Avaliação de um programa de exercício físico aeróbio na frequência de crises, saúde e qualidade de vida em pacientes com epilepsia de lobo temporal / Evaluation of aerobic physical exercise program on seizure frequency, health and quality of life in patients with temporal lobe epilepsy

Volpato, Nathália, 1986-

26 August 2018

Orientadores: Fernando Cendes, Clarissa Lin Yasuda / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-26T06:12:20Z (GMT). No. of bitstreams: 1 Volpato_Nathalia_M.pdf: 1909573 bytes, checksum: b9cd778b7a8b7b15e06efaa25bf2ff18 (MD5) Previous issue date: 2014 / Resumo: Introdução: Epilepsia é uma doença crônica que influencia negativamente na qualidade de vida (QV) dos pacientes. Existem evidências científicas abundantes que mostram os benefícios da atividade física (AF) para diferentes indivíduos e populações; no entanto há controvérsias em estudos que relacionam AF e epilepsia. Muitas pessoas ainda acreditam que a AF pode desencadear crises epilépticas, e pessoas com epilepsia tendem a estilo de vida sedentário. Portanto, o presente estudo teve como objetivo avaliar os hábitos de AF das pessoas com epilepsia de lobo temporal refratária; e analisar os benefícios de programa de exercício físico (EF) aeróbio para essa população. Metodologia: 79 pacientes com epilepsia de lobo temporal, recrutados no Hospital das Clínicas da UNICAMP; foram avaliados através dos questionários de nível de AF (IPAQ), de nível de QV (QOLIE-31), de Histórico de Atividade Física, e Percepção e Controle de Crises. Dos 79 pacientes, 40 aceitaram realizar o teste cardiopulmonar de esforço máximo e os testes de antropometria. As avaliações foram realizadas antes e após o programa de EF aeróbio. Utilizamos o software SYSTAT9¿, com teste de Wilcoxon para analisar diferenças entre variáveis contínuas entre grupos e intra grupos; teste exato de Fisher para analisar distribuição de frequências; e realizamos correlações de Pearson entre variáveis contínuas. O nível de significância adotado foi de p<0,05. Resultados: Os dados do questionário IPAQ mostraram diferença significativa na QV entre os grupos ativo (A) e inativo (B). Após o período de intervenção de EF aeróbio, o grupo treinamento (T) obteve melhora significativa da QV geral, da percepção de bem estar, da cognição e memória, da percepção de energia diária e fadiga, da percepção da função social, e da capacidade física em relação ao momento pré intervenção. Em contrapartida, o grupo controle (C), o qual foi orientado a manter suas atividades diárias normais, apresentou redução da QV geral durante o período, diminuição da percepção de bem estar, da cognição e memória, e da função social; e manteve a capacidade física. Discussão: Os resultados evidenciam a importância do EF como complemento ao tratamento convencional de pacientes com epilepsia de lobo temporal. O EF proporcionou melhora da QV e da capacidade física; promovendo assim, a melhora emocional e da saúde geral dessa população / Abstract: Introduction: Epilepsy is a chronic condition that causes negative impact in the quality of life (QOL). There are plenty of scientific studies supporting the benefits of physical activity (PA) for different groups; however, there are controversies in studies about the relationship between PA and epilepsy. Many people still believe that PA can precipitate epileptic seizures, in such a way that people with epilepsy tend to a sedentary lifestyle. Therefore, the present study evaluated the PA habits in people with temporal lobe epilepsy and the benefits of aerobic physical exercise (PE) program for this population. Methodology: 79 patients with temporal lobe epilepsy were recruited from the Clinical Hospital of UNICAMP. They were evaluated through questionnaires of PA level (IPAQ); level of QOL (QOLIE31); History of Physical Exercise; and Perception and Seizure¿s Control. Forty out of 79 patients agreed to do the cardiopulmonary maximal exercise test and the anthropometry tests. The evaluations were taken before and after the aerobic PE program. Statistical analyses were conducted using the SYSTAT9TM Software. The differences between continuous variables between the groups and intra groups were analyzed through the Wilcoxon test; the frequency distribution was analyzed through the Fisher¿s exact test; and the relations between continuous variables were analyzed through the Pearson correlation. The level of significance adopted was p <0.05. Results: The data from IPAQ showed significant differences in QOL between the active (A) and inactive (B) groups. After the intervention period of aerobic PE, the training group (T) obtained significant improvement in overall QOL, as well as in the wellbeing perceptions; in the cognition and memory; in the daily energy and fatigue; in the social function¿s perception and in the physical capacity. On the contrary, people in the control group (C), that were instructed to maintain their normal daily activities, suffered a decrease of QOL level along with wellbeing¿s perception; cognition and memory; social function; and maintained their physical capacity. Discussion: The results show the importance of PE as complementary treatment of patients with temporal lobe epilepsy. It showed the capacity to improve the QOL and the physical capacity, therefore, promoting emotional and the overall health improvement for this population / Mestrado / Fisiopatologia Médica / Mestra em Ciências

Atividade física

Neurologia

Terapias complementares

Doenças do sistema nervoso

Habitos

Physical activity

Neurology

Complementary therapies

Nervous system diseases

Habits

Biological Mechanisms and Symptom Outcomes of Uncertainty and Psychological Stress in Parkinson’s Disease

Austin, Kimberley W

01 January 2017

The purpose of this work was to examine biological mechanisms and symptom outcomes of illness uncertainty and psychological stress in Parkinson’s disease (PD). Parkinson’s disease is a chronic, progressive neurodegenerative disorder characterized by complex symptoms that fluctuate in onset, severity, level of disability, and responsiveness to treatment. In addition to characteristic motor symptoms of tremor, rigidity, bradykinesia, and postural instability, a considerable number of individuals with PD also experience debilitating pain, fatigue, and medication-induced motor complications of dyskinesia, dystonia, and on-off phenomena. The unpredictable nature of PD symptoms and motor complications coupled with the inability to halt or slow disease progression may result in uncertainty and psychological stress. Evidence is lacking regarding biological mechanisms and symptom outcomes of uncertainty and psychological stress in PD. As such, 80 men and women diagnosed with PD after the age of 49 were recruited to participate in this study. Data specific to characteristics that may contribute to uncertainty and psychobehavioral measures of uncertainty, appraisal, psychological stress, and symptom outcomes of motor symptoms, pain, and fatigue were collected. Biological measures of neuropeptide Y (NPY) and cytokines were obtained. The results revealed that participants perceived a moderate level of illness uncertainty. Uncertainty correlated significantly with motor symptoms, pain severity, and pain interference and predicted more severe pain severity and pain interference. Psychological stress correlated significantly with motor symptoms, pain severity, pain interference, and fatigue and predicted more severe symptoms across all outcomes. NPY was positively correlated with threat appraisals and psychological stress. Cytokines were below the level of detection in this sample, and not used beyond descriptive analyses. In summary, this study found uncertainty and psychological stress contributed to more severe symptom outcomes in PD. This knowledge may be used to guide future studies aimed at further elucidating biobehavioral symptom and health outcomes of uncertainty and psychological stress in PD. It will also facilitate the development of interventions specifically targeted to uncertainty and psychological stress for the ultimate purpose of improving symptom management, health outcomes, and disease progression in PD.

Parkinson's disease

uncertainty

psychological stress

symptoms

biological mechanisms

Nervous System Diseases

Other Nursing

Vitamin B12 Deficiency Does Not Stimulate Amyloid-beta Toxicity in a Ceanorhabditis elegans Model of Alzheimer’s Disease

Showemimo, Opeyemi F

01 May 2021

Alzheimer’s disease (AD) is symptomized by amyloid-beta plaques in the brain and accounts for more than 65 percent of dementia cases. Vitamin B12 (cobalamin) deficiency can result in similar cognitive impairment and roughly 15% of the elderly are vitamin B12 deficient. Vitamin B12 deficiency results in the accumulation of toxic methylmalonic acid and homocysteine. Hyperhomocysteinemia is a strong risk factor for AD. To test if vitamin B12 deficiency stimulates amyloid-beta toxicity, Caenorhabditis elegans expressing amyloid-beta in muscle were fed either vitamin B12-deficient OP50-1 or vitamin B12-rich HT115(DE3) E. coli bacteria. Increased amyloid-beta toxicity was found in worms fed the 0P50-1 diet. Supplementation of the OP50-1 diet with vitamin B12 did not rescue the increased C. elegans toxicity. Knockdown of either of the only two C. elegans vitamin B12-dependent enzymes metr-1 or mmmc-1 protected against toxicity. Therefore, vitamin B12 deficiency does not stimulate Alzheimer’s amyloid-beta-mediated toxicity in C. elegans.

cobalamin

b-vitamins

amyloid-beta paralysis

homocysteine

Caenorhabditis elegans

Cognitive Neuroscience

Molecular and Cellular Neuroscience

Nervous System Diseases

Other Neuroscience and Neurobiology

The Study of Two Strategies for Decreasing Mutant Huntingtin: Degradation by Puromycin Sensitive AminoPeptidase and RNA Interference: A Dissertation

Chaurette, Joanna

22 May 2013

Huntington’s disease (HD) is a fatal neurodegenerative disease caused by a CAG repeat expansion in exon 1 of the huntingtin gene, resulting in an expanded polyglutamine (polyQ) repeat in the huntingtin protein. Patients receive symptomatic treatment for motor, emotional, and cognitive impairments; however, there is no treatment to slow the progression of the disease, with death occurring 15-20 years after diagnosis. Mutant huntingtin protein interferes with multiple cellular processes leading to cellular dysfunction and neuronal loss. Due to the complexity of mutant huntingtin toxicity, many approaches to treating each effect are being investigated. Unfortunately, addressing one cause of toxicity might not result in protection from other toxic insults, necessitating a combination of treatments for HD patients. Ideally, single therapy targeting the mutant mRNA or protein could prevent all downstream toxicities caused by mutant huntingtin. In this work, I used animal models to investigate a potential therapeutic target for decreasing mutant huntingtin protein, and I apply bioluminescent imaging to investigate RNA interference to silence mutant huntingtin target sites. The enzyme puromycin sensitive aminopeptidase (PSA) has the unique property of degrading polyQ peptides and been implicated in the degradation of huntingtin. In this study, we looked for an effect of decreased PSA on the pathology and behavior in a mouse model of Huntington’s disease. To achieve this, we crossed HD mice with mice with one functional PSA allele and one inactivated PSA allele. We found that PSA heterozygous HD mice develop a greater number of pathological inclusion bodies, representing an accumulation of mutant huntingtin in neurons. PSA heterozygous HD mice also exhibit worsened performance on the raised-beam test, a test for balance and coordination indicating that the PSA heterozygosity impairs the function of neurons with mutant huntingtin. In order to test whether increasing PSA expression ameliorates the HD phenotype in mice we created an adeno-associated virus (AAV) expressing the human form of PSA (AAV-hPSA). Unexpectedly, testing of AAV-hPSA in non-HD mice resulted in widespread toxicity at high doses. These findings suggest that overexpression of PSA is toxic to neurons in the conditions tested. In the second part of my dissertation work, I designed a model for following the silencing of huntingtin sequences in the brain. Firefly luciferase is a bioluminescent enzyme that is extensively used as a reporter molecule to follow biological processes in vivo using bioluminescent imaging (BLI). I created an AAV expressing the luciferase gene containing huntingtin sequences in the 3'-untranslated region (AAV-Luc-Htt). After co-injection of AAV-Luc-Htt with RNA-silencing molecules (RNAi) into the brain, we followed luciferase activity. Using this method, we tested cholesterol-conjugated siRNA, un-conjugated siRNA, and hairpin RNA targeting both luciferase and huntingtin sequences. Despite being able to detect silencing on isolated days, we were unable to detect sustained silencing, which had been reported in similar studies in tissues other than the brain. We observed an interesting finding that co-injection of cholesterol-conjugated siRNA with AAV-Luc-Htt increased luminescence, findings that were verified in cell culture to be independent of serotype, siRNA sequence, and cell type. That cc-siRNA affects the expression of AAV-Luc-Htt reveals an interesting interaction possibly resulting in increased delivery of AAV into cells or an increase in luciferase expression within the cell. My work presents a method to follow gene silencing of huntingtin targets in the brain, which needs further optimization in order to detect sustained silencing. Finally, in this dissertation I continue the study of bioluminescent imaging in the brain. We use mice that have been injected in the brain with AAV-Luciferase (AAV-Luc) to screen 34 luciferase substrate solutions to identify the greatest light-emitting substrate in the brain. We identify two substrates, CycLuc1 and iPr-amide as substrates with enhanced light-emitting properties compared with D-luciferin, the standard, commercially available substrate. CycLuc1 and iPr-amide were tested in transgenic mice expressing luciferase in dopaminergic neurons. These novel substrates produced luminescence unlike the standard substrate, D-luciferin which was undetectable. This demonstrates that CycLuc1 and iPr-amide improve the sensitivity of BLI in low expression models. We then used CycLuc1 to test silencing of luciferase in the brain using AAV-shRNA (AAV-shLuc). We were unable to detect silencing in treated mice, despite a 50% reduction of luciferase mRNA. The results from this experiment identify luciferase substrates that can be used to image transgenic mice expressing luciferase in dopaminergic neurons. My work contributes new data on the study of PSA as a modifier of Huntington’s disease in a knock-in mouse model of Huntington’s disease. My work also makes contributions to the field of bioluminescent imaging by identifying and testing luciferase substrates in the brain to detect low level of luciferase expression.

Aminopeptidases

Huntington Disease

Mutant Proteins

Nerve Tissue Proteins

RNA Interference

Dissertations, UMMS

Genetics and Genomics

Nervous System Diseases

Neuroscience and Neurobiology

Identification of Novel Genetic Variations for Amyotrophic Lateral Sclerosis (ALS)

Xu, Guang

27 February 2018

A list of genes have been identified to carry mutations causing familial ALS such as SOD1, TARDBP, C9orf72. But for sporadic ALS, which is 90% of all ALS cases, the underlying genetic variants are still largely unknown. There are multiple genome-wide association study (GWAS) for sporadic ALS, but usually a large number nominated SNP can hardly be replicated in larger cohort analysis. Also majority of GWAS SNP lie within noncoding region of genome, imposing a huge challenge to study their biological role in ALS pathology. With the rapid development of next-generation sequencing technology, we are able to sequence exome and whole-genome of a large number of ALS patients to search for novel genetic variants and their potential biological function. Here by analyzing exam data, we discovered two novel or extremely rare missense mutations of DPP6 from a Mestizo Mexican ALS family. We showed the two mutations could exert loss-of-function effect by affecting electrophysiological properties of Potassium channels as well as the membrane localization of DPP6. To our knowledge this is the first report of DPP6 nonsynonymous mutations in familial ALS patients. In addition, by analyzing whole-genome data, we discovered strong linkage disequilibrium between SNP rs12608932, a repeatedly significant ALS GWAS signal, and one polymorphic TGGA tetra-nucleotide tandem repeat, which is further flanked by large TGGA repetitive sequences. We also demonstrated rs12608932 risk allele is associated with reduced UNC13A expression level in human cerebellum and UNC13A knockout could lead to shorter survival in SOD1-G93A ALS mice. Thus the TGGA repeat might be the real underlying genetic variation that confer risk to sporadic ALS.

Amyotrophic Lateral Sclerosis

Genetics

Bioinformatics

Next-generation Sequencing

Bioinformatics

Computational Biology

Genomics

Nervous System Diseases

Neurology

Neuroscience and Neurobiology

rAAV-Mediated Gene Transfer For Study of Pathological Mechanisms and Therapeutic Intervention in Canavan's Disease: A Dissertation

Ahmed, Seemin Seher

01 December 2014

Canavan’s Disease is a fatal Central Nervous System disorder caused by genetic defects in the enzyme – aspartoacylase and currently has no effective treatment options. We report additional phenotypes in a stringent preclinical aspartoacylase knockout mouse model. Using this model, we developed a gene therapy strategy with intravenous injections of the aspartoacylase gene packaged in recombinant adeno associated viruses (rAAVs). We first investigated the CNS gene transfer abilities of rAAV vectors that can cross the blood-brain-barrier in neonatal and adult mice and subsequently used different rAAV serotypes such as rAAV9, rAAVrh.8 and rAAVrh.10 for gene replacement therapy. A single intravenous injection rescued lethality, extended survival and corrected several disease phenotypes including motor dysfunctions. For the first time we demonstrated the existence of a therapeutic time window in the mouse model. In order to limit off-target effects of viral delivery we employed a synthetic strategy using microRNA mediated posttranscriptional detargeting to restrict rAAV expression in the CNS. We followed up with another approach to limit peripheral tissue distribution. Strikingly, we demonstrate that intracerebroventricular administration of a 50-fold lower vectors dose can rescue lethality and extend survival but not motor functions. We also study the contributions of several peripheral tissues in a primarily CNS disorder and examine several molecular attributes behind pathogenesis of Canavan’s disease using primary neural cell cultures. In summary, this thesis describes the potential of novel rAAV-mediated gene replacement therapy in Canavan’s disease and the use of rAAVs as a tool to tease out its pathological mechanism.

Amidohydrolases

Canavan Disease

Dependovirus

Genetic Therapy

Genetic Vectors

Dissertations, UMMS

Genetics

Genetics and Genomics

Nervous System Diseases

Therapeutics

Functional Characterization of Novel PFN1 Mutations Causative for Familial Amyotrophic Lateral Sclerosis: A Dissertation

Wu, Chi-Hong

17 December 2015

Amyotrophic lateral sclerosis (ALS) is a progressive adult neurodegenerative disease that causes death of both upper and lower motor neurons. Approximately 90 percent of ALS cases are sporadic (SALS), and 10 percent are inherited (FALS). Mutations in the PFN1 gene have been identified as causative for one percent of FALS. PFN1 is a small actin-binding protein that promotes actin polymerization, but how ALS-linked PFN1 mutations affect its cognate functions or acquire gain-of-function toxicity remains largely unknown. To elucidate the contribution of ALS-linked PFN1 mutations to neurodegeneration, we have characterized these mutants in both mammalian cultured cells and Drosophila models. In mammalian neuronal cells, we demonstrate that ALS-linked PFN1 mutants form ubiquitinated aggregates and alter neuronal morphology. We also show that ALS-linked PFN1 mutants have partial loss-of-function effects on actin polymerization in growth cones of mouse primary motor neurons and larval neuromuscular junctions (NMJ) in Drosophila. In Drosophila, we also observe that PFN1 level influences integrity of adult motor neurons, as demonstrated by locomotion, lifespan, and leg NMJ morphology. In sum, the work presented in this dissertation has shed light on PFN1- linked ALS pathogenesis by demonstrating a loss-of-function mechanism. We have also developed a Drosophila PFN1 model that will serve as a valuable tool to further uncover PFN1-associated cellular pathways that mediate motor neuron functions.

Amyotrophic Lateral Sclerosis

Drosophila

Motor Neurons

Profilins

PFN1 Mutations

Dissertations, UMMS

Mutation

Genetics and Genomics

Molecular and Cellular Neuroscience

Nervous System Diseases

Optimization of sensitivity to disease-associated cortical metabolic abnormality by evidence-based quantification of in vivo proton magnetic resonance spectroscopy data from 3 Tesla and 7 Tesla

Swanberg, Kelley Marie

January 2022

In vivo proton magnetic resonance spectroscopy (1H MRS) is the only method available to measure small-molecule metabolites in living human tissue, including the brain, without ionizing radiation or invasive medical procedures. Despite its attendant potential for supporting clinical diagnostics in a range of neurological and psychiatric conditions, the metabolite concentration estimates produced by 1H-MRS experiments, and therefore their sensitivity and specificity to any particular biological phenomenon under study, are readily distorted by a number of confounds. These include but are not limited to static and radiofrequency field characteristics, signal relaxation dynamics, macromolecule and lipid contributions to the spectral baseline, spectral fitting artifacts, and other uncontrolled idiosyncrasies of 1H-MRS data acquisition, processing, and quantification. Using 1H-MRS data obtained via 3-Tesla and 7-Tesla magnetic resonance (MR) scanners from healthy controls, individuals with progressive and relapsing-remitting multiple sclerosis (MS), and individuals with post-traumatic stress disorder (PTSD) and/or major depressive disorder (MDD), this work therefore aims to build and apply a framework for quantifying and thereby reducing such confounds introduced to 1H-MRS estimates of in vivo metabolite concentrations at the steps of data processing and quantification, with an ultimate aim to maximizing the potential of 1H MRS for supporting sensitive and specific clinical diagnosis of neurological or psychiatric disease. The steps examined include spectral quantification by linear combination modeling (Chapter 2), absolute quantification by internal concentration referencing (Chapter 3), and cross-sectional statistical analysis of results (Chapters 4 and 5). Chapter 2 designs and implements a graphical user interface (GUI)-supported validation pipeline for measuring how data quality, spectral baseline, and baseline model affect the precision and accuracy of 1H-MR spectral quantification by linear combination modeling. This validation pipeline is then used to show that spectral data quality indices signal to noise ratio (SNR) and full width at half maximum (FWHM) interact with spectral baseline to influence not only the precision but also the accuracy of resultant metabolite concentration estimates, with fit residuals poorly indicative of true fit error and spectral baselines modeled as regularized cubic splines not significantly outperformed by those employing simulated macromolecules. A novel method for extending the commonly used spectral quantification precision estimate Cramér-Rao Lower Bound (CRLB) to incorporate considerations of continuous and piecewise polynomial baseline shapes is therefore presented, tested, and similarly integrated into a GUI-supported toolkit to improve the correspondence between estimated CRLB and metabolite fit error variability when this now empirically justified approach to spectral baseline modeling is used. In Chapter 3, age- and disease-associated differences in transverse (T2) water signal relaxation measured at 7 Tesla in the prefrontal cortex of individuals with progressive (N=21) relative to relapsing-remitting (N=26) or no (N=25) multiple sclerosis are shown to influence absolute quantification of metabolite concentrations by internal referencing to water. In Chapter 4, these findings from Chapters 2 and 3 are used to justify an evidence-based 1H-MR spectral processing and quantification protocol that focuses optimization efforts on baseline modeling approach and references metabolite concentration estimates to internal creatine instead of water. When this protocol is applied to 7-Tesla prefrontal cortex 1H-MR spectra from the aforementioned multiple sclerosis and control cohorts, it supports metabolite concentration estimates that, in the absence of any additional supporting data, inform supervised-learning-enabled identification of progressive multiple sclerosis at nearly 80% held-out validation sensitivity and specificity. Finally, in Chapter 5, the same processing, quantification, and machine-learning pipeline employed in Aim 3 is independently applied to a new set of 7-Tesla prefrontal cortex 1H-MRS raw data from an entirely different cohort of individuals with (N=20) and without (N=18) PTSD and/or comorbid or primary MDD. Here the processing, quantification, and statistics procedures designed using lessons in Chapters 2 and 3 and optimized for classifying multiple sclerosis phenotype in Chapter 4 generalize directly to metabolite-only classification of PTSD and/or MDD with sensitivity and specificity similarly near to or greater than 80%. In both Chapters 4 and 5, supervised learning avoids dimensionally reducing metabolite feature sets in order to pinpoint the specific metabolites most informative for identifying each disease group. Taken together, these findings justify the potential and continued development of 1H MRS, at least as applied in the human brain and especially as supported by multivariate approaches including supervised learning, as an auxiliary or mainstay of clinical diagnostics for neurological or psychiatric disease.

Biomedical engineering

Metabolites

Nuclear magnetic resonance spectroscopy

Nervous system--Diseases--Diagnosis

Brain--Diseases--Diagnosis

Women’s Experiences of Managing Relapsing-Remitting Multiple Sclerosis with Disease Modifying Drugs: A Dissertation

Terrill, Eileen F.

01 May 2007

Purpose: To describe the experience of managing relapsing-remitting multiple sclerosis among adult women users of injectable disease modifying drugs, including day-to-day management, medication beliefs, and health care provider influence. Rationale/Significance of the study:Approximately 85% of the 400,000 Americans with multiple sclerosis have relapsing-remitting multiple sclerosis (RRMS), characterized by unpredictable relapses and partial or full remissions of neurological symptoms. Untreated, RRMS may progress to permanent, irreversible disability and decreased quality of life. Current guidelines recommend immediate and sustained treatment with injectable disease modifying drugs (DMDs). However, despite pronounced modest benefits, approximately 30%-62% of patients are not undergoing DMD therapy. A small number of quantitative studies have identified factors that predict adherence to injectable DMDs. However, little is known about injectable DMDs from patients’ perspectives. It is important to develop an understanding of the experience of managing RRMS among adult users of injectable DMDs in order for health care providers to provide ongoing education, counseling, and support. Organizing Framework:The framework, Beliefs About Medicines, was used to guide the study. Design: Qualitative descriptive design. Setting: Data were collected from adult women with RRMS who received care from an MS clinic, a neurology practice, and through snowball sampling. Sample: Purposive and theoretical sampling was used to recruit 32 women with RRMS. Maximum variation sampling ensured the appropriate breadth and depth of experiences. Women currently undergoing injectable DMD therapy (n = 25), as well as women who either discontinued (n = 6), or never used (n = 1) injectable DMDs were interviewed. Methods: A qualitative descriptive design was utilized. Verification occurred through trustworthiness of data, including rich, thick description from qualitative interviews; field notes and memoing; and member checks. Simultaneous data collection, analysis, and interpretation facilitated interview revision in order to elicit or expand emerging themes. Content analysis inductively derived themes and patterns within and across categories. Participant quotes substantiated particular themes. Confirmability of the data analysis process was undertaken in consultation with the research advisor. Implications: Findings elucidated adult women’s subjective experiences concerning management of RRMS among users of DMDs, including day-to-day management, medication beliefs, and health care provider influence. Results from this study can be used to educate, counsel, and support women in the management of RRMS.

Multiple Sclerosis

Relapsing-Remitting

Antirheumatic Agents

Women’s Health

Disease Management

Professional-Patient Relations

Nervous System Diseases

Nursing

Therapeutics

Women's Health

Concussion IS a Brain Injury

Andrews, Courtney M.

01 June 2019

No description available.

concussion

brain injury

Audiology and Speech-Language Pathology

Communication Sciences and Disorders

Nervous System Diseases

Speech Pathology and Audiology

Telemedicine