Your search keyword '"Vossel, Keith"' showing total 16 results

1. Abnormal gamma phase-amplitude coupling in the parahippocampal cortex is associated with network hyperexcitability in Alzheimer’s disease

Author

Prabhu, Pooja, Morise, Hirofumi, Kudo, Kiwamu, Beagle, Alexander, Mizuiri, Danielle, Syed, Faatimah, Kotegar, Karunakar A, Findlay, Anne, Miller, Bruce L, Kramer, Joel H, Rankin, Katherine P, Garcia, Paul A, Kirsch, Heidi E, Vossel, Keith, Nagarajan, Srikantan S, and Ranasinghe, Kamalini G

Subjects

Biomedical and Clinical Sciences, Neurosciences, Brain Disorders, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Alzheimer's Disease, Aging, Neurodegenerative, Epilepsy, Biomedical Imaging, Clinical Research, Dementia, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, network hyperexcitability, gamma oscillations, magnetoencephalography, phase-amplitude coupling, Alzheimer's disease, Alzheimer’s disease, Clinical sciences, Biological psychology

Abstract

While animal models of Alzheimer's disease (AD) have shown altered gamma oscillations (∼40 Hz) in local neural circuits, the low signal-to-noise ratio of gamma in the resting human brain precludes its quantification via conventional spectral estimates. Phase-amplitude coupling (PAC) indicating the dynamic integration between the gamma amplitude and the phase of low-frequency (4-12 Hz) oscillations is a useful alternative to capture local gamma activity. In addition, PAC is also an index of neuronal excitability as the phase of low-frequency oscillations that modulate gamma amplitude, effectively regulates the excitability of local neuronal firing. In this study, we sought to examine the local neuronal activity and excitability using gamma PAC, within brain regions vulnerable to early AD pathophysiology-entorhinal cortex and parahippocampus, in a clinical population of patients with AD and age-matched controls. Our clinical cohorts consisted of a well-characterized cohort of AD patients (n = 50; age, 60 ± 8 years) with positive AD biomarkers, and age-matched, cognitively unimpaired controls (n = 35; age, 63 ± 5.8 years). We identified the presence or the absence of epileptiform activity in AD patients (AD patients with epileptiform activity, AD-EPI+, n = 20; AD patients without epileptiform activity, AD-EPI-, n = 30) using long-term electroencephalography (LTM-EEG) and 1-hour long magnetoencephalography (MEG) with simultaneous EEG. Using the source reconstructed MEG data, we computed gamma PAC as the coupling between amplitude of the gamma frequency (30-40 Hz) with phase of the theta (4-8 Hz) and alpha (8-12 Hz) frequency oscillations, within entorhinal and parahippocampal cortices. We found that patients with AD have reduced gamma PAC in the left parahippocampal cortex, compared to age-matched controls. Furthermore, AD-EPI+ patients showed greater reductions in gamma PAC than AD-EPI- in bilateral parahippocampal cortices. In contrast, entorhinal cortices did not show gamma PAC abnormalities in patients with AD. Our findings demonstrate the spatial patterns of altered gamma oscillations indicating possible region-specific manifestations of network hyperexcitability within medial temporal lobe regions vulnerable to AD pathophysiology. Greater deficits in AD-EPI+ suggests that reduced gamma PAC is a sensitive index of network hyperexcitability in AD patients. Collectively, the current results emphasize the importance of investigating the role of neural circuit hyperexcitability in early AD pathophysiology and explore its potential as a modifiable contributor to AD pathobiology.

Published

2024

2. Improving genetic risk modeling of dementia from real-world data in underrepresented populations

Author

Fu, Mingzhou, Valiente-Banuet, Leopoldo, Wadhwa, Satpal S, Pasaniuc, Bogdan, Vossel, Keith, and Chang, Timothy S

Subjects

Biological Sciences, Genetics, Brain Disorders, Precision Medicine, Neurodegenerative, Minority Health, Prevention, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Human Genome, Acquired Cognitive Impairment, Neurosciences, Dementia, Aging, 2.1 Biological and endogenous factors, Neurological, Good Health and Well Being, Humans, Genetic Predisposition to Disease, Female, Polymorphism, Single Nucleotide, Male, Genome-Wide Association Study, Aged, Models, Genetic, Multifactorial Inheritance, Risk Factors, Risk Assessment, Middle Aged, Biological sciences, Biomedical and clinical sciences

Abstract

Genetic risk modeling for dementia offers significant benefits, but studies based on real-world data, particularly for underrepresented populations, are limited. We employ an Elastic Net model for dementia risk prediction using single-nucleotide polymorphisms prioritized by functional genomic data from multiple neurodegenerative disease genome-wide association studies. We compare this model with APOE and polygenic risk score models across genetic ancestry groups (Hispanic Latino American sample: 610 patients with 126 cases; African American sample: 440 patients with 84 cases; East Asian American sample: 673 patients with 75 cases), using electronic health records from UCLA Health for discovery and the All of Us cohort for validation. Our model significantly outperforms other models across multiple ancestries, improving the area-under-precision-recall curve by 31-84% (Wilcoxon signed-rank test p-value

Published

2024

3. Neurophysiological trajectories in Alzheimer’s disease progression

Author

Kudo, Kiwamu, Ranasinghe, Kamalini G, Morise, Hirofumi, Syed, Faatimah, Sekihara, Kensuke, Rankin, Katherine P, Miller, Bruce L, Kramer, Joel H, Rabinovici, Gil D, Vossel, Keith, Kirsch, Heidi E, and Nagarajan, Srikantan S

Subjects

Biochemistry and Cell Biology, Biological Sciences, Neurodegenerative, Neurosciences, Dementia, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Acquired Cognitive Impairment, Alzheimer's Disease, Aging, Brain Disorders, 2.1 Biological and endogenous factors, Neurological, Humans, Alzheimer Disease, Amyloid beta-Peptides, tau Proteins, Benchmarking, Brain, Alzheimer's disease, magnetoencephalography, biomarkers, electrophysiology, functional connectivity, Human, human, neuroscience, Biological sciences, Biomedical and clinical sciences, Health sciences

Abstract

Alzheimer's disease (AD) is characterized by the accumulation of amyloid-β and misfolded tau proteins causing synaptic dysfunction, and progressive neurodegeneration and cognitive decline. Altered neural oscillations have been consistently demonstrated in AD. However, the trajectories of abnormal neural oscillations in AD progression and their relationship to neurodegeneration and cognitive decline are unknown. Here, we deployed robust event-based sequencing models (EBMs) to investigate the trajectories of long-range and local neural synchrony across AD stages, estimated from resting-state magnetoencephalography. The increases in neural synchrony in the delta-theta band and the decreases in the alpha and beta bands showed progressive changes throughout the stages of the EBM. Decreases in alpha and beta band synchrony preceded both neurodegeneration and cognitive decline, indicating that frequency-specific neuronal synchrony abnormalities are early manifestations of AD pathophysiology. The long-range synchrony effects were greater than the local synchrony, indicating a greater sensitivity of connectivity metrics involving multiple regions of the brain. These results demonstrate the evolution of functional neuronal deficits along the sequence of AD progression.

Published

2024

4. Impaired long-range excitatory time scale predicts abnormal neural oscillations and cognitive deficits in Alzheimer’s disease

Author

Verma, Parul, Ranasinghe, Kamalini, Prasad, Janani, Cai, Chang, Xie, Xihe, Lerner, Hannah, Mizuiri, Danielle, Miller, Bruce, Rankin, Katherine, Vossel, Keith, Cheung, Steven W, Nagarajan, Srikantan S, and Raj, Ashish

Subjects

Biomedical and Clinical Sciences, Neurosciences, Neurodegenerative, Alzheimer's Disease including Alzheimer's Disease Related Dementias (AD/ADRD), Alzheimer's Disease, Brain Disorders, Acquired Cognitive Impairment, Dementia, Aging, Biomedical Imaging, 2.1 Biological and endogenous factors, Aetiology, Neurological, Mental health, Humans, Middle Aged, Aged, Alzheimer Disease, Cognition Disorders, Cognitive Dysfunction, Brain, Cognition, Brain activity, Alzheimer's disease, Magnetoencephalography, Spectral graph theory, Cognitive decline, Alzheimer’s disease, Medical and Health Sciences, Biomedical and clinical sciences, Health sciences

Abstract

BackgroundAlzheimer's disease (AD) is the most common form of dementia, progressively impairing cognitive abilities. While neuroimaging studies have revealed functional abnormalities in AD, how these relate to aberrant neuronal circuit mechanisms remains unclear. Using magnetoencephalography imaging we documented abnormal local neural synchrony patterns in patients with AD. To identify global abnormal biophysical mechanisms underlying the spatial and spectral electrophysiological patterns in AD, we estimated the parameters of a biophysical spectral graph model (SGM).MethodsSGM is an analytic neural mass model that describes how long-range fiber projections in the brain mediate the excitatory and inhibitory activity of local neuronal subpopulations. Unlike other coupled neuronal mass models, the SGM is linear, available in closed-form, and parameterized by a small set of biophysical interpretable global parameters. This facilitates their rapid and unambiguous inference which we performed here on a well-characterized clinical population of patients with AD (N = 88, age = 62.73 +/- 8.64 years) and a cohort of age-matched controls (N = 88, age = 65.07 +/- 9.92 years).ResultsPatients with AD showed significantly elevated long-range excitatory neuronal time scales, local excitatory neuronal time scales and local inhibitory neural synaptic strength. The long-range excitatory time scale had a larger effect size, compared to local excitatory time scale and inhibitory synaptic strength and contributed highest for the accurate classification of patients with AD from controls. Furthermore, increased long-range time scale was associated with greater deficits in global cognition.ConclusionsThese results demonstrate that long-range excitatory time scale of neuronal activity, despite being a global measure, is a key determinant in the local spectral signatures and cognition in the human brain, and how it might be a parsimonious factor underlying altered neuronal activity in AD. Our findings provide new insights into mechanistic links between abnormal local spectral signatures and global connectivity measures in AD.

Published

2024

5. Associations of cerebrovascular disease and Alzheimer’s disease pathology with cognitive decline: Analysis of the National Alzheimer’s Coordinating Center Uniform Data Set

Author

Chatterjee, Ankita, Lee, Shannon, Diaz, Valentina, Saloner, Rowan, Sanderson-Cimino, Mark, deCarli, Charles, Maillard, Pauline, Hinman, Jason, Vossel, Keith, Casaletto, Kaitlin B., Staffaroni, Adam M., Paolillo, Emily W., and Kramer, Joel H.

Published

2024

6. Editorial: Epilepsy and Alzheimer's disease: shared pathology, clinical presentations, and targets for treatment.

Author

Leeman-Markowski, Beth, Chin, Jeannie, Leitner, Dominique, and Vossel, Keith

Subjects

ALZHEIMER'S disease, TEMPORAL lobe epilepsy, LEWY body dementia, PATHOLOGY, TRANSCRIPTION factors, EPILEPSY

Abstract

This editorial explores the connection between epilepsy and Alzheimer's disease (AD), focusing on their shared clinical presentations and pathological findings. It discusses cognitive profiles, biomarkers, underlying mechanisms, and treatment implications. The authors present various studies to enhance our understanding of the relationship between epilepsy and AD, with the aim of improving diagnosis and finding effective treatments for cognitive improvement. The document includes declarations of financial support and conflicts of interest, as well as a list of references for further reading. [Extracted from the article]

Published

2024

7. Author Response: Neurophysiological trajectories in Alzheimer’s disease progression

Author

Kudo, Kiwamu, primary, Ranasinghe, Kamalini, additional, Morise, Hirofumi, additional, Syed, Faatimah, additional, Sekihara, Kensuke, additional, Rankin, Katherine P, additional, Miller, Bruce L, additional, Kramer, Joel, additional, Rabinovici, Gil, additional, Vossel, Keith, additional, Kirsch, Heidi E, additional, and Nagarajan, Srikantan, additional

Published

2024

8. Neurophysiological trajectories in Alzheimer’s disease progression

Author

Kudo, Kiwamu, primary, Ranasinghe, Kamalini G, primary, Morise, Hirofumi, additional, Syed, Faatimah, additional, Sekihara, Kensuke, additional, Rankin, Katherine P, additional, Miller, Bruce L, additional, Kramer, Joel H, additional, Rabinovici, Gil D, additional, Vossel, Keith, additional, Kirsch, Heidi E, additional, and Nagarajan, Srikantan S, additional

Published

2024

9. Improving genetic risk modeling of dementia from real-world data in underrepresented populations

Author

Chang, Timothy, primary, Fu, Mingzhou, additional, Valiente-Banuet, Leopoldo, additional, Wadhwa, Satpal, additional, Pasaniuc, Bogdan, additional, and Vossel, Keith, additional

Published

2024

10. Latest advances in mechanisms of epileptic activity in Alzheimer’s disease and dementia with Lewy Bodies

Author

Vicente, Mariane, primary, Addo-Osafo, Kwaku, additional, and Vossel, Keith, additional

Published

2024

11. Multi-class Modeling Identifies Shared Genetic Risk for Late-onset Epilepsy and Alzheimer’s Disease

Author

Fu, Mingzhou, primary, Tran, Thai, additional, Eskin, Eleazar, additional, Lajonchere, Clara, additional, Pasaniuc, Bogdan, additional, Geschwind, Daniel H., additional, Vossel, Keith, additional, and Chang, Timothy S, additional

Published

2024

12. LETTERS.

Author

MCGIRR, MARGARET, AUSTIN, CLAYTON, MORGAN, JEFF, ROEDER, KATHERINE, VOSSEL, KEITH, SAFRON, ALAN, SILK, MICHAEL, and FOXX, VIRGINIA

Subjects

*REPUBLICANS

Published

2024

13. Neurophysiological trajectories in Alzheimer's disease progression.

Author

Kudo K, Ranasinghe KG, Morise H, Syed F, Sekihara K, Rankin KP, Miller BL, Kramer JH, Rabinovici GD, Vossel K, Kirsch HE, and Nagarajan SS

Abstract

Alzheimer's disease (AD) is characterized by the accumulation of amyloid- β and misfolded tau proteins causing synaptic dysfunction, and progressive neurodegeneration and cognitive decline. Altered neural oscillations have been consistently demonstrated in AD. However, the trajectories of abnormal neural oscillations in AD progression and their relationship to neurodegeneration and cognitive decline are unknown. Here, we deployed robust event-based sequencing models (EBMs) to investigate the trajectories of long-range and local neural synchrony across AD stages, estimated from resting-state magnetoencephalography. The increases in neural synchrony in the delta-theta band and the decreases in the alpha and beta bands showed progressive changes throughout the stages of the EBM. Decreases in alpha and beta band synchrony preceded both neurodegeneration and cognitive decline, indicating that frequency-specific neuronal synchrony abnormalities are early manifestations of AD pathophysiology. The long-range synchrony effects were greater than the local synchrony, indicating a greater sensitivity of connectivity metrics involving multiple regions of the brain. These results demonstrate the evolution of functional neuronal deficits along the sequence of AD progression., Competing Interests: Competing interests K.K. and H.M. are employees of Ricoh Company, Ltd. The authors declare that no other competing interests exist. The other authors declare no competing financial conflicts of interest to disclose.

Published

2024

14. Improving genetic risk modeling of dementia from real-world data in underrepresented populations.

Author

Chang T, Fu M, Valiente-Banuet L, Wadhwa S, Pasaniuc B, and Vossel K

Abstract

Background: Genetic risk modeling for dementia offers significant benefits, but studies based on real-world data, particularly for underrepresented populations, are limited., Methods: We employed an Elastic Net model for dementia risk prediction using single-nucleotide polymorphisms prioritized by functional genomic data from multiple neurodegenerative disease genome-wide association studies. We compared this model with APOE and polygenic risk score models across genetic ancestry groups, using electronic health records from UCLA Health for discovery and All of Us cohort for validation., Results: Our model significantly outperforms other models across multiple ancestries, improving the area-under-precision-recall curve by 21-61% and the area-under-the-receiver-operating characteristic by 10-21% compared to the APOE and the polygenic risk score models. We identified shared and ancestry-specific risk genes and biological pathways, reinforcing and adding to existing knowledge., Conclusions: Our study highlights benefits of integrating functional mapping, multiple neurodegenerative diseases, and machine learning for genetic risk models in diverse populations. Our findings hold potential for refining precision medicine strategies in dementia diagnosis., Competing Interests: Competing interests The 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.

Published

2024

15. Multi-class Modeling Identifies Shared Genetic Risk for Late-onset Epilepsy and Alzheimer's Disease.

Author

Fu M, Tran T, Eskin E, Lajonchere C, Pasaniuc B, Geschwind DH, Vossel K, and Chang TS

Abstract

Background: Previous studies have established a strong link between late-onset epilepsy (LOE) and Alzheimer's disease (AD). However, their shared genetic risk beyond the APOE gene remains unclear. Our study sought to examine the shared genetic factors of AD and LOE, interpret the biological pathways involved, and evaluate how AD onset may be mediated by LOE and shared genetic risks., Methods: We defined phenotypes using phecodes mapped from diagnosis codes, with patients' records aged 60-90. A two-step Least Absolute Shrinkage and Selection Operator (LASSO) workflow was used to identify shared genetic variants based on prior AD GWAS integrated with functional genomic data. We calculated an AD-LOE shared risk score and used it as a proxy in a causal mediation analysis. We used electronic health records from an academic health center (UCLA Health) for discovery analyses and validated our findings in a multi-institutional EHR database (All of Us)., Results: The two-step LASSO method identified 34 shared genetic loci between AD and LOE, including the APOE region. These loci were mapped to 65 genes, which showed enrichment in molecular functions and pathways such as tau protein binding and lipoprotein metabolism. Individuals with high predicted shared risk scores have a higher risk of developing AD, LOE, or both in their later life compared to those with low-risk scores. LOE partially mediates the effect of AD-LOE shared genetic risk on AD (15% proportion mediated on average). Validation results from All of Us were consistent with findings from the UCLA sample., Conclusions: We employed a machine learning approach to identify shared genetic risks of AD and LOE. In addition to providing substantial evidence for the significant contribution of the APOE-TOMM40-APOC1 gene cluster to shared risk, we uncovered novel genes that may contribute. Our study is one of the first to utilize All of Us genetic data to investigate AD, and provides valuable insights into the potential common and disease-specific mechanisms underlying AD and LOE, which could have profound implications for the future of disease prevention and the development of targeted treatment strategies to combat the co-occurrence of these two diseases., Competing Interests: Competing interests The 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.

Published

2024

16. Improving genetic risk modeling of dementia from real-world data in underrepresented populations.

Author

Fu M, Valiente-Banuet L, Wadhwa SS, Pasaniuc B, Vossel K, and Chang TS

Abstract

Background: Genetic risk modeling for dementia offers significant benefits, but studies based on real-world data, particularly for underrepresented populations, are limited., Methods: We employed an Elastic Net model for dementia risk prediction using single-nucleotide polymorphisms prioritized by functional genomic data from multiple neurodegenerative disease genome-wide association studies. We compared this model with APOE and polygenic risk score models across genetic ancestry groups, using electronic health records from UCLA Health for discovery and All of Us cohort for validation., Results: Our model significantly outperforms other models across multiple ancestries, improving the area-under-precision-recall curve by 21-61% and the area-under-the-receiver-operating characteristic by 10-21% compared to the APOE and the polygenic risk score models. We identified shared and ancestry-specific risk genes and biological pathways, reinforcing and adding to existing knowledge., Conclusions: Our study highlights benefits of integrating functional mapping, multiple neurodegenerative diseases, and machine learning for genetic risk models in diverse populations. Our findings hold potential for refining precision medicine strategies in dementia diagnosis., Competing Interests: 7.4 Competing interests The 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.

Published

2024