Your search keyword '"Fuh-Ngwa, Valery"' showing total 6 results

1. The association between disability progression, relapses, and treatment in early relapse onset MS: an observational, multi-centre, longitudinal cohort study

Author

Fuh-Ngwa, Valery, Charlesworth, Jac C., Zhou, Yuan, van der Mei, Ingrid, Melton, Phillip E., Broadley, Simon A., Ponsonby, Anne-Louise, Simpson-Yap, Steve, Lechner-Scott, Jeannette, and Taylor, Bruce V.

Published

2023

2. Ensemble machine learning identifies genetic loci associated with future worsening of disability in people with multiple sclerosis

Author

Fuh-Ngwa, Valery, Zhou, Yuan, Melton, Phillip E., van der Mei, Ingrid, Charlesworth, Jac C., Lin, Xin, Zarghami, Amin, Broadley, Simon A., Ponsonby, Anne-Louise, Simpson-Yap, Steve, Lechner-Scott, Jeannette, and Taylor, Bruce V.

Published

2022

3. A phase II trial examining the safety and preliminary efficacy of repetitive transcranial magnetic stimulation (rTMS) for people living with multiple sclerosis.

Author

Stevens, Natasha, Ezegbe, Chigozie, Fuh-Ngwa, Valery, Makowiecki, Kalina, Zarghami, Amin, Nguyen, Phuong Tram, Sansom, Julie, Smith, Kate, Laslett, Laura L., Denham, Meg, Cullen, Carlie L., Barnett, Michael H., Hinder, Mark R., Breslin, Monique, Young, Kaylene M., and Taylor, Bruce V.

Subjects

TRANSCRANIAL magnetic stimulation, SLEEP quality, NEUROLOGICAL disorders, CENTRAL nervous system, YOUNG adults, OLIGODENDROGLIA

Abstract

Background: Multiple sclerosis (MS) is a chronic neurological condition and the leading cause of non-traumatic disability in young adults. MS pathogenesis leads to the death of oligodendrocytes, demyelination, and progressive central nervous system neurodegeneration. Endogenous remyelination occurs in people with MS (PwMS) but is insufficient to repair the damage. Our preclinical studies in mice indicate that endogenous remyelination can be supported by the delivery of repetitive transcranial magnetic stimulation (rTMS). Our phase I trial concluded that 20 sessions of rTMS, delivered over 5 weeks, are safe and feasible for PwMS. This phase II trial aims to investigate the safety and preliminary efficacy of rTMS for PwMS. Methods: Participants must be aged 18–65 years, diagnosed with MS by a neurologist, stable and relapse free for 6 months, have an Extended Disability Status Scale (EDSS) between 1.5 and 6 (inclusive), willing to travel to a study site every weekday for 4 consecutive weeks, and able to provide informed consent and access the internet. Participants from multiple centres will be randomised 2:1 (rTMS to sham) stratified by sex. The intervention will be delivered with a Magstim Rapid2 stimulator device and circular 90-mm coil or MagVenture MagPro stimulator device with C100 circular coil, positioned to stimulate a broad area including frontal and parietal cortices. For the rTMS group, pulse intensity will be set at 18% (MagVenture) or 25% (Magstim) of maximum stimulator output (MSO), and rTMS applied as intermittent theta burst stimulation (iTBS) (~ 3 min per side; 600 pulses). For the sham group, the procedure will be the same, but the intensity is set at 0%. Each participant will attend 20 intervention sessions over a maximum of 5 weeks. Outcome measures include MS Functional Composite Score (primary), Fatigue Severity Scale, Hospital Anxiety and Depression Scale, Quality of Life, and Pittsburgh Sleep Quality Index/Numeric Rating Scale and adverse events (secondary) and advanced MRI metrics (tertiary). Outcomes will be measured at baseline and after completing the intervention. Discussion: This study will determine if rTMS can improve functional outcomes or other MS symptoms and determine whether rTMS has the potential to promote remyelination in PwMS. Trial registration: Registered with Australian New Zealand Clinical Trials Registry, 20 January 2022; ACTRN12622000064707. [ABSTRACT FROM AUTHOR]

Published

2024

4. Changes in employment status over time in multiple sclerosis following a first episode of central nervous system demyelination, a Markov multistate model study.

Author

Zarghami, Amin, Fuh‐Ngwa, Valery, Claflin, Suzi B., van der Mei, Ingrid, Ponsonby, Anne‐Louise, Broadley, Simon, Simpson‐Yap, Steve, Lucas, Robyn, Dear, Keith, Blizzard, Leigh, Taylor, Bruce V., Kilpatrick, Trevor, Williams, David, Lechner‐Scott, Jeannette, Shaw, Cameron, Chapman, Caron, Coulthard, Alan, and Valery, Patricia

Subjects

*EMPLOYMENT changes, *CENTRAL nervous system, *MARKOV processes, *EMPLOYMENT statistics, *MULTIPLE sclerosis, *CANCER fatigue

Abstract

Background and purpose: Understanding predictors of changes in employment status among people living with multiple sclerosis (MS) can assist health care providers to develop appropriate work retention/rehabilitation programs. We aimed to model longitudinal transitions of employment status in MS and estimate the probabilities of retaining employment status or losing or gaining employment over time in individuals with a first clinical diagnosis of central nervous system demyelination (FCD). Methods: This prospective cohort study comprised adults (aged 18–59 years) diagnosed with FCD (n = 237) who were followed for more than 11 years. At each review, participants were assigned to one of three states: unemployed, part‐time, or full‐time employed. A Markov multistate model was used to examine the rate of state‐to‐state transitions. Results: At the time of FCD, participants with full‐time employment had an 89% chance of being in the same state over a 1‐year period, but this decreased to 42% over the 10‐year follow‐up period. For unemployed participants, there was a 92% likelihood of remaining unemployed after 1 year, but this probability decreased to 53% over 10 years. Females, those who progressed to clinically definite MS, those with a higher relapse count, and those with a greater level of disability were at increased risk of transitioning to a deteriorated employment state. In addition, those who experienced clinically significant fatigue over the follow‐up period were less likely to gain employment after being unemployed. Conclusions: In our FCD cohort, we found a considerable rate of employment transition during the early years post‐diagnosis. Over more than a decade of follow‐up post‐FCD, we found that females and individuals with a greater disability and a higher relapse count are at higher risk of losing employment. [ABSTRACT FROM AUTHOR]

Published

2024

5. Novel plasma and brain proteins that are implicated in multiple sclerosis.

Author

Lin, Xin, Yang, Yuanhao, Gresle, Melissa, Cuellar-Partida, Gabriel, Han, Xikun, Stankovich, Jim, Group, AusLong, Simpson-Yap, Steve, Fuh-Ngwa, Valery, Charlesworth, Jac, Burdon, Kathryn P, Butzkueven, Helmut, Taylor, Bruce V, Zhou, Yuan, and AusLong/Ausimmune Investigators Group Steve Simpson-Yap

Subjects

BLOOD proteins, MULTIPLE sclerosis, KILLER cells, CYTOTOXIC T cells, GENOME-wide association studies

Abstract

Understanding how variations in the plasma and brain proteome contribute to multiple sclerosis susceptibility can provide important insights to guide drug repurposing and therapeutic development for multiple sclerosis. However, the role of genetically predicted protein abundance in multiple sclerosis remains largely unknown. Integrating plasma proteomics (n = 3,301) and brain proteomics (n = 376 discovery; n = 152 replication) into multiple sclerosis genome-wide association studies (n = 14,802 cases and 26,703 controls), we employed summary-based methods to identify candidate proteins involved in multiple sclerosis susceptibility. Next, we evaluated associations of the corresponding genes with multiple sclerosis at tissue-level using large gene expression quantitative trait data from whole-blood (n = 31,684) and brain (n = 1,194) tissue. Further, to assess transcriptional profiles for candidate proteins at cell-level, we examined gene expression patterns in immune cell types (dataset 1: n = 73 cases and 97 controls; dataset 2: n = 31 cases and 31 controls) for identified plasma proteins, and in brain cell types (dataset 1: n = 4 cases and 5 controls; dataset 2: n = 5 cases and 3 controls) for identified brain proteins. In a longitudinal multiple sclerosis cohort (n = 203 cases followed up to 15 years), we also assessed the corresponding gene-level associations with the outcome of disability worsening. We identified 39 novel proteins associated with multiple sclerosis risk. Based on five identified plasma proteins, four available corresponding gene candidates showed consistent associations with multiple sclerosis risk in whole-blood, and we found TAPBPL upregulation in multiple sclerosis B cells, CD8+ T cells and natural killer cells compared to controls. Among the 34 candidate brain proteins, 18 were replicated in a smaller cohort and 14 of 21 available corresponding gene candidates also showed consistent associations with multiple sclerosis risk in brain tissue. In cell-specific analysis, six identified brain candidates showed consistent differential gene expression in neuron and oligodendrocyte cell clusters. Based on the 39 protein-coding genes, we found 23 genes that were associated with disability worsening in multiple sclerosis cases. The findings present a set of candidate protein biomarkers for multiple sclerosis, reinforced by high concordance in downstream transcriptomics findings at tissue-level. This study also highlights the heterogeneity of cell-specific transcriptional profiles for the identified proteins, and that numerous candidates were also implicated in disease progression. Together, these findings can serve as an important anchor for future studies of disease mechanisms and therapeutic development. [ABSTRACT FROM AUTHOR]

Published

2023

6. Developing a clinical-environmental-genotypic prognostic index for relapsing-onset multiple sclerosis and clinically isolated syndrome.

Author

Fuh-Ngwa, Valery, Yuan Zhou, Charlesworth, Jac C., Ponsonby, Anne-Louise, Simpson-Yap, Steve, Lechner-Scott, Jeannette, and Taylor, Bruce V.

Published

2021