Análise estereológica e bioquímica do tecido conjuntivo e muscular no corpo cavernoso adjacente à placa fibrosa da doença de Peyronie

Os estudos sobre a doença de Peyronie geralmente estão centrados em analises da placa fibrosa que se forma na túnica albugínea. Devido a esta reação fibrótica mediada por vários fatores solúveis inflamatórios o tecido conjuntivo adjacente também pode ser afetado. Este efeito secundário pode, por exemplo, explicar a disfunção erétil que ocorre na doença. Foram obtidas biopsias do corpo cavernoso adjacente a placa fibrótica e parte da própria placa de 7 pacientes com a doença de Peyronie (média de idade 48.3 anos). As amostras do grupo controle foram obtidas de forma semelhante durante a autopsia de 5 indivíduos (média de idade 52,3 anos). O material foi submetido a técnicas histoquímicas: H&E, Van Gieson, técnicas imunohistoquímicas: Anti-alfa actina, Anti-elastina e métodos bioquímicos para a dosagem do colágeno total. A quantificação foi feita através de métodos estereológicos. No corpo cavernoso foi observada uma redução estatisticamente significativa de fibras do sistema elástico de pacientes com a doença de Peyronie (19,49% 3,27% vs 23,56% 1,87%; p < 0,05), O colágeno e o músculo liso não apresentaram variação quantitativa quando comparado ao grupo controle. No músculo liso (34,46% 2,06% vs 38,38% 3,17%) e tecido conjuntivo (35,39% 6,15% vs 38,02% 5,03%). A densidade volumétrica das fibras do sistema elástico na placa fibrótica foi diminuída em 38,3% comparada a túnica albugínea normal (20,25% 5,49% vs 32,81% 4,75%; p<0,02) e a concentração de colágeno no corpo cavernoso do grupo controle (77,94 24,26 μg/mg) e doença de Peyronie (66,57 19,39 μg/mg) não diferem significativamente. Os cortes corados com Vermelho de Picrosirius revelaram que no corpo cavernoso normal cores associadas ao colágeno encontravam-se homogeneamente distribuídas. Na doença de Peyronie o colágeno apresentava uma desorientação. A análise quantitativa indicou que o colágeno do corpo cavernoso adjacente à placa fibrótica não estava afetado, embora sua organização estivesse notoriamente alterada. As fibras do sistema elástico do corpo cavernoso estavam reduzidas e uma modificação similar foi encontrada na placa fibrótica da túnica albugínea. Estes resultados sugerem que, embora ocorram primariamente na túnica albugínea, a placa fibrótica da doença de Peyronie pode induzir mudanças no corpo cavernoso adjacente.

'Psyching-up' and muscular force production

Tod, D. A., Iredale, F., Gill, N. (2003). 'Psyching-up' and muscular force production. Sports Medicine, 33 (1), 47-58. RAE2008

Método DeLorme versus Electroestimulação no fortalecimento muscular do quadricípete

Monografia apresentada à Universidade Fernando Pessoa para obtenção do grau de Licenciada em Fisioterapia

Mutations in sodium-borate cotransporter SLC4A11 cause recessive congenital hereditary endothelial dystrophy (CHED2)

Congenital hereditary endothelial dystrophy ( CHED) is a heritable, bilateral corneal dystrophy characterized by corneal opacification and nystagmus. We describe seven different mutations in the SLC4A11 gene in ten families with autosomal recessive CHED. Mutations in SLC4A11, which encodes a membrane-bound sodium-borate cotransporter, cause loss of function of the protein either by blocking its membrane targeting or nonsense-mediated decay.

A novel GUCY2D mutation, V933A, causes central areolar choroidal dystrophy

Purpose: To identify the genetic cause of central areolar choroidal dystrophy (CACD) in a large Northern Irish family.
Methods: We previously reported linkage of the locus for CACD in this family to an interval of approximately 5 cM on chromosome 17p13 flanked by polymorphic markers D17S1810 and CHLC GATA7B03. We undertook sequence capture, massively-parallel sequencing and computational alignment, base-calling and annotation to identify a causative mutation. Conventional sequencing was used to confirm the results.
Results: Deep sequencing identified a single-base substitution in guanylate cyclase 2D, membrane (retina-specific) (GUCY2D). The novel mutation segregated with the disease phenotype and resulted in substitution of valine by alanine at position 933, within the catalytic domain of the protein. It altered a motif that is strongly conserved in a large number of distantly related proteins across several species, and was predicted to have a damaging effect on protein activity.
Conclusion: Mutations in GUCY2D have previously been associated with dominant cone rod dystrophies (CORD6) and recessive forms of Leber's congenital amaurosis (LCA). This is the first report of GUCY2D mutation causing CACD and adds to our understanding of genotype-phenotype correlation in this heterogeneous group of choroidoretinal dystrophies.

Fundus autofluorescence in stargardt macular dystrophy-fundus flavimaculatus

Purpose To quantify autofluorescence (AF) levels in patients with Stargardt macular dystrophy-fundus flavimaculatus (STGD-FFM), and to identify patterns of AF. Design Observational, comparative study. Methods Prospective study. Settings Patients were recruited at Moorfields Eye Hospital. Study population Forty-three STGD-FFM patients aged 20 to 40 years and 35 age-matched normal volunteers. The right eye was chosen arbitrarily for measures of AF. Intervention The AF images were obtained using a confocal scanning laser ophthalmoscope. Levels of AF across the macula were measured. The distribution of AF was also evaluated. In 36 patients (84%) pattern electroretinogram (PERG) and full-field ERG were obtained and results were evaluated with respect to levels of AF. Main outcome measures Values of AF, AF distribution, PERG, and ERG. Results Normal or high AF at the center of the macula with high AF temporally or nasally or both was detected in 17 patients (39%). In nine (21%), low AF at the center of the macula with normal or low AF temporally or nasally or both was found. Levels of AF were normal throughout the macula in six patients (14%). In 11 (26%), high, normal, and low levels of AF were found. All patients tested with low AF at the center of the macula and normal or low AF temporally or nasally or both had peripheral cone/rod dysfunction. None of the patients tested that had normal or high AF at the fovea and high AF temporally or nasally, or normal AF throughout the macula, had peripheral cone/rod dysfunction. Conclusion AF is not universally high in STGD-FFM. Some patients have normal or low AF. Autofluorescence patterns appear to relate to functional abnormalities. © 2004 by Elsevier Inc. All rights reserved.

Phenotypic subtypes of Stargardt macular:Dystrophy-fundus flavimaculatus

Objective: To determine if phenotypic subtypes exist in Stargardt macular dystrophy-fundus flavimaculatus (SMD-FFM). Methods: A cross-sectional study of 63 patients with autosomal recessive SMD-FFM was undertaken. The age of onset, duration of symptoms, visual acuity, and clinical features on fundus examination, color fundus photographs, and fundus autofluorescence images were recorded. Electrophysiological tests, including pattern, focal, and full-field electroretinogram (ERG), electro-oculogram, and color-contrast sensitivity measurement, were also performed. Results: Based on electrophysiological attributes (ERG), patients with SMD-FFM could be classified into 3 groups. In group 1, there was severe pattern ERG abnormality with normal scotopic and full-field ERGs. In group 2, there was additional loss of photopic function, and in group 3, there was loss of both photopic and scotopic function. Differences in scotopic or photopic function among groups were not explained on the basis of differences in age of onset or duration of disease. Conclusions: Patients with SMD-FFM can be classified into 3 groups based on the absence or presence of generalized loss of either photopic or photopic and scotopic function. It appears that these 3 groups may represent distinct phenotypic subtypes in SMD-FFM.

Intrafamilial variation of phenotype in Stargardt macular dystrophy- fundus flavimaculatus

Purpose. To evaluate the intrafamilial phenotypic variation in Stargardt macular dystrophy-Fundus flavimaculatus (SMD-FFM). Methods. Thirty-one siblings from 15 families with SMD-FFM were examined. Age of onset, visual acuity, and clinical features on fundus examination and fundus autofluorescence images, including presence or absence of central and peripheral atrophy and distribution of flecks, were recorded. In addition, electrophysiological studies were undertaken. Results. Large differences between siblings in age of onset (median, 12 years; range, 5-23 years) were observed in six of the 15 families studied, whereas in 9 families differences in age of onset between siblings were small (median, 1 year; range, 0-3 years). Visual acuity varied two or more lines among siblings in nine families. In 10 families (67%) siblings were found to have different clinical appearance on fundus examination and fundus autofluorescence images, whereas in 5 families (33%), affected siblings had similar clinical features. Electrodiagnostic tests were performed on affected members of 12 families and disclosed similar qualitative findings among siblings. In nine families there was loss of central function only; in two, global loss of cone function; and in one, global loss of cone and rod function. Conclusions. In this series, although differences in age of onset, visual acuity, and fundus appearance were observed between siblings, electrophysiological studies demonstrated intrafamilial homogeneity in retinal function. The findings are difficult to reconcile with expression studies showing ABCR transcripts in rod photoreceptors but not in cones.