Efectos de un programa de flexibilidad en el desarrollo de la fuerza muscular en jugadoras de fútbol femenil

Se analizó el impacto de un programa de entrenamiento de flexibilidad sobre el desarrollo de la fuerza muscular en 16 jugadores de futbol con edad de 19.032.7 años. Se entrenó durante 30 días y 5 veces por semanas, donde el grupo "A" realizó entrenamiento de flexibilidad, mientras que "B" el entrenamiento regular. Se midió la flexibilidad, 1RM, salto vertical, peso, talla, circunferencia de pantorrilla y muslo. Los resultados muestran valores para A y B respectivamente, donde el IGF fue de 91.01 18.3 y 111.93 23.5; 78.22 29, y 79.03 29.1. La circunferencia femoral, 48.04 3.6 cms y 49.54 3.4 cms.; 47.56 4.9 y 47.89 5.2. Circunferencia de pantorrilla, 33.83 2.7 cm y 35.21 2.4 cm; 33.83 2 y 33.73 2.8. Fuerza 48.13 7.8 Kg. y 53.38 8.2 Kg.; 52.63 8.6 Kg. y 53.39 9.1 Kg. Potencia anaeróbica, 34.13 2.9 cm. y 36.63 1.7 cm; 38.25 4.7 y 37.06 3.4. Como conclusión se tiene que el uso la flexibilidad impacta de forma positiva en el IGF y por tanto en el desarrollo favorable muscular de jugadoras de fútbol.

Gene Expression Profiling in Limb-Girdle Muscular Dystrophy 2A

Limb-girdle muscular dystrophy type 2A (LGMD2A) is a recessive genetic disorder caused by mutations in calpain 3 (CAPN3). Calpain 3 plays different roles in muscular cells, but little is known about its functions or in vivo substrates. The aim of this study was to identify the genes showing an altered expression in LGMD2A patients and the possible pathways they are implicated in. Ten muscle samples from LGMD2A patients with in which molecular diagnosis was ascertained were investigated using array technology to analyze gene expression profiling as compared to ten normal muscle samples. Upregulated genes were mostly those related to extracellular matrix (different collagens), cell adhesion (fibronectin), muscle development (myosins and melusin) and signal transduction. It is therefore suggested that different proteins located or participating in the costameric region are implicated in processes regulated by calpain 3 during skeletal muscle development. Genes participating in the ubiquitin proteasome degradation pathway were found to be deregulated in LGMD2A patients, suggesting that regulation of this pathway may be under the control of calpain 3 activity. As frizzled-related protein (FRZB) is upregulated in LGMD2A muscle samples, it could be hypothesized that β-catenin regulation is also altered at the Wnt signaling pathway, leading to an incorrect myogenesis. Conversely, expression of most transcription factor genes was downregulated (MYC, FOS and EGR1). Finally, the upregulation of IL-32 and immunoglobulin genes may induce the eosinophil chemoattraction explaining the inflammatory findings observed in presymptomatic stages. The obtained results try to shed some light on identification of novel therapeutic targets for limb-girdle muscular dystrophies

Protocolo de recuperación y reentrenamiento de un jugador de fútbol profesional con una rotura muscular de sóleo.

En el fútbol profesional, la exigencia a la que están sometidos los deportistas y su perseverancia para aumentar el rendimiento ha incrementado considerablemente la incidencia de lesiones. En concreto, son especialmente frecuentes las lesiones musculares. Este trabajo tiene como objetivo el estudio y análisis del protocolo aplicado a un jugador de fútbol profesional de la Primera División Española quien sufre una lesión muscular durante la temporada 2011/2012. Desde el momento en que se produce la lesión se inicia un trabajo paralelo de tratamiento, rehabilitación y readaptación del deportista a la competición. En este proceso interviene un grupo de profesionales especializados en diferentes áreas interrelacionadas dentro de las ciencias del deporte que componen un equipo de trabajo multidisciplinar, destacando la figura del preparador físico en su papel de readaptador. Se estudian las técnicas empleadas para la recuperación funcional y reentrenamiento al esfuerzo antes de la reincorporación progresiva a los entrenamientos, analizando con especial atención los métodos y protocolos empleados por el readaptador en todas las fases de la temporada, tanto a nivel preventivo como terapéutico.

Programa de entrenamiento de hipertrofia muscular para un jugador de baloncesto en postemporada

El trabajo pretende mostrar la planificación, programación y periodización de un programa de entrenamiento para el desarrollo de la hipertrofia muscular en un jugador de baloncesto en postemporada. El objeto para el desarrollo de esta propuesta teórica es un jugador con un perfil joven, cuya experiencia en la liga ACB de baloncesto es de aproximadamente un año. El objetivo para este jugador es la ganancia de masa muscular durante la postemporada, es decir, durante el periodo comprendido entre el final de una temporada y el comienzo de la pretemporada de la temporada siguiente.

Readaptación funcional y prevención de la rotura muscular en el aductor medio en futbolistas

Introducción: La incidencia lesional en el fútbol está muy documentada. Dentro de todas las lesiones, las musculares son las que presentan mayor incidencia, dentro de ellas, las que se refieren al aductor medio, ocupan el segundo lugar, sólo por detrás de las lesiones en los isquiotibiales. Objetivo: diseñar y aplicar un programa de readaptación para una rotura muscular de grado II en el aductor mediano, asegurando la completa recuperación del jugador y evitando posibles recidivas futuras.

AS ESCALAS WECHSLER NO DIAGNÓSTICO NEUROPSICOLÓGICO DE CRIANÇAS COM DISTROFIA MUSCULAR DE DUCHENNE

Esta pesquisa teve por objetivo fazer uma avaliação neuropsicológica das funções cognitivas de crianças com Distrofia Muscular de Duchenne. Avaliou dez meninos, com idade entre seis e quinze anos. Utilizou-se da Escala de Inteligência Wechsler para crianças, WISC III, fazendo uma análise quantitativa e qualitativa dos dados. Os resultados quantitativos indicaram QIV muito diversificado entre os sujeitos, variando entre 53 e 97, sendo o QIVM = 77.4. A mesma variação foi observada no QIE, com resultados variando entre 57 e 88, com QIEM=71.2. O QITM foi de 71.4. . Esses resultados localizam-se na faixa limítrofe, dentro das variações normais da inteligência. A análise qualitativa fatorial segundo Figueiredo, registrou maior rebaixamento no fator III, Resistência à Distração, seguido do fator IV, Velocidade de Processamento. Na Escala Verbal, os subtestes que implicavam em utilização da Memória foram os mais comprometidos, comprovando pesquisas anteriores. Na Escala de Execução, o maior prejuízo observado foi devido à dificuldade em códigos e símbolos, sob pressão de tempo. Não foi observada nas crianças com resultados mais baixos, diferença significativa entre o QIV e o QIE. A transposição dos dados para a leitura neuropsicológica utilizou-se do diagrama de McFie. A grande diversidade dos resultados individuais recomenda estudos posteriores.

AS ESCALAS WECHSLER NO DIAGNÓSTICO NEUROPSICOLÓGICO DE CRIANÇAS COM DISTROFIA MUSCULAR DE DUCHENNE

Esta pesquisa teve por objetivo fazer uma avaliação neuropsicológica das funções cognitivas de crianças com Distrofia Muscular de Duchenne. Avaliou dez meninos, com idade entre seis e quinze anos. Utilizou-se da Escala de Inteligência Wechsler para crianças, WISC III, fazendo uma análise quantitativa e qualitativa dos dados. Os resultados quantitativos indicaram QIV muito diversificado entre os sujeitos, variando entre 53 e 97, sendo o QIVM = 77.4. A mesma variação foi observada no QIE, com resultados variando entre 57 e 88, com QIEM=71.2. O QITM foi de 71.4. . Esses resultados localizam-se na faixa limítrofe, dentro das variações normais da inteligência. A análise qualitativa fatorial segundo Figueiredo, registrou maior rebaixamento no fator III, Resistência à Distração, seguido do fator IV, Velocidade de Processamento. Na Escala Verbal, os subtestes que implicavam em utilização da Memória foram os mais comprometidos, comprovando pesquisas anteriores. Na Escala de Execução, o maior prejuízo observado foi devido à dificuldade em códigos e símbolos, sob pressão de tempo. Não foi observada nas crianças com resultados mais baixos, diferença significativa entre o QIV e o QIE. A transposição dos dados para a leitura neuropsicológica utilizou-se do diagrama de McFie. A grande diversidade dos resultados individuais recomenda estudos posteriores.

Rates of ubiquitin conjugation increase when muscles atrophy, largely through activation of the N-end rule pathway

The rapid loss of muscle mass that accompanies many disease states, such as cancer or sepsis, is primarily a result of increased protein breakdown in muscle, and several observations have suggested an activation of the ubiquitin–proteasome system. Accordingly, in extracts of atrophying muscles from tumor-bearing or septic rats, rates of 125I-ubiquitin conjugation to endogenous proteins were found to be higher than in control extracts. On the other hand, in extracts of muscles from hypothyroid rats, where overall proteolysis is reduced below normal, the conjugation of 125I-ubiquitin to soluble proteins decreased by 50%, and treatment with triiodothyronine (T3) restored ubiquitination to control levels. Surprisingly, the N-end rule pathway, which selectively degrades proteins with basic or large hydrophobic N-terminal residues, was found to be responsible for most of these changes in ubiquitin conjugation. Competitive inhibitors of this pathway that specifically block the ubiquitin ligase, E3α, suppressed most of the increased ubiquitin conjugation in the muscle extracts from tumor-bearing and septic rats. These inhibitors also suppressed ubiquitination in normal extracts toward levels in hypothyroid extracts, which showed little E3α-dependent ubiquitination. Thus, the inhibitors eliminated most of the differences in ubiquitination under these different pathological conditions. Moreover, 125I-lysozyme, a model N-end rule substrate, was ubiquitinated more rapidly in extracts from tumor-bearing and septic rats, and more slowly in those from hypothyroid rats, than in controls. Thus, the rate of ubiquitin conjugation increases in atrophying muscles, and these hormone- and cytokine-dependent responses are in large part due to activation of the N-end rule pathway.

Profound misregulation of muscle-specific gene expression in facioscapulohumeral muscular dystrophy

Facioscapulohumeral muscular dystrophy (FSHD) is a neuromuscular disorder characterized by an insidious onset and progressive course. The disease has a frequency of about 1 in 20,000 and is transmitted in an autosomal dominant fashion with almost complete penetrance. Deletion of an integral number of tandemly arrayed 3.3-kb repeat units (D4Z4) on chromosome 4q35 is associated with FSHD but otherwise the molecular basis of the disease and its pathophysiology remain obscure. Comparison of mRNA populations between appropriate cell types can facilitate identification of genes relevant to a particular biological or pathological process. In this report, we have compared mRNA populations of FSHD and normal muscle. Unexpectedly, the dystrophic muscle displayed profound alterations in gene expression characterized by severe underexpression or overexpression of specific mRNAs. Intriguingly, many of the deregulated mRNAs are muscle specific. Our results suggest that a global misregulation of gene expression is the underlying basis for FSHD, distinguishing it from other forms of muscular dystrophy. The experimental approach used here is applicable to any genetic disorder whose pathogenic mechanism is incompletely understood.

Acetylcholine receptor ɛ-subunit deletion causes muscle weakness and atrophy in juvenile and adult mice

In mammalian muscle a postnatal switch in functional properties of neuromuscular transmission occurs when miniature end plate currents become shorter and the conductance and Ca2+ permeability of end plate channels increases. These changes are due to replacement during early neonatal development of the γ-subunit of the fetal acetylcholine receptor (AChR) by the ɛ-subunit. The long-term functional consequences of this switch for neuromuscular transmission and motor behavior of the animal remained elusive. We report that deletion of the ɛ-subunit gene caused in homozygous mutant mice the persistence of γ-subunit gene expression in juvenile and adult animals. Neuromuscular transmission in these animals is based on fetal type AChRs present in the end plate at reduced density. Impaired neuromuscular transmission, progressive muscle weakness, and atrophy caused premature death 2 to 3 months after birth. The results demonstrate that postnatal incorporation into the end plate of ɛ-subunit containing AChRs is essential for normal development of skeletal muscle.

A second promoter provides an alternative target for therapeutic up-regulation of utrophin in Duchenne muscular dystrophy

Duchenne muscular dystrophy (DMD) is an inherited muscle-wasting disease caused by the absence of a muscle cytoskeletal protein, dystrophin. We have previously shown that utrophin, the autosomal homologue of dystrophin, is able to compensate for the absence of dystrophin in a mouse model of DMD; we have therefore undertaken a detailed study of the transcriptional regulation of utrophin to identify means of effecting its up-regulation in DMD muscle. We have previously isolated a promoter element lying within the CpG island at the 5′ end of the gene and have shown it to be synaptically regulated in vivo. In this paper, we show that there is an alternative promoter lying within the large second intron of the utrophin gene, 50 kb 3′ to exon 2. The promoter is highly regulated and drives transcription of a widely expressed unique first exon that splices into a common full-length mRNA at exon 3. The two utrophin promoters are independently regulated, and we predict that they respond to discrete sets of cellular signals. These findings significantly contribute to understanding the molecular physiology of utrophin expression and are important because the promoter reported here provides an alternative target for transcriptional activation of utrophin in DMD muscle. This promoter does not contain synaptic regulatory elements and might, therefore, be a more suitable target for pharmacological manipulation than the previously described promoter.

Ullrich scleroatonic muscular dystrophy is caused by recessive mutations in collagen type VI

Ullrich syndrome is a recessive congenital muscular dystrophy affecting connective tissue and muscle. The molecular basis is unknown. Reverse transcription–PCR amplification performed on RNA extracted from fibroblasts or muscle of three Ullrich patients followed by heteroduplex analysis displayed heteroduplexes in one of the three genes coding for collagen type VI (COL6). In patient A, we detected a homozygous insertion of a C leading to a premature termination codon in the triple-helical domain of COL6A2 mRNA. Both healthy consanguineous parents were carriers. In patient B, we found a deletion of 28 nucleotides because of an A → G substitution at nucleotide −2 of intron 17 causing the activation of a cryptic acceptor site inside exon 18. The second mutation was an exon skipping because of a G → A substitution at nucleotide −1 of intron 23. Both mutations are present in an affected brother. The first mutation is also present in the healthy mother, whereas the second mutation is carried by their healthy father. In patient C, we found only one mutation so far—the same deletion of 28 nucleotides found in patient B. In this case, it was a de novo mutation, as it is absent in her parents. mRNA and protein analysis of patient B showed very low amounts of COL6A2 mRNA and of COL6. A near total absence of COL6 was demonstrated by immunofluorescence in fibroblasts and muscle. Our results demonstrate that Ullrich syndrome is caused by recessive mutations leading to a severe reduction of COL6.

Neuronal nitric oxide synthase and dystrophin-deficient muscular dystrophy.

Neuronal nitric oxide synthase (nNOS) in fast-twitch skeletal muscle fibers is primarily particulate in contrast to its greater solubility in brain. Immunohistochemistry shows nNOS localized to the sarcolemma, with enrichment at force transmitting sites, the myotendinous junctions, and costameres. Because this distribution is similar to dystrophin, we determined if nNOS expression was affected by the loss of dystrophin. Significant nNOS immunoreactivity and enzyme activity was absent in skeletal muscle tissues from patients with Duchenne muscular dystrophy. Similarly, in dystrophin-deficient skeletal muscles from mdx mice both soluble and particulate nNOS was greatly reduced compared with C57 control mice. nNOS mRNA was also reduced in mdx muscle in contrast to mRNA levels for a dystrophin binding protein, alpha 1-syntrophin. nNOS levels increased dramatically from 2 to 52 weeks of age in C57 skeletal muscle, which may indicate a physiological role for NO in aging-related processes. Biochemical purification readily dissociates nNOS from the dystrophin-glycoprotein complex. Thus, nNOS is not an integral component of the dystrophin-glycoprotein complex and is not simply another dystrophin-associated protein since the expression of both nNOS mRNA and protein is affected by dystrophin expression.