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Development of helper-dependent adenovirus for gene expression in muscleDeol, Jatinderpal. January 2001 (has links)
Duchenne muscular dystrophy (DMD) is characterized by necrosis and progressive loss of muscle fibers. DMD patients have a mutation in the gene encoding dystrophin, a large membrane-associated cytoskeletal protein on the cytoplasmic side of the sarcolemma. Gene therapy using fully deleted adenoviral vectors shows great potential for the eventual treatment of DMD and other genetic diseases. These vectors are less immunogenic than their predecessors and have the capacity to carry large DNA inserts such as the full-length dystrophin (12 kb). However, the lack of viral genes results in a weakened and subsiding (short) transgene expression in muscle. Findings in the lung and liver have shown the adenoviral E4 region, in particular E4 open reading frame 3 (ORF3) to contribute to the maintenance of transgene expression. We constructed an adenovirus in which E4 ORF3 was reintroduced into a fully-deleted adenovirus along with full-length dystrophin (AdCBDysORF3). Dystrophin levels produced by AdCBDysORF3 were found to be not sustained in mdx mice, dropping significantly by day 90. However, expression levels did increase when AdCBDysORF3 was complemented with other viral proteins such as EIB. Likewise, increasing the expression of the primary adenovirus receptor (CAR) in muscle also resulted in a higher initial dystrophin expression in myofibers.
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Molecular genetic analysis of a New South Wales muscular dystrophy cohortTaylor, Peter John, Medical Sciences, Faculty of Medicine, UNSW January 2008 (has links)
Duchenne muscular dystrophy (DMD) is an X-linked lethal condition associated with high morbidity and mortality. There is currently no cure for this disease. Several gene-based therapeutic approaches for treating DMD are currently under development but all are dependent on the knowledge of the causative dystrophin gene mutation. A combined mutation detection approach consisting of a quantitative PCR based analysis and DNA sequencing of the dystrophin gene resulted in a mutation etection rate of 96% in the New South Wales (NSW) DMD cohort. The proportion of exon duplication mutations was twice that generally reported for similar patient opulations. The clinical utility of the combined mutation protocol for DMD carrier testing clarified the carrier status of an additional one-third (33%) of female relatives compared to a conventional approach of biochemical, pedigree and linkage studies. The generally accepted view that two-thirds of mothers of isolated cases of DMD are themselves mutation carriers is challenged. Although this assumption is valid for duplication and DNA sequence mutations, it is not valid for deletion mutations in the NSW cohort. The incidence of new cases of DMD in the New South Wales population was educed from approximately 1 in 3594 live male births to 1 in 6022 live male births over a 25 year period, indicative of a significant effect of the combination of genetic counselling and improved methods of carrier detection over that period. In a study of a cohort of boys with DMD, who had both psychological and mutational analysis, it was shown that mutations affecting the shorter, C-terminal isoforms of dystrophin are associated with decreased mean intellectual function. A hypothesis is presented that mutations within the long 5' untranslated region of the Dp140 isoform are unlikely to significantly affect expression of this brain-expressed isoform. During the course of studying the NSW DMD cohort a family was identified which exhibited X-linkage and a unique clinical presentation involving episodes of severe and prolonged muscle weakness. A novel variant in the pyruvate dehydrogenase E1 alpha subunit (PDHA 1) was identified. The phenotypic effect of this variant is not proven but a body of evidence implicates this as likely to be causative of the observed phenotype.
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Determining the Contribution of Utrophin A Versus Other Components of the Slow, Oxidative Phenotype in the Beneficial Adaptations of Dystrophic Muscle Fibers Following AMPK ActivationAl-Rewashdy, Hasanen January 2014 (has links)
Duchenne Muscular Dystrophy (DMD) results from the absence of a functional dystrophin protein. Among its possible therapeutic options is the upregulation of dystrophin’s autosomal analogue, utrophin A. This can be achieved by a pharmacologically induced shift towards a slower, more oxidative skeletal muscle phenotype, which has been shown to confer morphological and functional improvements on models of DMD. Whether these improvements are a result of the utrophin A upregulation or other beneficial adaptations associated with the slow, oxidative phenotype, such as improved autophagy, has not been determined. To understand the importance of utrophin A to the therapeutic value of the slow, oxidative phenotype, we used the utrophin/dystrophin double knockout (dKO) model of DMD. We found the dKO mouse to have a similar skeletal muscle signaling capacity and phenotype to mdx mice. When treated with the adenosine monophosphate activated protein kinase (AMPK) agonist 5-aminoimidazole-4-carboxamide-1-β-D-ribofuranoside (AICAR), both dKO and mdx mice expressed a shift towards a slower, more oxidative phenotype. In the mdx mice, this shift caused improvements in muscle fiber central nucleation, IgM penetration, damage from eccentric contractions, and forelimb grip strength. These morphological and functional benefits were not seen in the AICAR treated dKO mice. This study highlights the importance of utrophin A upregulation to the benefits of the slow, oxidative myogenic program to dystrophic mice. It confirms utrophin A as a therapeutic target in DMD and the slow, oxidative myogenic program as clinically relevant avenue towards treatment of the disease.
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Combinatorial Utrophin A Activation in Muscle as a Therapeutic Strategy to Treat Duchenne Muscular DystrophyAhmed, Aatika January 2015 (has links)
Duchenne Muscular Dystrophy (DMD) is an X-linked recessive neuromuscular disorder caused by mutations or deletions in the dystrophin gene. Utrophin up-regulation therapy is among the various therapeutic strategies that are being investigated to treat DMD. In this strategy utrophin, a dystrophin homologue, is up-regulated along the entire length of the sarcolemma to replace the absent dystrophin protein. Previous studies have revealed that utrophin A expression can be controlled by various transcriptional, post-transcriptional and translational mechanisms and pharmacological modulation of these pathways can stimulate its expression in muscle. In the present study we screened several FDA approved and natural pharmacological compounds that can potentially activate utrophin A expression in muscle. We found that AICAR (AMPK activator) and heparin (p38 activator) were most effective in stimulating utrophin A expression in our C2C12 muscle cell system. Next, we analyzed the effect of combining these activators on utrophin A expression in muscle cells and preclinical mdx mouse model of DMD. Our findings revealed that combinatorial treatment of AICAR and heparin instigated an additive effect on utrophin A expression both in C2C12 muscle cells and mdx mice. Further characterization of treated mdx mice revealed that combinatorial treatment of AICAR and heparin caused improvements in the dystrophic phenotype as indicated by decreased central nucleation, decreased fiber size variability and improved sarcolemmal integrity in dystrophic muscle. Together these findings established that combinatorial treatment of AICAR and heparin ameliorates the dystrophic phenotype in mdx mice and may serve as an effective therapeutic strategy for DMD.
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Development of helper-dependent adenovirus for gene expression in muscleDeol, Jatinderpal. January 2001 (has links)
No description available.
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Exercise-induced mechanisms of muscle adaptation in mdx miceLekan, Jaimy Marie 12 October 2004 (has links)
No description available.
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Duchenne and Becker muscular dystrophy: implications for at-risk individualsErasmus, Suretha 16 April 2010 (has links)
MSc (Med), Genetic Counselling, Faculty of Health Sciences, University of the Witwatersrand, 2009 / Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are severe X-linked recessive, degenerative neuromuscular diseases. DMD/BMD are caused by deletions, duplications and point mutations in the DMD gene situated on the X-chromosome. Studies have shown that the risk of being a carrier for DMD/BMD has a psychosocial impact on individuals and affects their requests for DNA testing and their choices regarding reproduction. Very few articles have been published to date and this study is the first South African study to investigate the behaviours of individuals in DMD/BMD families.
The study aimed to investigate why individuals attended genetic counselling and who referred them. It also aimed to identify factors that influence at-risk individuals‟ decisions regarding genetic counselling, carrier testing and reproduction. The study was retrospective and data were obtained by reviewing genetic counselling files at the Division of Human Genetics, National Health Laboratory Service and the University of the Witwatersrand. The sample consisted of 79 files of families seen for genetic counselling regarding DMD/BMD from 1995 to 2008. Subjects included the maternal female relatives of affected individuals, who were all of reproductive age (15-49 years); the total number of at-risk individuals identified was 237.
Subjects were divided into three groups according to their assigned reproductive risks: low (0-9%), intermediate (10-24%) and high (>25%). The influence of reproductive risk and other identified variables on decisions to attend genetic counselling, have carrier testing and having children were analysed using chi-squared and logistic regression analysis.
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Reproductive risk and relationship to the affected individuals were shown to be significant predictors of individuals‟ decisions. Other factors that contributed significantly to the behaviour of at-risk individuals were ethnicity, age, whether a mutation was de novo and whether an individual had affected children.
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Efeito do uso da ankle-foot orthosis na biomecânica da marcha de pacientes com Distrofia Muscular de Duchenne / Effect of use of ankle-foot orthosis on the gait biomechanics of patients with Duchenne muscular dystrophySouza, Mariana Angélica de 05 December 2014 (has links)
O objetivo deste estudo foi avaliar o efeito do uso noturno ou diurno da ankle-foot orthosis (AFO) na biomecânica da marcha de pacientes com DMD. Foram avaliados 20 pacientes deambuladores, do Ambulatório de Miopatias Infantis do CER do HCFMRP-USP, com diagnóstico de distrofia muscular de Duchenne (DMD), com idades entre 4 e 12 anos. Foi realizada a avaliação inicial (Av1) em todos os pacientes e, 7 pacientes foram reavaliados após 6 meses (Av2). Na Av1, os pacientes foram agrupados conforme o uso da órtese: grupo sem órtese (SO; n=7), grupo órtese noturna (ON; n=7), grupo órtese diurna (OD; n=6). Na Av1 e na Av2 foram obtidos dados de massa corporal, altura, composição corporal pela bioimpedância elétrica, escore funcional pela escala medida da função motora, amplitude passiva de movimento articular, força muscular isométrica pelo dinamômetro Handheld e avaliação biomecânica da marcha, na velocidade habitual do paciente. Os pacientes que faziam uso da órtese diurna foram avaliados sem e com órtese, sendo denominados grupos ODs e ODc, respectivamente. Os dados foram analisados de três formas: duas transversais e uma longitudinal. Nas análises transversais, foram realizados dois procedimentos: (i) comparando dados dos grupos SO x ON x ODs; (ii) comparando dados dos grupos SO x ON x ODc. Nestas, foi utilizado o teste ANOVA, considerando um nível de significância de 5%. Na análise longitudinal, foi realizada a análise descritiva comparando os dados obtidos na Av1 e Av2, individualmente para os 7 pacientes reavaliados. Transversalmente, o grupo ODc apresentou maiores picos do ângulo de dorsiflexão e do momento dorsiflexor, menor ângulo de flexão plantar e menor geração de potência de tornozelo (p<0,05) que o grupo SO. Porém, ao caminhar sem a AFO (grupo ODs) estes resultados não foram observados (p>0,05). Em relação ao grupo ON, o grupo ODc obteve menores picos do ângulo de flexão do quadril, de absorção de potência de quadril, do ângulo de flexão plantar e maior pico do momento dorsiflexor (p<0,05), sendo que ao retirar a AFO (ODs) essas diferenças não foram observadas (p>0,05). E ainda, o grupo ON obteve maior pico do ângulo de flexão do joelho e menor momento flexor de quadril (p<0,05) em relação ao grupo ON. Na comparação dos dados entre os grupos SO e ON, o grupo ON obteve maior pico do ângulo de flexão do joelho e maior absorção de potência de quadril (p<0,05). Na análise longitudinal individual foi observado que os 2 pacientes que iniciaram precocemente e mantiveram o uso noturno da AFO apresentaram na Av2 maior velocidade da marcha, maiores momentos extensor de quadril e flexor plantar e maior geração de potência de tornozelo, contrariamente aos paciente que interromperam o uso (noturno ou diurno) da AFO. Conclui-se que o uso diurno da AFO acarretou alterações positivas na biomecânica da marcha, minimizando compensações típicas da DMD na articulação do tornozelo. O uso noturno da AFO, quando iniciado precocemente, também afetou positivamente a marcha dos pacientes. Assim, sugere-se o início precoce e contínuo do uso diurno e noturno da AFO aos pacientes com DMD. / The aim of this study was to evaluate the effect of the ankle-foot orthosis (AFO) during nocturnal or daytime usage of the gait biomechanics in patients with Duchenne Muscular Dystrophy (DMD). Twenty ambulant patients from the Myopathies Infant Ambulatory of CER - HCFMRP-USP, were diagnosed with DMD between the ages of 4 and13 years and were evaluated. The initial evaluation (Ev1) was performed in all patients, and 7 patients were reevaluated after 6 months (Ev2). In Av1, patients were grouped according to orthosis use: group without orthosis (NoO, n = 7), group with nocturnal orthosis (NiO, n = 7), group with daytime orthosis (DO, n = 6). In Ev1 and Ev2 data were obtained according to the weight, height, body composition (bioelectrical impedance), functional score (Measure scale of motor function), passive joint range of motion, isometric muscle strength (dynamometer Handheld) and biomechanical gait analyses (usual velocity for the patient). Patients who used the daytime orthosis were evaluated with and without bracing, respectively. The data were analyzed in three ways; the first two were cross-sectional and the other one was longitudinal. In the cross-sectional analyzes, an exploratory analysis of the data from each evaluation was performed, and subsequently, the variables were compared between groups, considering the means and standard deviations. ANOVA test was used, and it was considered a significant level of 5%. In the longitudinal analysis, the description of the data obtained in the evaluation 1 compared to the data obtained in the evaluation 2 was individually performed in the 7 patients who were reevaluated. A cross-sectional analysis compared the data between NoO x NiO x DO groups considering the gait analysis data from the DO group without the orthosis (barefoot), being named DOno. The other cross-sectional analysis compared the data between NoO x NiO x DO groups considering the gait analysis data from the OD group with orthosis, being named DOwith. In individual longitudinal analysis, it was observed that patients who had started early and kept the nocturnal usage of AFO which has been already showed, in six months, an increment of gait velocity, hip extensor and plantar flexor moments and also the increment of ankle power generation, which is the opposite of the patient who has discontinued the AFO usage (daytime or nocturnal). In the cross-sectional analyzes it was observed that, compared to the NoO group, the DOwith group had a higher dorsiflexion angle peak and higher dorsiflexor moment peak (p<0.05). However, when they walked without the device these results were not maintained. There was no difference (p>0.05) between DOno and NoO groups for the kinematic parameters. And, the DOno group had lower plantar flexor moment maximum peak than the SO group (p>0.05). It was concluded that AFO daytime use cause positive changes in gait biomechanics, minimizing typical compensation of DMD in the ankle joint. The night use of AFO, when started early, also positively affected the gait of patients. Thus, it is suggested early prescription of daytime and nocturnal usage of AFO for DMD patients.
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Respiratory function as a measure of muscle strength in young boys with Duchenne Muscular DystrophyWebster, Richard Ian, School of Women & Children's Health, UNSW January 2003 (has links)
AIMS: To evaluate the use of Manual Muscle Strength Tests (MMST), Timed Functional Tests (TFT) and Respiratory Function Tests (RFT) as measures of muscle strength in young boys with Duchenne Muscular Dystrophy (DMD) and specifically to evaluate the use of Peak Expiratory Flow (PEF). BACKGROUND: There is a need to measure the effect of treatments that potentially increase muscle strength in DMD. PEF may have advantages over Vital Capacity (VC) as a measure of respiratory function in young boys with DMD. METHODS: 17 boys with DMD (aged 5-10 years) were assessed regularly over one year. Assessment involved Respiratory Function Testing (PEF, VC, Forced Expiratory Volume in one second [FEV1]), Timed Functional Testing (walking 9 metres, climbing four stairs, arising from supine) and MMST. A single investigator performed MMST and TFTs. A separate investigator performed RFTs. For RFTs a percentage of predicted was calculated [PEF(%), FEV1(%), VC(%)].11/17 boys were treated with prednisolone which increases strength in DMD. RESULTS: At baseline, all boys had significant weakness. Mean (+/- SD) PEF(%) 69 +/- 13% and VC(%) 77 +/- 18% were abnormal. Baseline PEF(%) predicted correlated with MMST (P=0.003) and time to walk 9 metres (P=0.022). Baseline VC(%) correlated with MMST (P=0.049). There was a consistent statistically significant correlation between MMST and all TFTs. PEF was performed well on 80% of occasions, spirometry on 65%. Changes in PEF(%) showed statistically significant correlation with changes in all TFTs. The correlation was not statistically significant for VC(%) or FEV1(%). Prednisolone treated boys did better than those not treated. PEF, time to walk 9 metres and time to climb 4 stairs showed statistically significant improvement. The mean improvement from baseline in PEF(%) was 19 +/-14% in treated and 2 +/- 7% in untreated boys (P=0.012). CONCLUSIONS: MMST, TFTs and RFTs are valid measures of muscle strength in young boys with DMD. PEF is abnormal in young boys with DMD; correlates with other measures of strength and is sensitive to changes in strength. PEF is more easily performed than spirometry and has a role in monitoring muscle strength in young boys with DMD.
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Cloning and characterisation of myospryn, a novel dysbindin-binding protein in muscleBenson, Matthew Arnold January 2005 (has links)
No description available.
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