in an inducible HD cell model. Results Rat pheochromocytoma (PC12) cells containing a stably integrated, doxycycline-inducible, eGFP-tagged N-terminal human Htt fragment with an expanded polyQ domain were used to analyse gene expression changes at different stages of mutant Htt aggregation. At earliest time points after doxycycline induction no detectable aggregates and few changes in gene expression were observed. Aggregates started to appear at intermediate time points. Aggregate formation and subsequent enlargement of aggregates coincided with a rapid increase in the number of differentially expressed (DE) genes. The increase in number of large aggregates coincided with a decrease in the number of smaller aggregates whereas the transcription profile reverted towards the profile observed before mutant Htt induction. Cluster-based analysis of the 2,176 differentially expressed genes revealed fourteen distinct clusters responding differently over time. Functional enrichment analysis of the two major gene clusters revealed that genes in the up-regulated cluster were mainly involved in metabolic (antioxidant activity and cellular ketone metabolic processes) and genes in the down-regulated cluster in developmental processes, respectively. Promoter-based analysis of the identified gene clusters resulted in identification of a transcription factor network of which several previously have been linked to HD. Conclusions We demonstrate a time-resolved relationship between Htt aggregation and changes in the transcriptional profile. We identified two major gene clusters showing involvement of (i) mitochondrial dysfunction and (ii) developmental processes implying cellular homeostasis defects. We identified novel and known HD-linked transcription factors and show their interaction with known and predicted regulatory proteins. Our data provide a novel resource for hypothesis building on the role of transcriptional key regulators in early stages of HD and possibly other polyQ-dependent diseases.

Published

2017

15. Mapping the glial transcriptome in Huntington’s disease using snRNAseq: selective disruption of glial signatures across brain regions

Author

Bøstrand, Sunniva M. K., Seeker, Luise A., Bestard-Cuche, Nadine, Kazakou, Nina-Lydia, Jäkel, Sarah, Kenkhuis, Boyd, Henderson, Neil C., de Bot, Susanne T., van Roon-Mom, Willeke M. C., Priller, Josef, and Williams, Anna

Published

2024

16. Altered Neuronal Responses During an Affective Stroop Task in Adolescents With Conduct Disorder

Author

Lynn V. Fehlbaum, Nora M. Raschle, Willeke M. Menks, Martin Prätzlich, Eva Flemming, Letizia Wyss, Felix Euler, Margaret Sheridan, Philipp Sterzer, and Christina Stadler

Subjects

conduct disorder, emotion processing, response inhibition, amygdala, insula, Psychology, BF1-990

Abstract

Conduct disorder (CD) is a psychiatric disorder of childhood and adolescence which has been linked to deficient emotion processing and regulation. The behavioral and neuronal correlates targeting the interaction of emotion processing and response inhibition are still under investigation. Whole-brain event-related fMRI was applied during an affective Stroop task in 39 adolescents with CD and 39 typically developing adolescents (TD). Participants were presented with an emotional stimulus (negative/neutral) followed by a Stroop task with varying cognitive load (congruent/incongruent/blank trials). fMRI analysis included standard preprocessing, region of interest analyses (amygdala, insula, ventromedial prefrontal cortex) and whole-brain analyses based on a 2(group) × 2(emotion) × 3(task) full-factorial ANOVA. Adolescents with CD made significantly more errors, while reaction times did not significantly differ compared to TD. Additionally, we observed a lack of downregulation of left amygdala activity in response to incongruent trials and increased anterior insula activity for CD relative to TD during affective Stroop task processing [cluster-level family-wise error-corrected (p < 0.05)]. Even though no three-way interaction (group × emotion × task) interaction was detected, the findings presented still provide evidence for altered neuronal underpinnings of the interaction of emotion processing and response inhibition in CD. Moreover, our results may corroborate previous evidence of emotion dysregulation as a core dysfunction in CD. Future studies shall focus on investigating the interaction of emotion processing and response inhibition in CD subgroups (e.g., variations in callous-unemotional traits, impulsivity, or anxiety).

Published

2018

17. Brain Transcriptomic Analysis of Hereditary Cerebral Hemorrhage With Amyloidosis-Dutch Type

Author

Laure Grand Moursel, Willeke M. C. van Roon-Mom, Szymon M. Kiełbasa, Hailiang Mei, Henk P. J. Buermans, Linda M. van der Graaf, Kristina M. Hettne, Emile J. de Meijer, Sjoerd G. van Duinen, Jeroen F. J. Laros, Mark A. van Buchem, Peter A. C. ‘t Hoen, Silvère M. van der Maarel, and Louise van der Weerd

Subjects

RNA sequencing and transcriptome analysis, hereditary cerebral hemorrhage with amyloidosis-Dutch type, familial cerebral amyloid angiopathy, E22Q amyloid β, E693Q mutation, extracellular matrix remodeling, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Hereditary cerebral hemorrhage with amyloidosis-Dutch type (HCHWA-D) is an early onset hereditary form of cerebral amyloid angiopathy (CAA) caused by a point mutation resulting in an amino acid change (NP_000475.1:p.Glu693Gln) in the amyloid precursor protein (APP). Post-mortem frontal and occipital cortical brain tissue from nine patients and nine age-related controls was used for RNA sequencing to identify biological pathways affected in HCHWA-D. Although previous studies indicated that pathology is more severe in the occipital lobe in HCHWA-D compared to the frontal lobe, the current study showed similar changes in gene expression in frontal and occipital cortex and the two brain regions were pooled for further analysis. Significantly altered pathways were analyzed using gene set enrichment analysis (GSEA) on 2036 significantly differentially expressed genes. Main pathways over-represented by down-regulated genes were related to cellular aerobic respiration (including ATP synthesis and carbon metabolism) indicating a mitochondrial dysfunction. Principal up-regulated pathways were extracellular matrix (ECM)–receptor interaction and ECM proteoglycans in relation with an increase in the transforming growth factor beta (TGFβ) signaling pathway. Comparison with the publicly available dataset from pre-symptomatic APP-E693Q transgenic mice identified overlap for the ECM–receptor interaction pathway, indicating that ECM modification is an early disease specific pathomechanism.

Published

2018

18. Co-expression Patterns between ATN1 and ATXN2 Coincide with Brain Regions Affected in Huntington’s Disease

Author

Arlin Keo, N. Ahmad Aziz, Oleh Dzyubachyk, Jeroen van der Grond, Willeke M. C. van Roon-Mom, Boudewijn P. F. Lelieveldt, Marcel J. T. Reinders, and Ahmed Mahfouz

Subjects

gene co-expression, polyglutamine diseases, human brain, Huntington’s disease, neurodegeneration, MRI, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Cytosine-adenine-guanine (CAG) repeat expansions in the coding regions of nine polyglutamine (polyQ) genes (HTT, ATXN1, ATXN2, ATXN3, CACNA1A, ATXN7, ATN1, AR, and TBP) are the cause of several neurodegenerative diseases including Huntington’s disease (HD), six different spinocerebellar ataxias (SCAs), dentatorubral-pallidoluysian atrophy, and spinobulbar muscular atrophy. The expanded CAG repeat length in the causative gene is negatively related to the age-at-onset (AAO) of clinical symptoms. In addition to the expanded CAG repeat length in the causative gene, the normal CAG repeats in the other polyQ genes can affect the AAO, suggesting functional interactions between the polyQ genes. However, there is no detailed assessment of the relationships among polyQ genes in pathologically relevant brain regions. We used gene co-expression analysis to study the functional relationships among polyQ genes in different brain regions using the Allen Human Brain Atlas (AHBA), a spatial map of gene expression in the healthy brain. We constructed co-expression networks for seven anatomical brain structures, as well as a region showing a specific pattern of atrophy in HD patients detected by magnetic resonance imaging (MRI) of the brain. In this HD-associated region, we found that ATN1 and ATXN2 were co-expressed and shared co-expression partners which were enriched for DNA repair genes. We observed a similar co-expression pattern in the frontal lobe, parietal lobe, and striatum in which this relation was most pronounced. Given that the co-expression patterns for these anatomical structures were similar to those for the HD-associated region, our results suggest that their disruption is likely involved in HD pathology. Moreover, ATN1 and ATXN2 also shared many co-expressed genes with HTT, the causative gene of HD, across the brain. Although this triangular relationship among these three polyQ genes may also be dysregulated in other polyQ diseases, stronger co-expression patterns between ATN1 and ATXN2 observed in the HD-associated region, especially in the striatum, may be more specific to HD.

Published

2017

19. Investigating the Neural Correlates of Emotion–Cognition Interaction Using an Affective Stroop Task

Author

Nora M. Raschle, Lynn V. Fehlbaum, Willeke M. Menks, Felix Euler, Philipp Sterzer, and Christina Stadler

Subjects

emotion processing, emotion–cognition interaction, cognition, fMRI, Stroop, Psychology, BF1-990

Abstract

The human brain has the capacity to integrate various sources of information and continuously adapts our behavior according to situational needs in order to allow a healthy functioning. Emotion–cognition interactions are a key example for such integrative processing. However, the neuronal correlates investigating the effects of emotion on cognition remain to be explored and replication studies are needed. Previous neuroimaging studies have indicated an involvement of emotion and cognition related brain structures including parietal and prefrontal cortices and limbic brain regions. Here, we employed whole brain event-related functional magnetic resonance imaging (fMRI) during an affective number Stroop task and aimed at replicating previous findings using an adaptation of an existing task design in 30 healthy young adults. The Stroop task is an indicator of cognitive control and enables the quantification of interference in relation to variations in cognitive load. By the use of emotional primes (negative/neutral) prior to Stroop task performance, an emotional variation is added as well. Behavioral in-scanner data showed that negative primes delayed and disrupted cognitive processing. Trials with high cognitive demand furthermore negatively influenced cognitive control mechanisms. Neuronally, the emotional primes consistently activated emotion-related brain regions (e.g., amygdala, insula, and prefrontal brain regions) while Stroop task performance lead to activations in cognition networks of the brain (prefrontal cortices, superior temporal lobe, and insula). When assessing the effect of emotion on cognition, increased cognitive demand led to decreases in neural activation in response to emotional stimuli (negative > neutral) within prefrontal cortex, amygdala, and insular cortex. Overall, these results suggest that emotional primes significantly impact cognitive performance and increasing cognitive demand leads to reduced neuronal activation in emotion related brain regions, and therefore support previous findings investigating emotion–cognition interaction in healthy adults. Moreover, emotion and cognition seem to be tightly related to each other, as indicated by shared neural networks involved in both of these processes. Emotion processing, cognitive control, and their interaction are crucial for healthy functioning and a lack thereof is related to psychiatric disorders such as, disruptive behavior disorders. Future studies may investigate the neural characteristics of children and adolescents with disruptive behavior disorders.

Published

2017

20. Effect of post-mortem delay on N-terminal huntingtin protein fragments in human control and Huntington disease brain lysates.

Author

Menno H Schut, Stefano Patassini, Eric H Kim, Jocelyn Bullock, Henry J Waldvogel, Richard L M Faull, Barry A Pepers, Johan T den Dunnen, Gert-Jan B van Ommen, and Willeke M C van Roon-Mom

Subjects

Medicine, Science

Abstract

Huntington disease is associated with elongation of a CAG repeat in the HTT gene that results in a mutant huntingtin protein. Several studies have implicated N-terminal huntingtin protein fragments in Huntington disease pathogenesis. Ideally, these fragments are studied in human brain tissue. However, the use of human brain tissue comes with certain unavoidable variables such as post mortem delay, artefacts from freeze-thaw cycles and subject-to-subject variation. Knowledge on how these variables might affect N-terminal huntingtin protein fragments in post mortem human brain is important for a proper interpretation of study results. The effect of post mortem delay on protein in human brain is known to vary depending on the protein of interest. In the present study, we have assessed the effect of post mortem delay on N-terminal huntingtin protein fragments using western blot. We mimicked post mortem delay in one individual control case and one individual Huntington disease case with low initial post mortem delay. The influence of subject-to-subject variation on N-terminal huntingtin fragments was assessed in human cortex and human striatum using two cohorts of control and Huntington disease subjects. Our results show that effects of post mortem delay on N-terminal huntingtin protein fragments are minor in our individual subjects. Additionally, one freeze-thaw cycle decreases the huntingtin western blot signal intensity in the cortex control subject, but does not introduce additional N-terminal huntingtin fragments. Our results suggest that subject-to-subject variation contributes more to variability in N-terminal huntingtin fragments than post mortem delay.

Published

2017

21. Deletion of the innate immune NLRP3 receptor abolishes cardiac ischemic preconditioning and is associated with decreased Il-6/STAT3 signaling.

Author

Coert J Zuurbier, Willeke M C Jong, Otto Eerbeek, Anneke Koeman, Wilco P Pulskens, Loes M Butter, Jaklien C Leemans, and Markus W Hollmann

Subjects

Medicine, Science

Abstract

Recent studies indicate that the innate immune system is not only triggered by exogenous pathogens and pollutants, but also by endogenous danger signals released during ischemia and necrosis. As triggers for the innate immune NLRP3 inflammasome protein complex appear to overlap with those for cardiac ischemia-reperfusion (I/R) and ischemic preconditioning (IPC), we explored the possibility that the NLRP3 inflammasome is involved in IPC and acute I/R injury of the heart.Baseline cardiac performance and acute I/R injury were investigated in isolated, Langendorff-perfused hearts from wild-type (WT), ASC(-/-) and NLRP3(-/-) mice. Deletion of NLRP3 inflammasome components ASC(-/-) or NLRP3(-/-) did not affect baseline performance. The deletions exacerbated I/R-induced mechanical dysfunction, but were without effect on I/R-induced cell death. When subjected to IPC, WT and ASC(-/-) hearts were protected against I/R injury (improved function and less cell death). However, IPC did not protect NLRP3(-/-) hearts against I/R injury. NLRP3(-/-) hearts had significantly decreased cardiac IL-6 levels with a trend towards lower IL-1β levels at end reperfusion, suggesting abrogation of IPC through diminished IL-6 and/or IL-1β signaling. Subsequent experiments showed that neutralising IL-6 using an antibody against IL-6 abrogated IPC in WT hearts. However, inhibition of the IL-1r receptor with the IL-1 receptor inhibitor Anakinra (100 mg/L) did not abrogate IPC in WT hearts. Analysis of survival kinases after IPC demonstrated decreased STAT3 expression in NLRP3(-/-) hearts when compared to WT hearts.The data suggest that the innate immune NLRP3 protein, in an NLRP3-inflammasome-independent fashion, is an integral component of IPC in the isolated heart, possibly through an IL-6/STAT3 dependent mechanism.

Published

2012

22. Exploring the transcriptome of ciliated cells using in silico dissection of human tissues.

Author

Alexander E Ivliev, Peter A C 't Hoen, Willeke M C van Roon-Mom, Dorien J M Peters, and Marina G Sergeeva

Subjects

Medicine, Science

Abstract

Cilia are cell organelles that play important roles in cell motility, sensory and developmental functions and are involved in a range of human diseases, known as ciliopathies. Here, we search for novel human genes related to cilia using a strategy that exploits the previously reported tendency of cell type-specific genes to be coexpressed in the transcriptome of complex tissues. Gene coexpression networks were constructed using the noise-resistant WGCNA algorithm in 12 publicly available microarray datasets from human tissues rich in motile cilia: airways, fallopian tubes and brain. A cilia-related coexpression module was detected in 10 out of the 12 datasets. A consensus analysis of this module's gene composition recapitulated 297 known and predicted 74 novel cilia-related genes. 82% of the novel candidates were supported by tissue-specificity expression data from GEO and/or proteomic data from the Human Protein Atlas. The novel findings included a set of genes (DCDC2, DYX1C1, KIAA0319) related to a neurological disease dyslexia suggesting their potential involvement in ciliary functions. Furthermore, we searched for differences in gene composition of the ciliary module between the tissues. A multidrug-and-toxin extrusion transporter MATE2 (SLC47A2) was found as a brain-specific central gene in the ciliary module. We confirm the localization of MATE2 in cilia by immunofluorescence staining using MDCK cells as a model. While MATE2 has previously gained attention as a pharmacologically relevant transporter, its potential relation to cilia is suggested for the first time. Taken together, our large-scale analysis of gene coexpression networks identifies novel genes related to human cell cilia.

Published

2012

23. Antisense-mediated RNA targeting: versatile and expedient genetic manipulation in the brain

Author

Ioannis eZalachoras, Melvin M Evers, Willeke M C van Roon-Mom, Annemieke M Aartsma-Rus, and Onno C Meijer

Subjects

Gene Expression, Mutagenesis, Toxicity, siRNA, delivery, exon skipping, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

A limiting factor in brain research still is the difficulty to evaluate in vivo the role of the increasing number of proteins implicated in neuronal processes. We discuss here the potential of antisense-mediated RNA targeting approaches. We mainly focus on those that manipulate splicing (exon skipping and exon inclusion), but will also briefly discuss mRNA targeting. Classic knockdown of expression by mRNA targeting is only one possible application of antisense oligonucleotides (AON) in the control of gene function. Exon skipping and inclusion are based on the interference of AONs with splicing of pre-mRNAs. These are powerful, specific and particularly versatile techniques, which can be used to circumvent pathogenic mutations, shift splice variant expression, knock down proteins, or to create molecular models using in-frame deletions. Pre-mRNA targeting is currently used both as a research tool, e.g. in models for motor neuron disease, and in clinical trials for Duchenne muscular dystrophy and amyotrophic lateral sclerosis.AONs are particularly promising in relation to brain research, as the modified AONs are taken up extremely fast in neurons and glial cells with a long residence, and without the need for viral vectors or other delivery tools, once inside the blood brain barrier. In this review we cover 1. The principles of antisense-mediated techniques, chemistry and efficacy.2. The pros and cons of AON approaches in the brain compared to other techniques of interfering with gene function, such as transgenesis and short hairpin RNAs, in terms of specificity of the manipulation, spatial and temporal control over gene expression, toxicity and delivery issues.3. The potential applications for Neuroscience. We conclude that there is good evidence from animal studies that the CNS can be successfully targeted, but the potential of the diverse AON-based approaches appears to be under-recognized.

Published

2011

24. Targeting several CAG expansion diseases by a single antisense oligonucleotide.

Author

Melvin M Evers, Barry A Pepers, Judith C T van Deutekom, Susan A M Mulders, Johan T den Dunnen, Annemieke Aartsma-Rus, Gert-Jan B van Ommen, and Willeke M C van Roon-Mom

Subjects

Medicine, Science

Abstract

To date there are 9 known diseases caused by an expanded polyglutamine repeat, with the most prevalent being Huntington's disease. Huntington's disease is a progressive autosomal dominant neurodegenerative disorder for which currently no therapy is available. It is caused by a CAG repeat expansion in the HTT gene, which results in an expansion of a glutamine stretch at the N-terminal end of the huntingtin protein. This polyglutamine expansion plays a central role in the disease and results in the accumulation of cytoplasmic and nuclear aggregates. Here, we make use of modified 2'-O-methyl phosphorothioate (CUG)n triplet-repeat antisense oligonucleotides to effectively reduce mutant huntingtin transcript and protein levels in patient-derived Huntington's disease fibroblasts and lymphoblasts. The most effective antisense oligonucleotide, (CUG)(7), also reduced mutant ataxin-1 and ataxin-3 mRNA levels in spinocerebellar ataxia 1 and 3, respectively, and atrophin-1 in dentatorubral-pallidoluysian atrophy patient derived fibroblasts. This antisense oligonucleotide is not only a promising therapeutic tool to reduce mutant huntingtin levels in Huntington's disease but our results in spinocerebellar ataxia and dentatorubral-pallidoluysian atrophy cells suggest that this could also be applicable to other polyglutamine expansion disorders as well.

Published

2011

25. Correction: Adaptive Stress Response in Segmental Progeria Resembles Long-Lived Dwarfism and Calorie Restriction in Mice.

Author

Marieke van de Ven, Jaan-Olle Andressoo, Valerie B Holcomb, Marieke von Lindern, Willeke M. C Jong, Chris I. De Zeeuw, Yousin Suh, Paul Hasty, Jan H. J Hoeijmakers, Gijsbertus T. J van der Horst, and James R Mitchell

Subjects

Genetics, QH426-470

Published

2008

26. Adaptive stress response in segmental progeria resembles long-lived dwarfism and calorie restriction in mice.

Author

Marieke van de Ven, Jaan-Olle Andressoo, Valerie B Holcomb, Marieke von Lindern, Willeke M C Jong, Chris I De Zeeuw, Yousin Suh, Paul Hasty, Jan H J Hoeijmakers, Gijsbertus T J van der Horst, and James R Mitchell

Subjects

Genetics, QH426-470

Abstract

How congenital defects causing genome instability can result in the pleiotropic symptoms reminiscent of aging but in a segmental and accelerated fashion remains largely unknown. Most segmental progerias are associated with accelerated fibroblast senescence, suggesting that cellular senescence is a likely contributing mechanism. Contrary to expectations, neither accelerated senescence nor acute oxidative stress hypersensitivity was detected in primary fibroblast or erythroblast cultures from multiple progeroid mouse models for defects in the nucleotide excision DNA repair pathway, which share premature aging features including postnatal growth retardation, cerebellar ataxia, and death before weaning. Instead, we report a prominent phenotypic overlap with long-lived dwarfism and calorie restriction during postnatal development (2 wk of age), including reduced size, reduced body temperature, hypoglycemia, and perturbation of the growth hormone/insulin-like growth factor 1 neuroendocrine axis. These symptoms were also present at 2 wk of age in a novel progeroid nucleotide excision repair-deficient mouse model (XPD(G602D/R722W)/XPA(-/-)) that survived weaning with high penetrance. However, despite persistent cachectic dwarfism, blood glucose and serum insulin-like growth factor 1 levels returned to normal by 10 wk, with hypoglycemia reappearing near premature death at 5 mo of age. These data strongly suggest changes in energy metabolism as part of an adaptive response during the stressful period of postnatal growth. Interestingly, a similar perturbation of the postnatal growth axis was not detected in another progeroid mouse model, the double-strand DNA break repair deficient Ku80(-/-) mouse. Specific (but not all) types of genome instability may thus engage a conserved response to stress that evolved to cope with environmental pressures such as food shortage.

Published

2006

27. The potential value of disease-modifying therapy in patients with spinocerebellar ataxia type 1: an early health economic modeling study

Author

van Prooije, Teije, Ruigrok, Sanne, van den Berkmortel, Niels, Maas, Roderick P. P. W. M., Wijn, Stan, van Roon-Mom, Willeke M. C., van de Warrenburg, Bart, and Grutters, Janneke P. C.

Published

2023

28. Machine learning in Huntington’s disease: exploring the Enroll-HD dataset for prognosis and driving capability prediction

Author

Ouwerkerk, Jasper, Feleus, Stephanie, van der Zwaan, Kasper F., Li, Yunlei, Roos, Marco, van Roon-Mom, Willeke M. C., de Bot, Susanne T., Wolstencroft, Katherine J., and Mina, Eleni

Published

2023

29. Potential disease-modifying therapies for Huntington's disease: lessons learned and future opportunities

Author

Tabrizi, Sarah J, Estevez-Fraga, Carlos, van Roon-Mom, Willeke M C, Flower, Michael D, Scahill, Rachael I, Wild, Edward J, Muñoz-Sanjuan, Ignacio, Sampaio, Cristina, Rosser, Anne E, and Leavitt, Blair R

Published

2022

30. Huntington Disease Gene Expression Signatures in Blood Compared to Brain of YAC128 Mice as Candidates for Monitoring of Pathology

Author

Kuijper, Elsa C., Toonen, Lodewijk J. A., Overzier, Maurice, Tsonaka, Roula, Hettne, Kristina, Roos, Marco, van Roon-Mom, Willeke M. C., and Mina, Eleni

Published

2022

31. Fatigue after neurosurgery in patients with a brain tumor: The role of autonomic dysregulation and disturbed sleep

Author

Kitselaar, Willeke M., de Morree, Helma M., Trompenaars, Marjan W., Sitskoorn, Margriet M., Rutten, Geert-Jan, and Kop, Willem J.

Published

2022

32. Correction to: The potential value of disease-modifying therapy in patients with spinocerebellar ataxia type 1: an early health economic modeling study

Author

van Prooije, Teije, Ruigrok, Sanne, van den Berkmortel, Niels, Maas, Roderick P. P. W. M., Wijn, Stan R. W., van Roon-Mom, Willeke M. C., van de Warrenburg, Bart, and Grutters, Janneke P. C.

Published

2023

33. Human Induced Pluripotent Stem Cell-Based Modelling of Spinocerebellar Ataxias

Author

Hommersom, Marina P., Buijsen, Ronald A. M., van Roon-Mom, Willeke M. C., van de Warrenburg, Bart P. C., and van Bokhoven, Hans

Published

2022

34. Predictors of Persistent Somatic Symptoms in the General Population: A Systematic Review of Cohort Studies

Author

Kitselaar, Willeke M., van der Vaart, Rosalie, Perschl, Johanna, Numans, Mattijs E., and Evers, Andrea W.M.

Published

2023

35. Delivery of Antisense Oligonucleotides to the Mouse Brain by Intracerebroventricular Injections

Author

Metz, Tom, primary, Kuijper, Elsa C., additional, and van Roon-Mom, Willeke M. C., additional

Published

2022

36. Calcium-Enhanced Medium-Based Delivery of Splice Modulating Antisense Oligonucleotides in 2D and 3D hiPSC-Derived Neuronal Models.

Author

Buijsen, Ronald A. M., van der Graaf, Linda M., Kuijper, Elsa C., Pepers, Barry A., Daoutsali, Elena, Weel, Lotte, Raz, Vered, Parfitt, David A., and van Roon-Mom, Willeke M. C.

Subjects

INDUCED pluripotent stem cells, BRAIN diseases, NEUROLOGICAL disorders, GENETIC disorders, OLIGONUCLEOTIDES

Abstract

Antisense technology demonstrates significant potential for addressing inherited brain diseases, with over a dozen products already available and numerous others in the development pipeline. The versatility of differentiating induced pluripotent stem cells (iPSCs) into nearly all neural cell types proves invaluable for comprehending the mechanisms behind neurological diseases, replicating cellular phenotypes, and advancing the testing and development of new therapies, including antisense oligonucleotide therapeutics. While delivering antisense oligonucleotides (ASOs) to human iPSC-based neuronal models has posed challenges, this study explores various delivery methods, including lipid-based transfection, gymnotic uptake, Ca(2+)-enhanced medium (CEM)-based delivery, and electroporation, in 2D and 3D hiPSC-derived neuronal models. This study reveals that CEM-based delivery exhibits efficiency and low toxicity in both 2D neuronal cultures and 3D brain organoids. Furthermore, the findings indicate that CEM is slightly more effective in neurons than in astrocytes, suggesting promising avenues for further exploration and optimization of preclinical ASO strategies in the treatment of neurological disorders. [ABSTRACT FROM AUTHOR]

Published

2024

37. Postnatal Effects of Sex Hormones on Click-Evoked Otoacoustic Emissions: A Study of Adolescents with Gender Dysphoria

Author

Burke, Sarah M., van Heesewijk, Jason O., Menks, Willeke M., Klink, Daniel T., Kreukels, Baudewijntje P. C., Cohen-Kettenis, Peggy T., and Bakker, Julie

Published

2020

38. Iron loading is a prominent feature of activated microglia in Alzheimer’s disease patients

Author

Kenkhuis, Boyd, Somarakis, Antonios, de Haan, Lorraine, Dzyubachyk, Oleh, IJsselsteijn, Marieke E., de Miranda, Noel F. C. C., Lelieveldt, Boudewijn P. F., Dijkstra, Jouke, van Roon-Mom, Willeke M. C., Höllt, Thomas, and van der Weerd, Louise

Published

2021

39. The general practitioners perspective regarding registration of persistent somatic symptoms in primary care: a survey

Author

Kitselaar, Willeke M., van der Vaart, Rosalie, van Tilborg-den Boeft, Madelon, Vos, Hedwig M. M., Numans, Mattijs E., and Evers, Andrea W. M.

Published

2021

40. Correction to: The general practitioners perspective regarding registration of persistent somatic symptoms in primary care: a survey

Author

Kitselaar, Willeke M., van der Vaart, Rosalie, van Tilborg-den Boeft, Madelon, Vos, Hedwig M. M., Numans, Mattijs E., and Evers, Andrea W. M.

Published

2021

41. White Matter Microstructure in Youths With Conduct Disorder: Effects of Sex and Variation in Callous Traits

Author

Rogers, Jack C., Gonzalez-Madruga, Karen, Kohls, Gregor, Baker, Rosalind H., Clanton, Roberta L., Pauli, Ruth, Birch, Philippa, Chowdhury, Alimul I., Kirchner, Marietta, Andersson, Jesper L.R., Smaragdi, Areti, Puzzo, Ignazio, Baumann, Sarah, Raschle, Nora M., Fehlbaum, Lynn V., Menks, Willeke M., Steppan, Martin, Stadler, Christina, Konrad, Kerstin, Freitag, Christine M., Fairchild, Graeme, and De Brito, Stephane A.

Published

2019

42. Early identification of persistent somatic symptoms in primary care

Author

Willeke M Kitselaar, Frederike L Büchner, Rosalie van der Vaart, Stephen P Sutch, Frank C Bennis, Andrea WM Evers, Mattijs E Numans, Artificial intelligence, Network Institute, Artificial Intelligence (section level), and Biological Psychology

Subjects

SDG 3 - Good Health and Well-being, MENTAL HEALTH, PRIMARY CARE, SDG 10 - Reduced Inequalities, General Medicine, STATISTICS & RESEARCH METHODS

Abstract

ObjectiveThe present study aimed to early identify patients with persistent somatic symptoms (PSS) in primary care by exploring routine care data-based approaches.Design/settingA cohort study based on routine primary care data from 76 general practices in the Netherlands was executed for predictive modelling.ParticipantsInclusion of 94 440 adult patients was based on: at least 7-year general practice enrolment, having more than one symptom/disease registration and >10 consultations.MethodsCases were selected based on the first PSS registration in 2017–2018. Candidate predictors were selected 2–5 years prior to PSS and categorised into data-driven approaches: symptoms/diseases, medications, referrals, sequential patterns and changing lab results; and theory-driven approaches: constructed factors based on literature and terminology in free text. Of these, 12 candidate predictor categories were formed and used to develop prediction models by cross-validated least absolute shrinkage and selection operator regression on 80% of the dataset. Derived models were internally validated on the remaining 20% of the dataset.ResultsAll models had comparable predictive values (area under the receiver operating characteristic curves=0.70 to 0.72). Predictors are related to genital complaints, specific symptoms (eg, digestive, fatigue and mood), healthcare utilisation, and number of complaints. Most fruitful predictor categories are literature-based and medications. Predictors often had overlapping constructs, such as digestive symptoms (symptom/disease codes) and drugs for anti-constipation (medication codes), indicating that registration is inconsistent between general practitioners (GPs).ConclusionsThe findings indicate low to moderate diagnostic accuracy for early identification of PSS based on routine primary care data. Nonetheless, simple clinical decision rules based on structured symptom/disease or medication codes could possibly be an efficient way to support GPs in identifying patients at risk of PSS. A full data-based prediction currently appears to be hampered by inconsistent and missing registrations. Future research on predictive modelling of PSS using routine care data should focus on data enrichment or free-text mining to overcome inconsistent registrations and improve predictive accuracy.

Published

2023

43. Empathy deficits, callous‐unemotional traits and structural underpinnings in autism spectrum disorder and conduct disorder youth

Author

Tkalcec, Antonia, primary, Bierlein, Maria, additional, Seeger‐Schneider, Gudrun, additional, Walitza, Susanne, additional, Jenny, Bettina, additional, Menks, Willeke M., additional, Felhbaum, Lynn V., additional, Borbas, Reka, additional, Cole, David M., additional, Raschle, Nora, additional, Herbrecht, Evelyn, additional, Stadler, Christina, additional, and Cubillo, Ana, additional

Published

2023

44. Multidisciplinary Collaboration to Facilitate Hypotheses Generation in Huntington's Disease.

Author

Eleni Mina, Mark Thompson 0002, Kristina M. Hettne, Willeke M. C. van Roon-Mom, Rajaram Kaliyaperumal, Eelke van der Horst, Katherine Wolstencroft, Barend Mons, and Marco Roos

Published

2015

45. Early identification of persistent somatic symptoms in primary care: data-driven and theory-driven predictive modelling based on electronic medical records of Dutch general practices

Author

Kitselaar, Willeke M, primary, Büchner, Frederike L, additional, van der Vaart, Rosalie, additional, Sutch, Stephen P, additional, Bennis, Frank C, additional, Evers, Andrea WM, additional, and Numans, Mattijs E, additional

Published

2023

46. Predictors of Persistent Somatic Symptoms in the General Population: A Systematic Review of Cohort Studies

Author

Kitselaar, Willeke M. (author), Van Der Vaart, Rosalie (author), Perschl, Johanna (author), Numans, M.E. (author), Evers, A.W.M. (author), Kitselaar, Willeke M. (author), Van Der Vaart, Rosalie (author), Perschl, Johanna (author), Numans, M.E. (author), and Evers, A.W.M. (author)

Abstract

Objective Up to 10% of the general population experiences persistent somatic symptoms (PSS). Numerous studies in a variety of health domains are dedicated to identifying factors that are associated with PSS onset. The present study aimed to provide an overview of predictors for PSS onset in the general population and the related health domains. Methods A systematic search was performed identifying longitudinal cohort studies that examined factors associated with PSS onset in the general population. Included studies measured potential predictors before PSS onset and were categorized according to the dynamic biopsychosocial model. Four levels of evidence were discerned for predictors, based on the number of studies and percentage of consistent findings. Results In the 154 articles eligible for analysis, 27 PSS subtypes were studied, with primary focus on fibromyalgia (25.0%) and irritable bowel syndrome (23.3%). Of the >250 predictors of PSS onset, 46 were investigated more than once and showed consistent results. Strong evidence identifies biological (e.g., infections, body weight-related metrics), psychological (e.g., sleep problems, psychopathology), interpersonal (life events, childhood/interpersonal stress), contextual (employment), and health behavioral (health care utilization) predictors. Conclusions The results provide strong evidence for factors from all dynamic biopsychosocial domains, although interpersonal and health behavioral factors are relatively under investigated. Thus, evidence suggests that reduction of predictors of PSS onset to a specific factor/domain may be too restrictive. There is no evidence that this differs per PSS subtype. Exploring all domains and measuring common factors across subtypes are essential to improve the clinical course of PSS., Applied Ergonomics and Design

Published

2023

47. Empathy deficits, callous‐unemotional traits and structural underpinnings in autism spectrum disorder and conduct disorder youth

Author

Tkalcec, Antonia; https://orcid.org/0000-0003-2872-5882, Bierlein, Maria, Seeger‐Schneider, Gudrun, Walitza, Susanne; https://orcid.org/0000-0002-8161-8683, Jenny, Bettina, Menks, Willeke M, Felhbaum, Lynn V, Borbas, Réka, Cole, David M; https://orcid.org/0000-0001-9260-0430, Raschle, Nora; https://orcid.org/0000-0002-3160-5999, Herbrecht, Evelyn; https://orcid.org/0000-0003-3287-6261, Stadler, Christina, Cubillo, Ana, Tkalcec, Antonia; https://orcid.org/0000-0003-2872-5882, Bierlein, Maria, Seeger‐Schneider, Gudrun, Walitza, Susanne; https://orcid.org/0000-0002-8161-8683, Jenny, Bettina, Menks, Willeke M, Felhbaum, Lynn V, Borbas, Réka, Cole, David M; https://orcid.org/0000-0001-9260-0430, Raschle, Nora; https://orcid.org/0000-0002-3160-5999, Herbrecht, Evelyn; https://orcid.org/0000-0003-3287-6261, Stadler, Christina, and Cubillo, Ana

Abstract

Distinct empathy deficits are often described in patients with conduct disorder (CD) and autism spectrum disorder (ASD) yet their neural underpinnings and the influence of comorbid Callous‐Unemotional (CU) traits are unclear. This study compares the cognitive (CE) and affective empathy (AE) abilities of youth with CD and ASD, their potential neuroanatomical correlates, and the influence of CU traits on empathy. Adolescents and parents/caregivers completed empathy questionnaires (N = 148 adolescents, mean age = 15.16 years) and T1 weighted images were obtained from a subsample (N = 130). Group differences in empathy and the influence of CU traits were investigated using Bayesian analyses and Voxel‐Based Morphometry with Threshold‐Free Cluster Enhancement focusing on regions involved in AE (insula, amygdala, inferior frontal gyrus and cingulate cortex) and CE processes (ventromedial prefrontal cortex, temporoparietal junction, superior temporal gyrus, and precuneus). The ASD group showed lower parent‐reported AE and CE scores and lower self‐reported CE scores while the CD group showed lower parent‐reported CE scores than controls. When accounting for the influence of CU traits no AE deficits in ASD and CE deficits in CD were found, but CE deficits in ASD remained. Across all participants, CU traits were negatively associated with gray matter volumes in anterior cingulate which extends into the mid cingulate, ventromedial prefrontal cortex, and precuneus. Thus, although co‐occurring CU traits have been linked to global empathy deficits in reports and underlying brain structures, its influence on empathy aspects might be disorder‐specific. Investigating the subdimensions of empathy may therefore help to identify disorder‐specific empathy deficits.

Published

2023

48. Early molecular layer interneuron hyperactivity triggers Purkinje neuron degeneration in SCA1

Author

Pilotto, Federica, Douthwaite, Christopher, Diab, Rim, Ye, XiaoQian, Al Qassab, Zahraa, Tietje, Christoph, Mounassir, Meriem, Odriozola, Adolfo, Thapa, Aishwarya, Buijsen, Ronald A M, Lagache, Sophie, Uldry, Anne-Christine, Heller, Manfred, Müller, Stefan, van Roon-Mom, Willeke M C, Zuber, Benoît, Liebscher, Sabine, and Saxena, Smita

Subjects

570 Life sciences, biology, 610 Medicine & health

Abstract

Toxic proteinaceous deposits and alterations in excitability and activity levels characterize vulnerable neuronal populations in neurodegenerative diseases. Using in vivo two-photon imaging in behaving spinocerebellar ataxia type 1 (Sca1) mice, wherein Purkinje neurons (PNs) degenerate, we identify an inhibitory circuit element (molecular layer interneurons [MLINs]) that becomes prematurely hyperexcitable, compromising sensorimotor signals in the cerebellum at early stages. Mutant MLINs express abnormally elevated parvalbumin, harbor high excitatory-to-inhibitory synaptic density, and display more numerous synaptic connections on PNs, indicating an excitation/inhibition imbalance. Chemogenetic inhibition of hyperexcitable MLINs normalizes parvalbumin expression and restores calcium signaling in Sca1 PNs. Chronic inhibition of mutant MLINs delayed PN degeneration, reduced pathology, and ameliorated motor deficits in Sca1 mice. Conserved proteomic signature of Sca1 MLINs, shared with human SCA1 interneurons, involved the higher expression of FRRS1L, implicated in AMPA receptor trafficking. We thus propose that circuit-level deficits upstream of PNs are one of the main disease triggers in SCA1.

Published

2023

49. Correction to: The potential value of disease-modifying therapy in patients with spinocerebellar ataxia type 1: an early health economic modeling study

Author

Teije van Prooije, Sanne Ruigrok, Niels van den Berkmortel, Roderick P. P. W. M. Maas, Stan R. W. Wijn, Willeke M. C. van Roon-Mom, Bart van de Warrenburg, and Janneke P. C. Grutters

Subjects

Neurology, Neurology (clinical)

Published

2023

50. The potential value of disease-modifying therapy in patients with spinocerebellar ataxia type 1: an early health economic modeling study

Author

Teije van Prooije, Sanne Ruigrok, Niels van den Berkmortel, Roderick P. P. W. M. Maas, Stan Wijn, Willeke M. C. van Roon-Mom, Bart van de Warrenburg, and Janneke P. C. Grutters

Subjects

Neurology, Neurology (clinical)

Abstract

Objective There currently is no disease-modifying therapy for spinocerebellar ataxia type 1 (SCA1). Genetic interventions, such as RNA-based therapies, are being developed but those currently available are very expensive. Early evaluation of costs and benefits is, therefore, crucial. By developing a health economic model, we aimed to provide first insights into the potential cost-effectiveness of RNA-based therapies for SCA1 in the Netherlands. Methods We simulated disease progression of individuals with SCA1 using a patient-level state-transition model. Five hypothetical treatment strategies with different start and endpoints and level of effectiveness (5–50% reduction in disease progression) were evaluated. Consequences of each strategy were measured in terms of quality-adjusted life years (QALYs), survival, healthcare costs, and maximum costs to be cost effective. Results Most QALYs (6.68) are gained when therapy starts during the pre-ataxic stage and continues during the entire disease course. Incremental costs are lowest (− €14,048) if therapy is stopped when the severe ataxia stage is reached. The maximum costs per year to be cost-effective are €19,630 in the “stop after moderate ataxia stage” strategy at 50% effectiveness. Discussion Our model indicates that the maximum price for a hypothetical therapy to be cost-effective is considerably lower than currently available RNA-based therapies. Most value for money can be gained by slowing progression in the early and moderate stages of SCA1 and by stopping therapy upon entering the severe ataxia stage. To allow for such a strategy, it is crucial to identify individuals in early stages of disease, preferably just before symptom onset.

Published

2023