Your search keyword '"Nopoulos PC"' showing total 91 results

1. Longitudinal Change in Striatal Volume in Pre-Clinical Huntington's Disease

Author

Aylward, EH, primary, Nopoulos, PC, additional, Pierson, RK, additional, Langbehn, DR, additional, Ross, CA, additional, and Paulsen, JS, additional

Published

2009

2. Cerebral Cortex Morphology in Subjects with Huntington's Disease Prior to Diagnosis

Author

Nopoulos, PC, primary, Johnson, HJ, additional, Magnotta, VA, additional, Pierson, RK, additional, Langbehn, DR, additional, Ross, CA, additional, Aylward, EA, additional, and Paulsen, JS, additional

Published

2009

3. Global and Regional Brain Morphology in Subjects with Huntington's Disease Prior to Diagnosis

Author

Nopoulos, PC, primary, Johnson, HJ, additional, Magnotta, VA, additional, Pierson, RK, additional, Langbehn, DR, additional, Ross, CA, additional, Aylward, EH, additional, and Paulsen, JS, additional

Published

2009

4. Long-term Outcome of Brain Structure in Premature Infants: Effects of Liberal vs Restricted Red Blood Cell Transfusions.

Author

Nopoulos PC, Conrad AL, Bell EF, Strauss RG, Widness JA, Magnotta VA, Zimmerman MB, Georgieff MK, Lindgren SD, and Richman LC

Published

2011

5. Longitudinal change in regional brain volumes in prodromal Huntington disease.

Author

Aylward EH, Nopoulos PC, Ross CA, Langbehn DR, Pierson RK, Mills JA, Johnson HJ, Magnotta VA, Juhl AR, Paulsen JS, PREDICT-HD Investigators and Coordinators of Huntington Study Group, Aylward, Elizabeth H, Nopoulos, Peggy C, Ross, Christopher A, Langbehn, Douglas R, Pierson, Ronald K, Mills, James A, Johnson, Hans J, Magnotta, Vincent A, and Juhl, Andrew R

Abstract

Objective: As therapeutics are being developed to target the underlying neuropathology of Huntington disease, interest is increasing in methodologies for conducting clinical trials in the prodromal phase. This study was designed to examine the potential utility of structural MRI measures as outcome measures for such trials.Methods: Data are presented from 211 prodromal individuals and 60 controls, scanned both at baseline and at the 2-year follow-up. Prodromal participants were divided into groups based on proximity to estimated onset of diagnosable clinical disease: far (>15 years from estimated onset), mid (9-15 years) and near (<9 years). Volumetric measurements of caudate, putamen, total striatum, globus pallidus, thalamus, total grey and white matter and cerebrospinal fluid were performed.Results: All prodromal groups showed a faster rate of atrophy than controls in striatum, total brain and cerebral white matter (especially in the frontal lobe). Neither prodromal participants nor controls showed any significant longitudinal change in cortex (either total cortical grey or within individual lobes). When normal age-related atrophy (ie, change observed in the control group) was taken into account, there was more statistically significant disease-related atrophy in white matter than in striatum.Conclusion: Measures of volume change in striatum and white-matter volume, particularly in the frontal lobe, may serve as excellent outcome measures for future clinical trials in prodromal Huntington disease. Clinical trials using white matter or striatal volume change as an outcome measure will be most efficient if the sample is restricted to individuals who are within 15 years of estimated onset of diagnosable disease. [ABSTRACT FROM AUTHOR]

Published

2011

6. Smaller intracranial volume in prodromal Huntington's disease: evidence for abnormal neurodevelopment.

Author

Nopoulos PC, Aylward EH, Ross CA, Mills JA, Langbehn DR, Johnson HJ, Magnotta VA, Pierson RK, Beglinger LJ, Nance MA, Barker RA, Paulsen JS, PREDICT-HD Investigators and Coordinators of the Huntington Study Group, Nopoulos, Peggy C, Aylward, Elizabeth H, Ross, Christopher A, Mills, James A, Langbehn, Douglas R, Johnson, Hans J, and Magnotta, Vincent A

Abstract

Huntington's disease is an autosomal dominant brain disease. Although conceptualized as a neurodegenerative disease of the striatum, a growing number of studies challenge this classic concept of Huntington's disease aetiology. Intracranial volume is the tissue and fluid within the calvarium and is a representation of the maximal brain growth obtained during development. The current study reports intracranial volume obtained from an magnetic resonance imaging brain scan in a sample of subjects (n = 707) who have undergone presymptomatic gene testing. Participants who are gene-expanded but not yet manifesting the disease (prodromal Huntington's disease) are compared with subjects who are non-gene expanded. The prodromal males had significantly smaller intracranial volume measures with a mean volume that was 4% lower compared with controls. Although the prodromal females had smaller intracranial volume measures compared with their controls, this was not significant. The current findings suggest that mutant huntingtin can cause abnormal development, which may contribute to the pathogenesis of Huntington's disease. [ABSTRACT FROM AUTHOR]

Published

2011

7. β-Blocker Use and Delayed Onset and Progression of Huntington Disease.

Author

Schultz JL, Ogilvie AC, Harshman LA, and Nopoulos PC

Subjects

Humans, Male, Female, Middle Aged, Longitudinal Studies, Adult, Aged, Huntington Disease drug therapy, Huntington Disease genetics, Huntington Disease physiopathology, Adrenergic beta-Antagonists therapeutic use, Disease Progression

Abstract

Importance: Huntington disease (HD) is characterized by motor, cognitive, and psychiatric decline. β-Blockers may play a therapeutic role by decreasing enhanced sympathetic tone in HD., Objective: To evaluate the impact of β-blockers on the timing of motor diagnosis onset and progression of HD symptoms., Design, Setting, and Participants: This observational, longitudinal multicenter study used the Enroll-HD platform database (initiated September 2011 to present), including propensity score-matched cohorts of patients with premanifest HD (preHD) and early motor-manifest HD (mmHD) who were either users or nonusers of β-blockers. Participants included patients with genetically confirmed preHD (n = 4683 eligible participants) or mmHD (n = 3024 eligible participants) who were taking a β-blocker and were matched to similar non-β-blocker users., Exposure: Uninterrupted use of a β-blocker for more than 1 year., Main Outcomes and Measures: For PreHD: risk of receiving a motor diagnosis of HD over time. For mmHD: progression rate of total motor score, total functional capacity score, and the symbol digit modalities test. Post hoc analyses were performed to test additional clarifying hypotheses after the primary analyses were completed., Results: This study included 174 preHD β-blocker users (59 males; 115 females) with a mean age of 46.4 (SD, 13.1) years and a mean cytosine-adenine guanine repeat length of 41.1 (SD, 2.4) who were well matched to 174 preHD non-β-blocker users. The preHD β-blocker users showed a statistically significant reduction in the annualized hazard of receiving a motor diagnosis compared with nonusers (n = 174) (hazard ratio, 0.66; 95% CI, 0.46-0.94; P = .02). There were 149 mmHD β-blocker users (86 males; 60 females) with a mean age of 58.9 (SD, 11.3) years and a mean cytosine-adenine guanine repeat length of 42.0 (SD, 2.3) matched to 149 mmHD non-β-blocker users. The β-blocker users had a slower mean annualized worsening in total motor score (mean difference [MD], -0.45; 95% CI, -0.85 to -0.06; q = 0.025), total functional capacity score (MD, 0.10; 95% CI, 0.02-0.18; q = 0.025), and symbol digit modalities test (MD, 0.33; 95% CI, 0.10-0.56; q = 0.017) compared with matched nonusers., Conclusions and Relevance: In this study, β-blocker use was associated with delayed motor onset in preHD and reduced the rate of worsening of symptoms in mmHD. These findings demonstrated that β-blockers may have a therapeutic role in HD but further studies are required.

Published

2025

8. No Evidence of Early Developmental Delay in Juvenile-Onset Huntington's Disease Patients.

Author

Olson L, Dickens S, Schultz JL, Neema M, and Nopoulos PC

Abstract

Background: Previous studies suggest that early developmental delay is a common feature of Juvenile-Onset Huntington's disease (JOHD), with highest incidence in those with very high CAG repeats (> 80). However, all reports of developmental delay in JOHD are exclusively based on retrospective review of medical charts. Comprehensive assessment of birth history metrics may provide better insight into the question of early life development in JOHD., Objective: To explore the prevalence of prematurity, birth complications, low birth weight and developmental delay in patients with JOHD in comparison to control participants., Methods: Parents of patients with JOHD and gene-non-expanded (GNE) control participants from Kids-HD (n = 104) and Kids-JOHD (n = 34, 24% with CAG > 80) studies completed a comprehensive birth history questionnaire. Answers focused on prematurity, birth complications, and birth weight, and along with reports of early developmental milestones, were compared between groups., Results: There were no statistically significant differences in prematurity, birth weights, birth complications, or motor and verbal developmental milestones between JOHD patients and GNE controls (all P values > 0.1). Furthermore, stratifying JOHD patients by CAG expansion (low vs. high) also showed no significant differences (GNE vs. low or GNE vs. high)., Conclusions: These findings support the notion that JOHD does not manifest as developmental delay before motor symptom onset and highlight a new framework to understand the course and nature of the disease., (© 2024 The Author(s). Movement Disorders Clinical Practice published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.)

Published

2024

9. Mutant Huntingtin Drives Development of an Advantageous Brain Early in Life: Evidence in Support of Antagonistic Pleiotropy.

Author

Neema M, Schultz JL, Langbehn DR, Conrad AL, Epping EA, Magnotta VA, and Nopoulos PC

Subjects

Humans, Male, Female, Adolescent, Child, Young Adult, Magnetic Resonance Imaging, Huntingtin Protein genetics, Huntington Disease genetics, Genetic Pleiotropy, Brain metabolism

Abstract

Objective: Huntington's disease (HD) is a neurodegenerative disease caused by a triplet repeat expansion within the gene huntingtin (HTT). Antagonistic pleiotropy is a theory of aging that posits that some genes, facilitating individual fitness early in life through adaptive evolutionary changes, also augment detrimental aging-related processes. Antagonistic pleiotropy theory may explain a positive evolutionary pressure toward functionally advantageous brain development that is vulnerable to rapid degeneration. The current study investigated antagonistic pleiotropy in HD using a years-to-onset paradigm in a unique sample of children and young adults at risk for HD., Methods: Cognitive, behavioral, motor, and brain structural measures from premanifest gene-expanded (n = 79) and gene nonexpanded (n = 112) participants (6-21 years) in the Kids-HD study were examined. All measures in the gene-expanded group were modeled using a mixed-effects regression approach to assess years-to-onset-based changes while controlling for normal growth. Simultaneously, structure-function associations were also examined., Results: Decades from motor onset, gene-expanded participants showed significantly better cognitive, behavioral, and motor scores versus gene nonexpanded controls, along with larger cerebral volumes and cortical features. After this initial peak, a prolonged deterioration was observed in both functional and structural measures. Far from onset, brain measures were positively correlated with functional measures, supporting the view that functional advantages were mediated by structural differences., Interpretation: Mutant HTT may drive the development of a larger than normal brain that subserves superior early-life function. These findings support the antagonistic pleiotropy theory of HTT in HD, where this gene drives early advantage followed by accelerated aging processes. ANN NEUROL 2024;96:1006-1019., (© 2024 The Author(s). Annals of Neurology published by Wiley Periodicals LLC on behalf of American Neurological Association.)

Published

2024

10. The Cerebellar Cognitive Affective/Schmahmann Syndrome Scale in Spinocerebellar Ataxias.

Author

Selvadurai LP, Perlman SL, Ashizawa T, Wilmot GR, Onyike CU, Rosenthal LS, Shakkottai VG, Paulson HL, Subramony SH, Bushara KO, Kuo SH, Dietiker C, Geschwind MD, Nelson AB, Gomez CM, Opal P, Zesiewicz TA, Hawkins T, Yacoubian TA, Nopoulos PC, Sha SJ, Morrison PE, Figueroa KP, Pulst SM, and Schmahmann JD

Subjects

Humans, Male, Female, Middle Aged, Adult, Aged, Executive Function physiology, Neuropsychological Tests, Cognition Disorders diagnosis, Cognition Disorders psychology, Cohort Studies, Spinocerebellar Ataxias genetics, Spinocerebellar Ataxias psychology, Spinocerebellar Ataxias diagnosis, Spinocerebellar Ataxias physiopathology

Abstract

The Cerebellar Cognitive Affective/Schmahmann Syndrome (CCAS) manifests as impaired executive control, linguistic processing, visual spatial function, and affect regulation. The CCAS has been described in the spinocerebellar ataxias (SCAs), but its prevalence is unknown. We analyzed results of the CCAS/Schmahmann Scale (CCAS-S), developed to detect and quantify CCAS, in two natural history studies of 309 individuals Symptomatic for SCA1, SCA2, SCA3, SCA6, SCA7, or SCA8, 26 individuals Pre-symptomatic for SCA1 or SCA3, and 37 Controls. We compared total raw scores, domain scores, and total fail scores between Symptomatic, Pre-symptomatic, and Control cohorts, and between SCA types. We calculated scale sensitivity and selectivity based on CCAS category designation among Symptomatic individuals and Controls, and correlated CCAS-S performance against age and education, and in Symptomatic patients, against genetic repeat length, onset age, disease duration, motor ataxia, depression, and fatigue. Definite CCAS was identified in 46% of the Symptomatic group. False positive rate among Controls was 5.4%. Symptomatic individuals had poorer global CCAS-S performance than Controls, accounting for age and education. The domains of semantic fluency, phonemic fluency, and category switching that tap executive function and linguistic processing consistently separated Symptomatic individuals from Controls. CCAS-S scores correlated most closely with motor ataxia. Controls were similar to Pre-symptomatic individuals whose nearness to symptom onset was unknown. The use of the CCAS-S identifies a high CCAS prevalence in a large cohort of SCA patients, underscoring the utility of the scale and the notion that the CCAS is the third cornerstone of clinical ataxiology., (© 2023. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

11. Unravelling the role of huntingtin: from neurodevelopment to neurodegeneration.

Author

Schultz JL, Neema M, and Nopoulos PC

Subjects

Humans, Neurons, Nerve Tissue Proteins genetics, Huntington Disease genetics

Published

2023

12. The S-Factor, a New Measure of Disease Severity in Spinocerebellar Ataxia: Findings and Implications.

Author

Selvadurai LP, Perlman SL, Wilmot GR, Subramony SH, Gomez CM, Ashizawa T, Paulson HL, Onyike CU, Rosenthal LS, Sair HI, Kuo SH, Ratai EM, Zesiewicz TA, Bushara KO, Öz G, Dietiker C, Geschwind MD, Nelson AB, Opal P, Yacoubian TA, Nopoulos PC, Shakkottai VG, Figueroa KP, Pulst SM, Morrison PE, and Schmahmann JD

Subjects

Humans, Patient Acuity, Disease Progression, Spinocerebellar Ataxias diagnosis, Spinocerebellar Ataxias genetics, Spinocerebellar Ataxias epidemiology

Abstract

Spinocerebellar ataxias (SCAs) are progressive neurodegenerative disorders, but there is no metric that predicts disease severity over time. We hypothesized that by developing a new metric, the Severity Factor (S-Factor) using immutable disease parameters, it would be possible to capture disease severity independent of clinical rating scales. Extracting data from the CRC-SCA and READISCA natural history studies, we calculated the S-Factor for 438 participants with symptomatic SCA1, SCA2, SCA3, or SCA6, as follows: ((length of CAG repeat expansion - maximum normal repeat length) /maximum normal repeat length) × (current age - age at disease onset) × 10). Within each SCA type, the S-Factor at the first Scale for the Assessment and Rating of Ataxia (SARA) visit (baseline) was correlated against scores on SARA and other motor and cognitive assessments. In 281 participants with longitudinal data, the slope of the S-Factor over time was correlated against slopes of scores on SARA and other motor rating scales. At baseline, the S-Factor showed moderate-to-strong correlations with SARA and other motor rating scales at the group level, but not with cognitive performance. Longitudinally the S-Factor slope showed no consistent association with the slope of performance on motor scales. Approximately 30% of SARA slopes reflected a trend of non-progression in motor symptoms. The S-Factor is an observer-independent metric of disease burden in SCAs. It may be useful at the group level to compare cohorts at baseline in clinical studies. Derivation and examination of the S-factor highlighted challenges in the use of clinical rating scales in this population., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2023

13. Longitudinal changes in white matter as measured with diffusion tensor imaging in adult-onset myotonic dystrophy type 1.

Author

Koscik TR, van der Plas E, Long JD, Cross S, Gutmann L, Cumming SA, Monckton DG, Shields RK, Magnotta V, and Nopoulos PC

Subjects

Humans, Adult, Female, Male, Diffusion Tensor Imaging, Executive Function, Anisotropy, Brain diagnostic imaging, White Matter diagnostic imaging, Myotonic Dystrophy complications

Abstract

Myotonic dystrophy type 1 is characterized by neuromuscular degeneration. Our objective was to compare change in white matter microstructure (fractional anisotropy, radial and axial diffusivity), and functional/clinical measures. Participants underwent yearly neuroimaging and neurocognitive assessments over three-years. Assessments encompassed full-scale intelligence, memory, language, visuospatial skills, attention, processing speed, and executive function, as well as clinical symptoms of muscle/motor function, apathy, and hypersomnolence. Mixed effects models were used to examine differences. 69 healthy adults (66.2% women) and 41 DM1 patients (70.7% women) provided 156 and 90 observations, respectively. There was a group by elapsed time interaction for cerebral white matter, where DM1 patients exhibited declines in white matter (all p<0.05). Likewise, DM1 patients either declined (motor), improved more slowly (intelligence), or remained stable (executive function) for functional outcomes. White matter was associated with functional performance; intelligence was predicted by axial (r = 0.832; p<0.01) and radial diffusivity (r = 0.291, p<0.05), and executive function was associated with anisotropy (r = 0.416, p<0.001), and diffusivity (axial: r = 0.237, p = 0.05 and radial: r = 0.300, p<0.05). Indices of white matter health are sensitive to progression in DM1. These results are important for clinical trial design, which utilize short intervals to establish treatment efficacy., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper. The authors declare the following financial interests/personal relationships which may be considered as potential competing interests:, (Copyright © 2023. Published by Elsevier B.V.)

Published

2023

14. Assisted annotation in Deep LOGISMOS: Simultaneous multi-compartment 3D MRI segmentation of calf muscles.

Author

Zhang L, Guo Z, Zhang H, van der Plas E, Koscik TR, Nopoulos PC, and Sonka M

Subjects

Humans, Neural Networks, Computer, Magnetic Resonance Imaging methods, Muscles diagnostic imaging, Image Processing, Computer-Assisted methods, Leg diagnostic imaging

Abstract

Background: Automated segmentation of individual calf muscle compartments in 3D MR images is gaining importance in diagnosing muscle disease, monitoring its progression, and prediction of the disease course. Although deep convolutional neural networks have ushered in a revolution in medical image segmentation, achieving clinically acceptable results is a challenging task and the availability of sufficiently large annotated datasets still limits their applicability., Purpose: In this paper, we present a novel approach combing deep learning and graph optimization in the paradigm of assisted annotation for solving general segmentation problems in 3D, 4D, and generally n-D with limited annotation cost., Methods: Deep LOGISMOS combines deep-learning-based pre-segmentation of objects of interest provided by our convolutional neural network, FilterNet+, and our 3D multi-objects LOGISMOS framework (layered optimal graph image segmentation of multiple objects and surfaces) that uses newly designed trainable machine-learned cost functions. In the paradigm of assisted annotation, multi-object JEI for efficient editing of automated Deep LOGISMOS segmentation was employed to form a new larger training set with significant decrease of manual tracing effort., Results: We have evaluated our method on 350 lower leg (left/right) T1-weighted MR images from 93 subjects (47 healthy, 46 patients with muscular morbidity) by fourfold cross-validation. Compared with the fully manual annotation approach, the annotation cost with assisted annotation is reduced by 95%, from 8 h to 25 min in this study. The experimental results showed average Dice similarity coefficient (DSC) of 96.56 ± 0.26 % $96.56\pm 0.26 \%$ and average absolute surface positioning error of 0.63 pixels (0.44 mm) for the five 3D muscle compartments for each leg. These results significantly improve our previously reported method and outperform the state-of-the-art nnUNet method., Conclusions: Our proposed approach can not only dramatically reduce the expert's annotation efforts but also significantly improve the segmentation performance compared to the state-of-the-art nnUNet method. The notable performance improvements suggest the clinical-use potential of our new fully automated simultaneous segmentation of calf muscle compartments., (© 2023 The Authors. Medical Physics published by Wiley Periodicals LLC on behalf of American Association of Physicists in Medicine.)

Published

2023

15. Longitudinal Clinical and Biological Characteristics in Juvenile-Onset Huntington's Disease.

Author

Schultz JL, Langbehn DR, Al-Kaylani HM, van der Plas E, Koscik TR, Epping EA, Espe-Pfeifer PB, Martin EP, Moser DJ, Magnotta VA, and Nopoulos PC

Subjects

Child, Young Adult, Humans, Female, Adult, Male, Brain, Disease Progression, Biomarkers, Longitudinal Studies, Huntington Disease genetics, Huntington Disease diagnosis, Movement Disorders

Abstract

Background: Juvenile-onset Huntington's disease (JOHD) is a rare form of Huntington's disease (HD) characterized by symptom onset before the age of 21 years. Observational data in this cohort is lacking., Objectives: Quantify measures of disease progression for use in clinical trials of patients with JOHD., Methods: Participants who received a motor diagnosis of HD before the age of 21 were included in the Kids-JOHD study. The comparator group consisted of children and young adults who were at-risk for inheriting the genetic mutation that causes HD, but who were found to have a CAG repeat in the non-expanded range (gene non-expanded [GNE])., Results: Data were obtained between March 17, 2006, and February 13, 2020. There were 26 JOHD participants and 78 GNE participants who were comparable on age (16.03 vs. 14.43, respectively) and sex (53.8% female vs. 57.7% female, respectively). The mean annualized decrease in striatal volume in the JOHD group was -3.99% compared to -0.06% in the GNE (mean difference [MD], -3.93%; 95% confidence intervals [CI], [-4.98 to -2.80], FDR < 0.0001). The mean increase in the Unified Huntington's Disease Rating Scale Total Motor Score per year in the JOHD group was 7.29 points compared to a mean decrease of -0.21 point in the GNE (MD, 7.5; 95% CI, [5.71-9.28], FDR < 0·0001)., Conclusions: These findings demonstrate that structural brain imaging and clinical measures in JOHD may be potential biomarkers of disease progression for use in clinical trials. Collaborative efforts are required to validate these results in a larger cohort of patients with JOHD. © 2022 International Parkinson and Movement Disorder Society., (© 2022 International Parkinson and Movement Disorder Society.)

Published

2023

16. Striatal Development in Early-Onset Huntington's Disease.

Author

Schultz JL, Epping EA, van der Plas E, Magnotta VA, and Nopoulos PC

Subjects

Humans, Corpus Striatum, Huntington Disease genetics

Published

2022

17. Autonomic changes in Huntington's disease correlate with altered central autonomic network connectivity.

Author

Schultz JL, Heinzerling AE, Brinker AN, Harshman LA, Magnotta VA, Kamholz JA, Boes AD, and Nopoulos PC

Abstract

Autonomic dysfunction has been described in patients with Huntington's disease, but it is unclear if these changes in autonomic tone are related to the central autonomic network. We performed a pilot study to investigate the relationship between the integrity of the central autonomic network and peripheral manifestiations of autonomic dysfunction in premanifest Huntington's disease. We recruited male participants with pre-motor-manifest Huntington's disease and a comparison group consisting of healthy, male participants of approximately the same age. As this was a pilot study, only males were included to reduce confounding. Participants underwent a resting-state functional magnetic resonance imaging study to quantify functional connectivity within the central autonomic network, as well as a resting 3-lead ECG to measure heart rate variability with a particular focus on the parasympathetic time-domain measures of root mean square of successive differences between normal heartbeats. The pre-motor-manifest Huntington's disease participants had significantly decreased root mean square of successive differences between normal heartbeats values compared with the healthy comparison group. The pre-motor-manifest Huntington's disease group had significantly lower functional connectivity within the central autonomic network, which was positively correlated with root mean square of successive differences between normal heartbeats. Patients with pre-motor-manifest Huntington's disease have reduced functional connectivity within the central autonomic network, which is significantly associated with observed changes in autonomic function., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2022

18. Behavioral features in child and adolescent huntingtin gene-mutation carriers.

Author

Reasoner EE, van der Plas E, Al-Kaylani HM, Langbehn DR, Conrad AL, Schultz JL, Epping EA, Magnotta VA, and Nopoulos PC

Subjects

Adolescent, Anxiety genetics, Child, Corpus Striatum diagnostic imaging, Humans, Huntingtin Protein, Mutation, Neostriatum, Huntington Disease genetics

Abstract

Introduction: We compared neuropsychiatric symptoms between child and adolescent huntingtin gene-mutation carriers and noncarriers. Given previous evidence of atypical striatal development in carriers, we also assessed the relationship between neuropsychiatric traits and striatal development., Methods: Participants between 6 and 18 years old were recruited from families affected by Huntington's disease and tested for the huntingtin gene expansion. Neuropsychiatric traits were assessed using the Pediatric Behavior Scale and the Behavior Rating Inventory of Executive Function. Striatal volumes were extracted from 3T neuro-anatomical images. Multivariable linear regression models were conducted to evaluate the impact of group (i.e., gene nonexpanded [GNE] or gene expanded [GE]), age, and trajectory of striatal growth on neuropsychiatric symptoms., Results: There were no group differences in any behavioral measure with the exception of depression/anxiety score, which was higher in the GNE group compared to the GE group (estimate = 4.58, t(129) = 2.52, FDR = 0.051). The growth trajectory of striatal volume predicted depression scores (estimate = 0.429, 95% CI 0.15:0.71, p = .0029), where a negative slope of striatal volume over time was associated with lower depression/anxiety., Conclusions: The current findings show that GE children may have lower depression/anxiety compared to their peers. Previously, we observed a unique pattern of early striatal hypertrophy and continued decrement in volume over time among GE children and adolescents. In contrast, GNE individuals largely show striatal volume growth. These findings suggest that the lower scores of depression and anxiety seen in GE children and adolescents may be associated with differential growth of the striatum., (© 2022 The Authors. Brain and Behavior published by Wiley Periodicals LLC.)

Published

2022

19. Neurofilament Light Protein as a Potential Blood Biomarker for Huntington's Disease in Children.

Author

Byrne LM, Schultz JL, Rodrigues FB, van der Plas E, Langbehn D, Nopoulos PC, and Wild EJ

Subjects

Biomarkers, Child, Disease Progression, Humans, Intermediate Filaments metabolism, Neurofilament Proteins, Retrospective Studies, Tumor Necrosis Factor Ligand Superfamily Member 14, Young Adult, Huntington Disease diagnosis, Huntington Disease genetics

Abstract

Background: Juvenile-onset Huntington's disease (JOHD) is a rare and particularly devastating form of Huntington's disease (HD) for which clinical diagnosis is challenging and robust outcome measures are lacking. Neurofilament light protein (NfL) in plasma has emerged as a prognostic biomarker for adult-onset HD., Methods: We performed a retrospective analysis of samples and data collected between 2009 and 2020 from the Kids-HD and Kids-JHD studies. Plasma samples from children and young adults with JOHD, premanifest HD (preHD) mutation carriers, and age-matched controls were used to quantify plasma NfL concentrations using ultrasensitive immunoassay., Results: We report elevated plasma NfL concentrations in JOHD and premanifest HD mutation-carrying children. In pediatric HD mutation carriers who were within 20 years of their predicted onset and patients with JOHD, plasma NfL level was associated with caudate and putamen volumes., Conclusions: Quantifying plasma NfL concentration may assist clinical diagnosis and therapeutic trial design in the pediatric population. © 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society., (© 2022 The Authors. Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson Movement Disorder Society.)

Published

2022

20. Associations between neurofilament light-chain protein, brain structure, and chronic kidney disease.

Author

van der Plas E, Lullmann O, Hopkins L, Schultz JL, Nopoulos PC, and Harshman LA

Subjects

Biomarkers, Brain diagnostic imaging, Brain pathology, Child, Gray Matter, Humans, Intermediate Filaments, Neurofilament Proteins, Renal Insufficiency, Chronic

Abstract

Background: Neurofilament light-chain (NfL) protein is a blood-based marker of neuroaxonal injury. We sought to (1) compare plasma NfL levels in children with chronic kidney disease (CKD) and healthy peers, (2) characterize the relationship between NfL level and kidney function, and (3) evaluate NfL as a predictor of abnormal brain structure in CKD., Methods: Sixteen children with CKD due to congenital kidney anomalies and 23 typically developing peers were included. Plasma NfL was quantified using single-molecule array immunoassay. Participants underwent structural magnetic resonance imaging. Multiple linear regression models were used to evaluate the association between plasma NfL levels, kidney function, and brain structure., Results: An age × group interaction was identified whereby NfL levels increased with age in the CKD group only (estimate = 0.65; confidence interval (CI) = 0.08-1.22; p = 0.026). Decreased kidney function was associated with higher NfL levels (estimate = -0.10; CI = -0.16 to -0.04; p = 0.003). Lower cerebellar gray matter volume predicted increased plasma NfL levels (estimate = -0.00024; CI = -0.00039 to 0.00009; p = 0.004) within the CKD group., Conclusions: Children with CKD show accelerated age-related increases in NfL levels. NfL level is associated with lower kidney function and abnormal brain structure in CKD., Impact: NfL is a component of the neuronal cytoskeleton providing structural axonal support. Elevated NfL has been described in relation to gray and white matter brain volume loss. We have previously described the abnormal cerebellar gray matter in CKD. We explored the relationship between NfL, CKD, and brain volume. There is an accelerated, age-related increase in NfL level in CKD. Within the CKD sample, NfL level is associated with abnormal kidney function and brain structure. Decreased kidney function may be linked to abnormal neuronal integrity in pediatric CKD., (© 2021. The Author(s), under exclusive licence to the International Pediatric Research Foundation, Inc.)

Published

2022

21. Global and Regional White Matter Fractional Anisotropy in Children with Chronic Kidney Disease.

Author

van der Plas E, Solomon MA, Hopkins L, Koscik T, Schultz J, Brophy PD, Nopoulos PC, and Harshman LA

Subjects

Adolescent, Anisotropy, Brain diagnostic imaging, Child, Cross-Sectional Studies, Diffusion Magnetic Resonance Imaging, Diffusion Tensor Imaging, Female, Humans, Male, Renal Insufficiency, Chronic, White Matter diagnostic imaging

Abstract

Objective: To investigate the associations between neurocognition and white matter integrity in children with chronic kidney disease (CKD)., Study Design: This cross-sectional study included 17 boys (age 6-16 years) with a diagnosis of mild to moderate (stages 1-3, nondialysis/nontransplant) CKD because of congenital anomalies of the kidney and urinary tract and 20 typically developing community controls. Participants underwent 3T neuroimaging and diffusion-weighted magnetic resonance imaging to assess white matter fractional anisotropy. Multivariable linear regression models were used to evaluate the impact of each group (controls vs CKD) on white matter fractional anisotropy, adjusting for age. Associations between white matter fractional anisotropy and neurocognitive abilities within the CKD group were also evaluated using regression models that were adjusted for age. The false discovery rate was used to account for multiple comparisons; wherein false discovery values <0.10 were considered significant., Results: Global white matter fractional anisotropy was reduced in patients with CKD relative to controls (standardized estimate = -0.38, 95% CI -0.69:-0.07), driven by reductions within the body of the corpus callosum (standardized estimate = -0.44, 95% CI -0.75:-0.13), cerebral peduncle (SE = -0.37, 95% CI -0.67:-0.07), cingulum (hippocampus) (standardized estimate = -0.45, 95% CI -0.75:-0.14), and posterior limb of the internal capsule (standardized estimate = -0.46, 95% CI -0.76:-0.15). Medical variables and neurocognitive abilities were not significantly associated with white matter fractional anisotropy., Conclusions: White matter development is vulnerable in children with CKD because of congenital causes, even prior to the need for dialysis or transplantation., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2022

22. Blood-Based Markers of Neuronal Injury in Adult-Onset Myotonic Dystrophy Type 1.

Author

van der Plas E, Long JD, Koscik TR, Magnotta V, Monckton DG, Cumming SA, Gottschalk AC, Hefti M, Gutmann L, and Nopoulos PC

Abstract

Introduction: The present study had four aims. First, neuronal injury markers, including neurofilament light (NF-L), total tau, glial fibrillary acidic protein (GFAP) and ubiquitin C-terminal hydrolase (UCH-L1), were compared between individuals with and without adult-onset myotonic dystrophy type 1 (DM1). Second, the impact of age and CTG repeat on brain injury markers was evaluated. Third, change in brain injury markers across the study period was quantified. Fourth, associations between brain injury markers and cerebral white matter (WM) fractional anisotropy (FA) were identified., Methods: Yearly assessments, encompassing blood draws and diffusion tensor imaging on a 3T scanner, were conducted on three occasions. Neuronal injury markers were quantified using single molecule array (Simoa)., Results: The sample included 53 patients and 70 controls. NF-L was higher in DM1 patients than controls, with individuals in the premanifest phases of DM1 (PreDM1) exhibiting intermediate levels ( χ ( 2 ) 2 = 38.142, P < 0.001). Total tau was lower in DM1 patients than controls (Estimate = -0.62, 95% confidence interval [CI] -0.95: -0.28, P < 0.001), while GFAP was elevated in PreDM1 only (Estimate = 30.37, 95% CI 10.56:50.19, P = 0.003). Plasma concentrations of UCH-L1 did not differ between groups. The age by CTG interaction predicted NF-L: patients with higher estimated progenitor allelege length (ePAL) had higher NF-L at a younger age, relative to patients with lower CTG repeat; however, the latter exhibited faster age-related change (Estimate = -0.0021, 95% CI -0.0042: -0.0001, P = 0.045). None of the markers changed substantially over the study period. Finally, cerebral WM FA was significantly associated with NF-L (Estimate = -42.86, 95% CI -82.70: -3.02, P = 0.035)., Interpretation: While NF-L appears sensitive to disease onset and severity, its utility as a marker of progression remains to be determined. The tau assay may have low sensitivity to tau pathology associated with DM1., Competing Interests: EvdP, TK, VM, SC, AG, MH, LG, and PN all report no disclosures. JL is a paid advisory board member for F. Hoffmann-La Roche Ltd and UniQue, and he is a paid consultant for Triplet, PTC, and Remix. DM has been a scientific consultant and/or received an honoraria or stock options from Biogen Idec, AMO Pharma, Charles River, Vertex Pharmaceuticals, Triplet Therapeutics, LoQus23, BridgeBio, and Small Molecule RNA. DM is on the Scientific Advisory Board of the Myotonic Dystrophy Foundation, is a scientific advisor to the Myotonic Dystrophy Support Group and is a vice president of Muscular Dystrophy UK., (Copyright © 2022 van der Plas, Long, Koscik, Magnotta, Monckton, Cumming, Gottschalk, Hefti, Gutmann and Nopoulos.)

Published

2022

23. Cortical Features in Child and Adolescent Carriers of Mutant Huntingtin (mHTT).

Author

Reasoner EE, van der Plas E, Langbehn DR, Conrad AL, Koscik TR, Epping EA, Magnotta VA, and Nopoulos PC

Subjects

Adolescent, Child, Humans, Huntingtin Protein genetics, Huntington Disease genetics

Abstract

Background: Molecular studies provide evidence that mutant huntingtin (mHTT) affects early cortical development; however, cortical development has not been evaluated in child and adolescent carriers of mHTT., Objective: To evaluate the impact of mHTT on the developmental trajectories of cortical thickness and surface area., Methods: Children and adolescents (6-18 years) participated in the KidsHD study. mHTT carrier status was determined for research purposes only to classify participants as gene expanded (GE) and gene non-expanded (GNE). Cortical features were extracted from 3T neuroimaging using FreeSurfer. Nonlinear mixed effects models were conducted to determine if age, group, and CAG repeat were associated with cortical morphometry., Results: Age-related changes in cortical morphometry were similar across groups. Expanded CAG repeat was not significantly associated with cortical features., Conclusion: While striatal development is markedly different in GE and GNE, developmental change of the cortex appears grossly normal among child and adolescent carrier of mHTT.

Published

2022

24. Sleep disturbances by disease type and stage in Huntington's disease.

Author

Ogilvie AC, Nopoulos PC, and Schultz JL

Subjects

Adult, Case-Control Studies, Disease Progression, Female, Humans, Huntington Disease physiopathology, Kaplan-Meier Estimate, Male, Middle Aged, Odds Ratio, Proportional Hazards Models, Sleep, Sleep Wake Disorders etiology, Huntington Disease complications, Severity of Illness Index, Sleep Wake Disorders epidemiology

Abstract

Introduction: Sleep disturbances are a common symptom in patients with Huntington's disease (HD). However, it is unclear when in the disease course of HD sleep disturbances become more frequent compared to the general population. This study investigated the frequency and odds of developing sleep disturbances between adults with HD or at-risk for HD and non-HD controls., Methods: Participants from the Enroll-HD study were split by both disease type and disease severity using CAG length, diagnostic confidence level, and total functional capacity score. Multivariate logistic regression was used to calculate odds ratios adjusted for age, sex, tobacco and alcohol use, depression and psychosis scores, and cognition to compare HD groups to non-HD controls. Cox proportional hazards models and Kaplan Meier curves were used to determine differences in probabilities of developing sleep disturbances and how sleep disturbances are related to age at motor onset., Results: There were significant differences between HD participants and non-HD controls in both the disease type and disease stage analyses (p < 0.001). The odds of a sleep disturbance increased with worsening disease stage and was highest in those with juvenile HD. The development of a sleep disorder in manifest HD participants was observed to be around the time of disease onset., Conclusions: Sleep disturbances are more frequent in HD patients than those without HD. There are also differences based on disease type and stage. This is supplemented by the finding that the onset of sleep disturbances occurs near the time of motor onset of HD., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

25. Cognitive Deficits, Apathy, and Hypersomnolence Represent the Core Brain Symptoms of Adult-Onset Myotonic Dystrophy Type 1.

Author

Miller JN, Kruger A, Moser DJ, Gutmann L, van der Plas E, Koscik TR, Cumming SA, Monckton DG, and Nopoulos PC

Abstract

Myotonic dystrophy type 1 is the most common form of muscular dystrophy in adults, and is primarily characterized by muscle weakness and myotonia, yet some of the most disabling symptoms of the disease are cognitive and behavioral. Here we evaluated several of these non-motor symptoms from a cross-sectional time-point in one of the largest longitudinal studies to date, including full-scale intelligence quotient, depression, anxiety, apathy, sleep, and cerebral white matter fractional anisotropy in a group of 39 adult-onset myotonic dystrophy type 1 participants (27 female) compared to 79 unaffected control participants (46 female). We show that intelligence quotient was significantly associated with depression ( P < 0.0001) and anxiety ( P = 0.018), but not apathy ( P < 0.058) or hypersomnolence ( P = 0.266) in the DM1 group. When controlling for intelligence quotient, cerebral white matter fractional anisotropy was significantly associated with apathy ( P = 0.042) and hypersomnolence ( P = 0.034), but not depression ( P = 0.679) or anxiety ( P = 0.731) in the myotonic dystrophy type 1 group. Finally, we found that disease duration was significantly associated with apathy ( P < 0.0001), hypersomnolence ( P < 0.001), IQ ( P = 0.038), and cerebral white matter fractional anisotropy ( P < 0.001), but not depression ( P = 0.271) or anxiety ( P = 0.508). Our results support the hypothesis that cognitive deficits, hypersomnolence, and apathy, are due to the underlying neuropathology of myotonic dystrophy type 1, as measured by cerebral white matter fractional anisotropy and disease duration. Whereas elevated symptoms of depression and anxiety in myotonic dystrophy type 1 are secondary to the physical symptoms and the emotional stress of coping with a chronic and debilitating disease. Results from this work contribute to a better understanding of disease neuropathology and represent important therapeutic targets for clinical trials., Competing Interests: Within the last three years DM has been a scientific consultant and/or received an honoraria/stock options from AMO Pharma, Charles River, Vertex Pharmaceuticals, Triplet Therapeutics, LoQus23 and Small Molecule RNA. DM also had/has research contracts with AMO Pharma and Vertex Pharmaceuticals. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Miller, Kruger, Moser, Gutmann, van der Plas, Koscik, Cumming, Monckton and Nopoulos.)

Published

2021

26. Association of CAG Repeat Length in the Huntington Gene With Cognitive Performance in Young Adults.

Author

Schultz JL, Saft C, and Nopoulos PC

Subjects

Adolescent, Adult, Cross-Sectional Studies, Databases, Genetic, Female, Humans, Huntington Disease diagnosis, Male, Young Adult, Cognition physiology, Huntingtin Protein genetics, Huntington Disease genetics, Huntington Disease psychology, Trinucleotide Repeat Expansion genetics

Abstract

Objective: To investigate the relationships between CAG repeat length in the huntingtin gene and cognitive performance in participants above and below the disease threshold for Huntington disease (HD), we performed a cross-sectional analysis of the Enroll-HD database., Methods: We analyzed data from young, developing adults (≤30 years of age) without a history of depression, apathy, or cognitive deficits. We included participants with and without the gene expansion (CAG ≥36) for HD. All participants had to have a Total Functional Capacity Score of 13, a diagnostic confidence level of zero, and a total motor score of <10 and had to be >28.6 years from their predicted motor onset. We performed regression analyses to investigate the nonlinear relationship between CAG repeat length and various cognitive measures controlling for age, sex, and education level., Results: There were significant positive relationships between CAG repeat length and the Symbol Digit Modalities, Stroop Color Naming, and Stroop Interference test scores. There were significant negative relationships between CAG repeat length and scores on Parts A and B of the Trails Making Test ( p < 0.05), indicating that longer CAG repeat lengths were associated with better performance., Discussion: An increasing number of CAG repeats in the huntingtin gene below disease threshold and low pathologic CAG ranges were associated with some improvements in cognitive performance. These findings outline the relationship between CAG repeats within the huntingtin gene and cognitive development., Classification of Evidence: This study provides Class IV evidence that CAG repeat length is positively associated with cognitive function across a spectrum of CAG repeat lengths., (© 2021 American Academy of Neurology.)

Published

2021

27. Age-Related Cognitive Changes as a Function of CAG Repeat in Child and Adolescent Carriers of Mutant Huntingtin.

Author

Schultz JL, van der Plas E, Langbehn DR, Conrad AL, and Nopoulos PC

Subjects

Adolescent, Adult, Child, Executive Function, Female, Heterozygote, Humans, Language Development, Longitudinal Studies, Male, Mutation, Neuropsychological Tests, Verbal Behavior, Visual Perception, Young Adult, Aging psychology, Cognition physiology, Huntingtin Protein genetics, Trinucleotide Repeats genetics

Abstract

Limited data exists regarding the disease course of Huntington's Disease (HD) in children and young adults. Here, we evaluate the trajectory of various cognitive skill development as a function of cytosine-adenine-guanine (CAG) repeat length in children and adolescents that carry the mutation that causes HD. We discovered that the development of verbal skills seems to plateau earlier as CAG repeat length increases. These findings increase our understanding of the relationship between neurodegeneration and neurodevelopment and may have far-reaching implications for future gene-therapy treatment strategies. ANN NEUROL 2021;89:1036-1040., (© 2021 American Neurological Association.)

Published

2021

28. The Cerebellum and Implicit Sequencing: Evidence from Cerebellar Ataxia.

Author

Morgan OP, Slapik MB, Iannuzzelli KG, LaConte SM, Lisinski JM, Nopoulos PC, Cochran AM, Kronemer SI, Rosenthal LS, and Marvel CL

Subjects

Adult, Aged, Female, Humans, Male, Middle Aged, Cerebellar Ataxia physiopathology, Cerebellum physiology, Learning physiology

Abstract

The cerebellum recognizes sequences from prior experiences and uses this information to generate internal models that predict future outcomes in a feedforward manner [Front Hum Neurosci 8: 475, 2014; Cortex 47: 137-44, 2011; Cerebellum 7: 611-5, 2008; J Neurosci 26: 9107-16, 2006]. This process has been well documented in the motor domain, but the cerebellum's role in cognitive sequencing, within the context of implicit versus explicit processes, is not well characterized. In this study, we tested individuals with cerebellar ataxia and healthy controls to clarify the role of the cerebellum sequencing using variations on implicit versus explicit and motor versus cognitive demands across five experiments. Converging results across these studies suggest that cerebellar feedforward mechanisms may be necessary for sequencing in the implicit domain only. In the ataxia group, rhythmic tapping, rate of motor learning, and implicit sequence learning were impaired. However, for cognitive sequencing that could be accomplished using explicit strategies, the cerebellar group performed normally, as though they shifted to extra-cerebellar mechanisms to compensate. For example, when cognitive and motor functions relied on cerebellar function simultaneously, the ataxia group's motor function was unaffected, in contrast to that of controls whose motor performance declined as a function of cognitive load. These findings indicated that the cerebellum is not critical for all forms of sequencing per se. Instead, it plays a fundamental role for sequencing within the implicit domain, whether functions are motor or cognitive. Moreover, individuals with cerebellar ataxia are generally able to compensate for cognitive sequencing when explicit strategies are available in order to preserve resources for motor function.

Published

2021

29. Autonomic dysregulation as an early pathologic feature of Huntington Disease.

Author

Schultz JL, Harshman LA, Kamholz JA, and Nopoulos PC

Subjects

Adolescent, Adult, Blood Pressure, Child, Humans, Huntington Disease genetics

Abstract

Objective: Autonomic nervous system (ANS) dysfunction has been described in adults with motor-manifest Huntington's Disease (HD) or those who are near their predicted motor onset. It is unclear if ANS dysfunction is present years prior to the onset of motor symptoms of HD. To bridge this gap in knowledge, we compared crude markers of ANS function between children with the gene-expansion that causes HD (GE group) who were decades from their predicted motor onset and gene-non-expanded children (GNE group)., Methods: We included participants from the Kids-HD study who were <18 years old. Linear mixed effects regression models were constructed that controlled for sex, age, and BMI, and included a random effect per participant and per family. We compared resting heart rate (rHR), core body temperature (CBT), systolic blood pressure (SBP), and diastolic blood pressure (DBP) between the GE (n = 84) and GNE (n = 238) groups. We then grouped participants from the GE group based on their predicted years to onset (YTO) and compared their vital signs to the GNE group., Results: The GE group had higher rHR (∆ = 3.83, p = 0.0064), SBP (∆ = 2.38, p = 0.032), and CBT (∆ = 0.16, t = 2.92, p = 0.007). The mean rHR and CBT became significantly elevated compared to the GNE group in participants who had 15-25 YTO and those who had <15 YTO. The mean SBP of participants who had 25-35 YTO was significantly elevated compared to the GNE group., Conclusion: ANS dysfunction in HD seems to occur approximately 20 years prior to the predicted onset of motor symptoms of HD., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

30. White matter microstructure relates to motor outcomes in myotonic dystrophy type 1 independently of disease duration and genetic burden.

Author

Koscik TR, van der Plas E, Gutmann L, Cumming SA, Monckton DG, Magnotta V, Shields RK, and Nopoulos PC

Subjects

Adult, Female, Humans, Male, Middle Aged, Myotonic Dystrophy genetics, Myotonic Dystrophy pathology, White Matter pathology

Abstract

Deficits in white matter (WM) integrity and motor symptoms are among the most robust and reproducible features of myotonic dystrophy type 1 (DM1). In the present study, we investigate whether WM integrity, obtained from diffusion-weighted MRI, corresponds to quantifiable motor outcomes (e.g., fine motor skills and grip strength) and patient-reported, subjective motor deficits. Critically, we explore these relationships in the context of other potentially causative variables, including: disease duration, elapsed time since motor symptom onset; and genetic burden, the number of excessive CTG repeats causing DM1. We found that fractional anisotropy (a measure of WM integrity) throughout the cerebrum was the strongest predictor of grip strength independently of disease duration and genetic burden, while radial diffusivity predicted fine motor skill (peg board performance). Axial diffusivity did not predict motor outcomes. Our results are consistent with the notion that systemic degradation of WM in DM1 mediates the relationship between DM1 progression and genetic burden with motor outcomes of the disease. Our results suggest that tracking changes in WM integrity over time may be a valuable biomarker for tracking therapeutic interventions, such as future gene therapies, for DM1.

Published

2021

31. Early pediatric chronic kidney disease is associated with brain volumetric gray matter abnormalities.

Author

Solomon MA, van der Plas E, Langbehn KE, Novak M, Schultz JL, Koscik TR, Conrad AL, Brophy PD, Furth SL, Nopoulos PC, and Harshman LA

Subjects

Adolescent, Cerebellum pathology, Cerebrum pathology, Child, Educational Status, Female, Glomerular Filtration Rate, Gray Matter diagnostic imaging, Humans, Kidney abnormalities, Magnetic Resonance Imaging, Male, Mathematics, Mothers education, Neurocognitive Disorders diagnostic imaging, Neuroimaging, Organ Size, Pilot Projects, Renal Insufficiency, Chronic complications, Social Class, Speech Disorders diagnostic imaging, Speech Disorders etiology, Urinary Tract abnormalities, Gray Matter pathology, Neurocognitive Disorders etiology, Renal Insufficiency, Chronic pathology

Abstract

Background: The impact of pediatric chronic kidney disease (pCKD) on the brain remains poorly defined. The objective of this study was to compare brain morphometry between children with early-stage pCKD and typically developing peers using structural magnetic resonance imaging (MRI)., Methods: The sample age range was 6-16 years. A total of 18 children with a diagnosis of pCKD (CKD stages 1-3) due to congenital anomalies of the kidney and urinary tract and 24 typically developing peers were included. Volumetric data from MRI and neurocognitive testing were compared using linear models including pCKD status, age, maternal education level, and socioeconomic status., Results: Cerebellar gray matter volume was significantly smaller in pCKD, t (38)  = -2.71, p = 0.01. In contrast, cerebral gray matter volume was increased in pCKD, t (38)  = 2.08, p = 0.04. Reduced cerebellum gray matter volume was associated with disease severity, operationalized as estimated glomerular filtration rate (eGFR), t (14)  = 2.21, p = 0.04 and predicted lower verbal fluency scores in the pCKD sample. Enlarged cerebral gray matter in the pCKD sample predicted lower scores on mathematics assessment., Conclusions: This study provides preliminary evidence for a morphometric underpinning to the cognitive deficits observed in pCKD., Impact: The impact of pediatric chronic kidney disease (CKD) on the brain remains poorly defined, with no data linking brain morphometry and observed cognitive deficits noted in this population. We explored the relationship between brain morphometry (using structural magnetic resonance imaging), cognition, and markers of CKD. Cerebellar and cerebral gray matter volumes are different in early CKD. Volumetric decreases in cerebellar gray matter are predicted by lower eGFR, suggesting a link between disease and brain morphometry. Reduced cerebellar gray matter predicted lower verbal fluency for those with pCKD. Enlarged cerebral gray matter in the pCKD sample predicted lower mathematics performance.

Published

2021

32. Cognitive function and its relationship with brain structure in myotonic dystrophy type 1.

Author

Langbehn KE, van der Plas E, Moser DJ, Long JD, Gutmann L, and Nopoulos PC

Subjects

Adult, Aged, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Myotonic Dystrophy pathology, Brain pathology, Cognitive Dysfunction etiology, Cognitive Dysfunction pathology, Myotonic Dystrophy complications

Abstract

Studies have shown relationships between white matter abnormalities and cognitive dysfunction in myotonic dystrophy type 1 (DM1), but comprehensive analysis of potential structure-function relationships are lacking. Fifty adult-onset DM1 individuals (33 female) and 68 unaffected adults (45 female) completed the Wechsler Adult Intelligence Scale-IV (WAIS-IV) to determine the levels and patterns of intellectual functioning. Neuroimages were acquired with a 3T scanner and were processed with BrainsTools. Regional brain volumes (regions of interest, ROIs) were adjusted for inter-scanner variation and intracranial volume. Linear regression models were conducted to assess if group by ROI interaction terms significantly predicted WAIS-IV composite scores. Models were adjusted for age and sex. The DM1 group had lower Perceptual Reasoning Index (PRI), Working Memory Index (WMI), and Processing Speed Index (PSI) scores than the unaffected group (PRI t (113)  = -3.28, p = 0.0014; WMI t (114)  = -3.49, p = 0.0007; PSI t (114)  = -2.98, p = 0.0035). The group by hippocampus interaction term was significant for both PRI and PSI (PRI (t (111)  = -2.82, p = 0.0057; PSI (t (112)  = -2.87, p = 0.0049)). There was an inverse association between hippocampal volume and both PRI and PSI in the DM1 group (the higher the volume, the lower the intelligence quotient scores), but no such association was observed in the unaffected group. Enlarged hippocampal volume may underlie some aspects of cognitive dysfunction in adult-onset DM1, suggesting that increased volume of the hippocampus may be pathological., (© 2020 Wiley Periodicals, Inc.)

Published

2021

33. Quantifying the Onset of Unintended Weight Loss in Huntington's Disease: A Retrospective Analysis of Enroll-HD.

Author

Ogilvie AC, Nopoulos PC, and Schultz JL

Subjects

Cognition, Disease Progression, Humans, Retrospective Studies, Weight Loss, Huntington Disease therapy

Abstract

Background: Unintended weight loss and decreased body mass indexes (BMIs) are common symptoms of individuals with manifest HD. It is unknown at what point during disease progression weight loss starts to accelerate relative to a healthy individual's weight and when recommended interventions should be initiated to have the strongest impact on patient care., Objective: The objective of this study was to identify a point in time relative to age at motor onset when the decline in weight in HD starts to accelerate relative to a non-HD population. The relationship between initiation of weight loss interventions and changes in weight loss was also explored., Methods: Participants from the fifth version of the Enroll-HD study were identified for this research. Linear mixed-effects piecewise regression models were used to estimate the point in time relative to the reported age of motor onset in which BMI started to decline in participants with HD compared to healthy non-HD controls. A post-hoc descriptive analysis was performed to look at when nutritional supplements and swallow therapy were initiated in participants with HD relative to motor onset., Results: BMI decline in the HD group began to accelerate compared to controls approximately 5.7 years after the reported age of motor onset (95% CI: 4.7-6.9). The average initiation times of swallow therapy and nutritional supplements were 7.7 years (SD = 5.5 years) and 6.7 years (SD = 6.5 years) after motor onset, respectively., Conclusion: Our findings suggest a potential point for intervention of nutrition programs or therapies used to prevent future weight loss.

Published

2021

34. DMPK mRNA Expression in Human Brain Tissue Throughout the Lifespan.

Author

Langbehn KE, Carlson-Stadler Z, van der Plas E, Hefti MM, Dawson JD, Moser DJ, and Nopoulos PC

Abstract

Objective: Myotonic dystrophy is a multisystem disorder caused by a trinucleotide repeat expansion on the myotonic dystrophy protein kinase ( DMPK ) gene. To determine whether wildtype DMPK expression patterns vary as a function of age, we analyzed DMPK expression in the brain from 99 donors ranging from 5 postconceptional weeks to 80 years old., Methods: We used the BrainSpan messenger RNA sequencing and the Yale Microarray data sets, which included brain tissue samples from 42 and 57 donors, respectively. Collectively, donors ranged in age from 5 postconceptional weeks to 80 years old. DMPK expression was normalized for each donor across regions available in both data sets. Restricted cubic spline linear regression models were used to analyze the effects of log-transformed age and sex on normalized DMPK expression data., Results: Age was a statistically significant predictor of normalized DMPK expression pattern in the human brain in the BrainSpan ( p < 0.005) and Yale data sets ( p < 0.005). Sex was not a significant predictor. Across both data sets, normalized wildtype DMPK expression steadily increases during fetal development, peaks around birth, and then declines to reach a nadir around age 10., Conclusions: Peak expression of DMPK coincides with a time of dynamic brain development. Abnormal brain DMPK expression due to myotonic dystrophy may have implications for early brain development., (Copyright © 2020 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2020

35. Brainstem and striatal volume changes are detectable in under 1 year and predict motor decline in spinocerebellar ataxia type 1.

Author

Koscik TR, Sloat L, van der Plas E, Joers JM, Deelchand DK, Lenglet C, Öz G, and Nopoulos PC

Abstract

Spinocerebellar ataxia type 1 is a progressive neurodegenerative, movement disorder. With potential therapies on the horizon, it is critical to identify biomarkers that (i) differentiate between unaffected and spinocerebellar ataxia Type 1-affected individuals; (ii) track disease progression; and (iii) are directly related to clinical changes of the patient. Magnetic resonance imaging of volumetric changes in the brain may be a suitable source of biomarkers for spinocerebellar ataxia Type 1. In a previous report on a longitudinal study of patients with spinocerebellar ataxia Type 1, we evaluated the volume and magnetic resonance spectroscopy measures of the cerebellum and pons, showing pontine volume and pontine N -acetylaspartate-to- myo -inositol ratio were sensitive to change over time. As a follow-up, the current study conducts a whole brain exploration of volumetric MRI measures with the aim to identify biomarkers for spinocerebellar ataxia Type 1 progression. We adapted a joint label fusion approach using multiple, automatically generated, morphologically matched atlases to label brain regions including cerebellar sub-regions. We adjusted regional volumes by total intracranial volume allowing for linear and power-law relationships. We then utilized Bonferroni corrected linear mixed effects models to (i) determine group differences in regional brain volume and (ii) identify change within affected patients only. We then evaluated the rate of change within each brain region to identify areas that changed most rapidly. Lastly, we used a penalized, linear mixed effects model to determine the strongest brain predictors of motor outcomes. Decrease in pontine volume and accelerating decrease in putamen volume: (i) reliably differentiated spinocerebellar ataxia Type 1-affected and -unaffected individuals; (ii) were observable in affected individuals without referencing an unaffected comparison group; (iii) were detectable within ∼6-9 months; and (iv) were associated with increased disease burden. In conclusion, volumetric change in the pons and putamen may provide powerful biomarkers to track disease progression in spinocerebellar ataxia Type 1. The methods employed here are readily translatable to current clinical settings, providing a framework for study and usage of volumetric neuroimaging biomarkers for clinical trials., (© The Author(s) (2020). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published

2020

36. Encoding of facial expressions in individuals with adult-onset myotonic dystrophy type 1.

Author

Johnson C, Langbehn KE, Long JD, Moser D, Cross S, Gutmann L, Nopoulos PC, and van der Plas E

Subjects

Adult, Case-Control Studies, Cognition Disorders complications, Cognition Disorders diagnosis, Cognition Disorders psychology, Emotions, Female, Humans, Male, Middle Aged, Myotonic Dystrophy complications, Myotonic Dystrophy psychology, Reaction Time, Young Adult, Facial Expression, Facial Recognition, Myotonic Dystrophy diagnosis

Abstract

Introduction: Emotional issues are often reported among individuals with myotonic dystrophy type 1 (DM1) and some studies have suggested that deficits in ability to quickly encode emotions may contribute to these problems. However, poor performance on emotion encoding tasks could also be explained by a more general cognitive deficit (Full Scale IQ [FSIQ]), rather than a specific deficit in emotional processing. Since individuals with DM1 are known to exhibit difficulties in general cognitive abilities, it is important to account for FSIQ when evaluating emotion encoding. The aim of this study was to compare emotion encoding abilities between individuals with and without DM1, while adjusting for the impact of general cognitive abilities (FSIQ). Methods: The sample included 35 individuals with adult-onset DM1 and 54 unaffected adults who completed assessments of emotion encoding abilities (Ekman faces test) and general cognitive abilities (Wechsler Adult Intelligence Scale-IV). Performance on the emotion encoding task was operationalized as proportion correct and response time. Group differences in proportion correct were evaluated with generalized linear regression, while linear regression models were used to determine the effect of group on response time. Models were adjusted for age, sex, and FSIQ. The false discovery rate (FDR) was applied to control false positives due to multiple comparisons ( p fdr ). Results: No significant group differences were observed for emotion encoding abilities (all p fdr > 0.13). FSIQ was significantly associated with proportion correct and with response time (all p fdr < 0.05). Conclusions: Emotion encoding appears intact in individuals with DM1 and variation in the ability to encode facial expressions was associated with FSIQ. Further research is required to address the relationship between general cognitive abilities and emotion encoding abilities among DM1 patients.

Published

2020

37. Special Issue: Juvenile Onset Huntington's Disease.

Author

Nopoulos PC

Abstract

[...].

Published

2020

38. Hypertension Is Associated With an Earlier Age of Onset of Huntington's Disease.

Author

Schultz JL, Harshman LA, Langbehn DR, and Nopoulos PC

Subjects

Adult, Age of Onset, Humans, Proportional Hazards Models, Huntington Disease complications, Huntington Disease epidemiology, Huntington Disease genetics, Hypertension epidemiology, Movement Disorders

Abstract

Background and Objective: Hypertension (HTN) is associated with worsening clinical outcomes in neurodegenerative diseases. The relationship between HTN and the age of diagnosis (ADx) of Huntington's disease (HD) is not clear, however. This study sought to determine if the presence of HTN in adult patients with premanifest HD was associated with an earlier ADx compared with normotensive patients with HD., Methods: Premanifest participants from Enroll-HD were included if they had a cytosine-adenine-guanine greater than or equal to 36, baseline diagnostic confidence level less than 4, baseline total functional capacity score greater than 11, and baseline motor score less than 21. There were 3020 premanifest participants with HD, and 293 reported a diagnosis of HTN. HTN was transformed into a time-dependent variable, and a Cox proportional hazard survival model determine if the presence of HTN affected the time to motor conversion. Baseline cytosine-adenine-guanine-age product score, cytosine-adenine-guanine repeat length, baseline age, sex, baseline body mass index, smoking history, and region were included as covariates., Results: Participants with HTN had an increased annualized hazard of motor conversion compared to normotensive participants with HD (hazard ratio, 1.29; 95% confidence interval, 1.02-1.64; P = 0.034)., Conclusions: A previous study reported a protective effect of HTN in HD, but did not account for the fact that the prevalence of HTN increases with age. By controlling for this confounder, we more accurately outline the association between the ADx of HD to demonstrate that a diagnosis of HTN may be associated with an earlier ADx of HD. These results represent an association, however, and further investigation is warranted. © 2020 International Parkinson and Movement Disorder Society., (© 2020 International Parkinson and Movement Disorder Society.)

Published

2020

39. Autonomic Changes in Juvenile-Onset Huntington's Disease.

Author

Schultz JL and Nopoulos PC

Abstract

Patients with adult-onset Huntington's Disease (AOHD) have been found to have dysfunction of the autonomic nervous system that is thought to be secondary to neurodegeneration causing dysfunction of the brain-heart axis. However, this relationship has not been investigated in patients with juvenile-onset HD (JOHD). The aim of this study was to compare simple physiologic measures between patients with JOHD ( n = 27 participants with 64 visits) and participants without the gene expansion that causes HD (GNE group; n = 259 participants with 395 visits). Using data from the Kids-JOHD study, we compared mean resting heart rate (rHR), systolic blood pressure (SBP), and diastolic blood pressure (DBP) between the JOHD and GNE groups. We also divided the JOHD group into those with childhood-onset JOHD (motor diagnosis received before the age of 13, [ n = 16]) and those with adolescent-onset JOHD (motor diagnosis received at or after the age of 13 [ n = 11]). We used linear mixed-effects models to compare the group means while controlling for age, sex, and parental socioeconomic status and including a random effect per participant and family. For the primary analysis, we found that the JOHD group had significant increases in their rHR compared to the GNE group. Conversely, the JOHD group had significantly lower SBP compared to the GNE group. The JOHD group also had lower DBP compared to the GNE group, but the results did not reach significance. SBP and DBP decreased as disease duration of JOHD increased, but rHR did not continue to increase. Resting heart rate is more sensitive to changes in autonomic function as compared to SBP. Therefore, these results seem to indicate that early neurodegenerative changes of the central autonomic network likely lead to an increase in rHR while later progression of JOHD leads to changes in blood pressure. We hypothesize that these later changes in blood pressure are secondary to neurodegeneration in brainstem regions such as the medulla.

Published

2020

40. The Association between CAG Repeat Length and Age of Onset of Juvenile-Onset Huntington's Disease.

Author

Schultz JL, Moser AD, and Nopoulos PC

Abstract

There is a known negative association between cytosine-adenine-guanine (CAG) repeat length and the age of motor onset (AMO) in adult-onset Huntington's Disease (AOHD). This relationship is less clear in patients with juvenile-onset Huntington's disease (JOHD), however, given the rarity of this patient population. The aim of this study was to investigate this relationship amongst a relatively large group of patients with JOHD using data from the Kids-JOHD study. Additionally, we analyzed data from the Enroll-HD platform and the Predict-HD study to compare the relationship between CAG repeat length and AMO amongst patients with AOHD to that amongst patients with JOHD using linear regression models. In line with previous reports, the variance in AMO that was predicted by CAG repeat length was 59% ( p < 0.0001) in the Predict-HD study and 57% from the Enroll-HD platform ( p < 0.0001). However, CAG repeat length predicted 84% of the variance in AMO amongst participants from the Kids-JOHD study ( p < 0.0001). These results indicate that there may be a stronger relationship between CAG repeat length and AMO in patients with JOHD as compared to patients with AOHD. These results provide additional information that may help to model disease progression of JOHD, which is beneficial for the planning and implementation of future clinical trials.

Published

2020

41. Variant repeats within the DMPK CTG expansion protect function in myotonic dystrophy type 1.

Author

Miller JN, van der Plas E, Hamilton M, Koscik TR, Gutmann L, Cumming SA, Monckton DG, and Nopoulos PC

Abstract

Objective: We tested the hypothesis that variant repeat interruptions (RIs) within the DMPK CTG repeat tract lead to milder symptoms compared with pure repeats (PRs) in myotonic dystrophy type 1 (DM1)., Methods: We evaluated motor, neurocognitive, and behavioral outcomes in a group of 6 participants with DM1 with RI compared with a case-matched sample of 12 participants with DM1 with PR and a case-matched sample of 12 unaffected healthy comparison participants (UA)., Results: In every measure, the RI participants were intermediate between UA and PR participants. For muscle strength, the RI group was significantly less impaired than the PR group. For measures of Full Scale IQ, depression, and sleepiness, all 3 groups were significantly different from each other with UA > RI > PR in order of impairment. The RI group was different from unaffected, but not significantly different from PR (UA > RI = PR) in apathy and working memory. Finally, in finger tapping and processing speed, RI did not differ from UA comparisons, but PR had significantly lower scores than the UA comparisons (UA = RI > PR)., Conclusions: Our results support the notion that patients affected by DM1 with RI demonstrate a milder phenotype with the same pattern of deficits as those with PR indicating a similar disease process., (Copyright © 2020 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Academy of Neurology.)

Published

2020

42. Subcortical T1-Rho MRI Abnormalities in Juvenile-Onset Huntington's Disease.

Author

Tereshchenko AV, Schultz JL, Kunnath AJ, Bruss JE, Epping EA, Magnotta VA, and Nopoulos PC

Abstract

Huntington's disease (HD) is a fatal neurodegenerative disease caused by the expansion of cytosine-adenine-guanine (CAG) repeats in the huntingtin gene. An increased CAG repeat length is associated with an earlier disease onset. About 5% of HD cases occur under the age of 21 years, which are classified as juvenile-onset Huntington's disease (JOHD). Our study aims to measure subcortical metabolic abnormalities in JOHD participants. T1-Rho (T 1ρ ) MRI was used to compare brain regions of 13 JOHD participants and 39 controls. Region-of-interest analyses were used to assess differences in quantitative T 1ρ relaxation times. We found that the mean relaxation times in the caudate ( p < 0.001), putamen ( p < 0.001), globus pallidus ( p < 0.001), and thalamus ( p < 0.001) were increased in JOHD participants compared to controls. Furthermore, increased T 1ρ relaxation times in these areas were significantly associated with lower volumes amongst participants in the JOHD group. These findings suggest metabolic abnormalities in brain regions previously shown to degenerate in JOHD. We also analyzed the relationships between mean regional T 1ρ relaxation times and Universal Huntington's Disease Rating Scale (UHDRS) scores. UHDRS was used to evaluate participants' motor function, cognitive function, behavior, and functional capacity. Mean T 1ρ relaxation times in the caudate ( p = 0.003), putamen ( p = 0.005), globus pallidus ( p = 0.009), and thalamus ( p = 0.015) were directly proportional to the UHDRS score. This suggests that the T 1ρ relaxation time may also predict HD-related motor deficits. Our findings suggest that subcortical metabolic abnormalities drive the unique hypokinetic symptoms in JOHD.

Published

2020

43. Procedural and declarative memory brain systems in developmental language disorder (DLD).

Author

Lee JC, Nopoulos PC, and Tomblin JB

Subjects

Adolescent, Brain physiopathology, Cohort Studies, Female, Humans, Language Development Disorders physiopathology, Language Development Disorders psychology, Longitudinal Studies, Male, Memory, Long-Term physiology, White Matter physiopathology, Young Adult, Brain diagnostic imaging, Diffusion Tensor Imaging methods, Language Development Disorders diagnostic imaging, Memory physiology, White Matter diagnostic imaging

Abstract

The aim of the current study was to examine microstructural differences in white matter relevant to procedural and declarative memory between adolescents/young adults with and without Developmental Language Disorder (DLD) using diffusion tensor imaging (DTI). The findings showed atypical age-related changes in white matter structures in the corticostriatal system, in the corticocerebellar system, and in the medial temporal region in individuals with DLD. Results highlight the importance of considering the age factor in research on DLD. Future studies are needed to examine the developmental relationship between long-term memory and individual differences in language development and learning., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

44. Abnormal development of cerebellar-striatal circuitry in Huntington disease.

Author

Tereshchenko AV, Schultz JL, Bruss JE, Magnotta VA, Epping EA, and Nopoulos PC

Subjects

Adolescent, Cerebellum growth & development, Child, Corpus Striatum growth & development, Female, Humans, Magnetic Resonance Imaging, Male, Neural Pathways growth & development, Cerebellum pathology, Corpus Striatum pathology, Huntington Disease pathology, Neural Pathways pathology

Abstract

Objective: To test the hypothesis that the trajectory of functional connections over time of the striatum and the cerebellum differs between presymptomatic patients with the Huntington disease (HD) gene expansion (GE) and patients with a family history of HD but without the GE (GNE), we evaluated functional MRI data from the Kids-HD study., Methods: We utilized resting-state, functional MRI data from participants in the Kids-HD study between 6 and 18 years old. Participants were divided into GE (CAG 36-59) and GNE (CAG <36) groups. Seed-to-seed correlations were calculated among 4 regions that provide input signals to the anterior cerebellum: (1) dorsocaudal putamen, (2) globus pallidus externa, (3) subthalamic nucleus, and (4) pontine nuclei; and 2 regions that represented output from the cerebellum: the dentate nucleus to the (1) ventrolateral thalamus and (2) dorsocaudal putamen. Linear mixed effects regression models evaluated differences in developmental trajectories of these connections over time between groups., Results: Four of the six striatal-cerebellum correlations showed significantly different trajectories between groups. All showed a pattern where in the early age ranges (6-12 years) there was hyperconnectivity in the GE compared to the GNE, with those trajectories showing linear decline in the latter half of the age range., Conclusion: These results parallel previous findings showing striatal hypertrophy in children with GE as early as age 6. These findings support the notion of developmentally higher connectivity between the striatum and cerebellum early in the life of the child with HD GE, possibly setting the stage for cerebellar compensatory mechanisms., (© 2020 American Academy of Neurology.)

Published

2020

45. Myotonic dystrophy type 1 alters muscle twitch properties, spinal reflexes, and perturbation-induced trans-cortical reflexes.

Author

Shields RK, Lee J, Buelow A, Petrie M, Dudley-Javoroski S, Cross S, Gutmann L, and Nopoulos PC

Subjects

Adult, Cohort Studies, Electric Stimulation, Electrodiagnosis, Electromyography, Female, Humans, Male, Middle Aged, Muscle Contraction, Muscle, Skeletal innervation, Muscle, Skeletal physiopathology, Reflex, Abnormal, H-Reflex, Myotonic Dystrophy physiopathology, Spine physiopathology

Abstract

Background: Neurophysiologic biomarkers are needed for clinical trials of therapies for myotonic dystrophy (DM1). We characterized muscle properties, spinal reflexes (H-reflexes), and trans-cortical long-latency reflexes (LLRs) in a cohort with mild/moderate DM1., Methods: Twenty-four people with DM1 and 25 matched controls underwent assessment of tibial nerve H-reflexes and soleus muscle twitch properties. Quadriceps LLRs were elicited by delivering an unexpected perturbation during a single-limb squat (SLS) visuomotor tracking task., Results: DM1 was associated with decreased H-reflex depression. The efficacy of doublet stimulation was enhanced, yielding an elevated double-single twitch ratio. DM1 participants demonstrated greater error during the SLS task. DM1 individuals with the least-robust LLR responses showed the greatest loss of spinal H-reflex depression., Conclusions: DM1 is associated with abnormalities of muscle twitch properties. Co-occurring alterations of spinal and trans-cortical reflex properties underscore the central nervous system manifestations of this disorder and may assist in gauging efficacy during clinical trials., (© 2019 Wiley Periodicals, Inc.)

Published

2020

46. Abnormal Brain Development in Huntington' Disease Is Recapitulated in the zQ175 Knock-In Mouse Model.

Author

Zhang C, Wu Q, Liu H, Cheng L, Hou Z, Mori S, Hua J, Ross CA, Zhang J, Nopoulos PC, and Duan W

Abstract

Emerging cellular and molecular studies are providing compelling evidence that altered brain development contributes to the pathogenesis of Huntington's disease (HD). There has been lacking longitudinal system-level data obtained from in vivo HD models supporting this hypothesis. Our human MRI study in children and adolescents with HD indicates that striatal development differs between the HD and control groups, with initial hypertrophy and more rapid volume decline in HD group. In this study, we aimed to determine whether brain development recapitulates the human HD during the postnatal period. Longitudinal structural MRI scans were conducted in the heterozygous zQ175 HD mice and their littermate controls. We found that male zQ175 HD mice recapitulated the region-specific abnormal volume development in the striatum and globus pallidus, with early hypertrophy and then rapidly decline in the regional volume. In contrast, female zQ175 HD mice did not show significant difference in brain volume development with their littermate controls. This is the first longitudinal study of brain volume development at the system level in HD mice. Our results suggest that altered brain development may contribute to the HD pathogenesis. The potential effect of gene therapies targeting on neurodevelopmental event is worth to consider for HD therapeutic intervention., (© The Author(s) 2020. Published by Oxford University Press.)

Published

2020

47. The Neurodevelopmental Hypothesis of Huntington's Disease.

Author

van der Plas E, Schultz JL, and Nopoulos PC

Subjects

Adolescent, Child, Humans, Brain growth & development, Brain pathology, Brain physiopathology, Genetic Predisposition to Disease genetics, Huntingtin Protein genetics, Huntington Disease genetics, Huntington Disease pathology, Huntington Disease physiopathology, Intelligence genetics, Neurodevelopmental Disorders genetics, Neurodevelopmental Disorders pathology, Neurodevelopmental Disorders physiopathology

Abstract

The current dogma of HD pathoetiology posits it is a degenerative disease affecting primarily the striatum, caused by a gain of function (toxicity) of the mutant mHTT that kills neurons. However, a growing body of evidence supports an alternative theory in which loss of function may also influence the pathology.This theory is predicated on the notion that HTT is known to be a vital gene for brain development. mHTT is expressed throughout life and could conceivably have deleterious effects on brain development. The end event in the disease is, of course, neurodegeneration; however the process by which that occurs may be rooted in the pathophysiology of aberrant development.To date, there have been multiple studies evaluating molecular and cellular mechanisms of abnormal development in HD, as well as studies investigating abnormal brain development in HD animal models. However, direct study of how mHTT could affect neurodevelopment in humans has not been approached until recent years. The current review will focus on the most recent findings of a unique study of children at-risk for HD, the Kids-HD study. This study evaluates brain structure and function in children ages 6-18 years old who are at risk for HD (have a parent or grand-parent with HD).

Published

2020

48. Pediatric postoperative cerebellar cognitive affective syndrome follows outflow pathway lesions.

Author

Albazron FM, Bruss J, Jones RM, Yock TI, Pulsifer MB, Cohen AL, Nopoulos PC, Abrams AN, Sato M, and Boes AD

Subjects

Adolescent, Adult, Brain pathology, Brain physiopathology, Cerebellar Diseases complications, Cerebellum physiopathology, Child, Cognition physiology, Cognition Disorders diagnosis, Female, Humans, Male, Young Adult, Cerebellar Diseases physiopathology, Cerebellum pathology, Cognition Disorders physiopathology, Postoperative Period

Abstract

Objective: To evaluate lesion location after pediatric cerebellar tumor resection in relation to the development of severe cognitive and affective disturbances, or cerebellar cognitive affective syndrome (CCAS)., Methods: The postsurgical lesion location of 195 pediatric patients with cerebellar tumors was mapped onto a template brain. Individuals with CCAS were matched to 2 participants without CCAS by sex, age, and lesion volume. Lesion analyses included both a hypothesis-driven evaluation of the cerebellar outflow pathway (deep nuclei and superior cerebellar peduncles) and data-driven multivariate lesion symptom mapping. Lesion-associated networks were evaluated by comparing connectivity patterns between the lesion location of cases with and those without CCAS with resting-state functional connectivity MRI data from large normative adult and pediatric cohorts., Results: CCAS was present in 48 of 195 participants (24.6%) and was strongly associated with cerebellar outflow tract lesions ( p < 0.0001). Lesion symptom mapping also highlighted the cerebellar outflow pathway, with peak findings in the fastigial nuclei extending into the inferior vermis. Lesion network mapping revealed that the cerebellar region most associated with CCAS was functionally connected to the thalamic mediodorsal nucleus, among other sites, and that higher connectivity between lesion location and the mediodorsal nucleus predicts CCAS occurrence ( p < 0.01). A secondary analysis of 27 participants with mutism revealed similar localization of lesions and lesion-associated networks., Conclusion: Lesions of the cerebellar outflow pathway and inferior vermis are associated with major cognitive and affective disturbances after pediatric cerebellar tumor resection, and disrupted communication between the cerebellum and the thalamic mediodorsal nucleus may be important., (© 2019 American Academy of Neurology.)

Published

2019

49. Abnormal brain development in child and adolescent carriers of mutant huntingtin.

Author

van der Plas E, Langbehn DR, Conrad AL, Koscik TR, Tereshchenko A, Epping EA, Magnotta VA, and Nopoulos PC

Subjects

Adolescent, Brain, Child, Corpus Striatum, Genetic Testing, Humans, Huntingtin Protein genetics, Mutation, Huntington Disease genetics

Abstract

Objective: The huntingtin gene is critical for the formation and differentiation of the CNS, which raises questions about the neurodevelopmental effect of CAG expansion mutations within this gene ( mHTT ) that cause Huntington disease (HD). We sought to test the hypothesis that child and adolescent carriers of mHTT exhibit different brain growth compared to peers without the mutation by conducting structural MRI in youth who are at risk for HD. We also explored whether the length of CAG expansion affects brain development., Methods: Children and adolescents (age 6-18) with a parent or grandparent diagnosed with HD underwent MRI and blinded genetic testing to confirm the presence or absence of mHTT . Seventy-five individuals were gene-expanded (GE) and 97 individuals were gene-nonexpanded (GNE). The GE group was estimated to be on average 35 years from clinical onset. Following an accelerated longitudinal design, age-related changes in brain regions were estimated., Results: Age-related striatal volume changes differed significantly between the GE and GNE groups, with initial hypertrophy and more rapid volume decline in GE. This pattern was exaggerated with CAG expansion length for CAG > 50. A similar age-dependent group difference was observed for the globus pallidus, but not in other major regions., Conclusion: Our results suggest that pathogenesis of HD begins with abnormal brain development. An understanding of potential neurodevelopmental features associated with mHTT may be needed for optimized implementation of preventative gene silencing therapies, such that normal aspects of neurodevelopment are preserved as neurodegeneration is forestalled., (© 2019 American Academy of Neurology.)

Published

2019

50. Author response to Dr. Aziz-"Statin use and delayed onset of Huntington disease".

Author

Schultz JL, Nopoulos PC, Killoran A, Ogilvie A, and Kamholz JA

Subjects

Humans, Huntington Disease, Hydroxymethylglutaryl-CoA Reductase Inhibitors

Published

2019