Análise da Capacidade Reactiva da Circulação Intracerebral pelo Efeito do CO2. Um Método de Fácil Execução

A manutenção de uma adequada pressão de perfusão cerebral é essencial para a prevenção de isquémia cerebral. Flutuações fisiológicas da pressão arterial a montante são compensadas localmente pela autoregulação cerebral. A reserva vascular cerebral necessária à eficácia desta autoregulação pode ser determinada medindo as modificações no fluxo sanguíneo cerebral em resposta a estímulos vasodilatadores. O Doppler Transcraneano tem sido usado para a determinação da velocidade do fluxo sanguíneo cerebral modificada por esses estímulos. Descrevemos um método de análise da capacidade de reserva da circulação cerebral pelo Doppler Transcraneano sob efeito do CO2. Este método pode ser útil para a caracterização das alterações hemodinâmicas que ocorrem em vários tipos de doença isquémica cerebral.

Undetectable Levels of CSF Amyloid-β Peptide in a Patient with 17β-Hydroxysteroid Dehydrogenase Deficiency

17β-hydroxysteroid dehydrogenase 10 (HSD10) deficiency is a rare X-linked inborn error of isoleucine catabolism. Although this protein has been genetically implicated in Alzheimer's disease pathogenesis, studies of amyloid-β peptide (Aβ) in patients with HSD10 deficiency have not been previously reported. We found, in a severely affected child with HSD10 deficiency, undetectable levels of Aβ in the cerebrospinal fluid, together with low expression of brain-derived neurotrophic factor, α-synuclein, and serotonin metabolites. Confirmation of these findings in other patients would help elucidating mechanisms of synaptic dysfunction in this disease, and highlight the role of Aβ in both early and late periods of life.

Numerical Evaluation of Ventilation Performance in Children Day Care Centres

Modelling of ventilation is strongly dependent on the physical characteristics of the building of which precise evaluation is a complex and time consuming task. In the frame of a research project, two children day care centres (CDCC) have been selected in order to measure the envelope air permeability, the flow rate of mechanical ventilation systems and indoor and outdoor temperature. The data obtained was used as input to the computer code CONTAM for ventilation simulations. The results obtained were compared with direct measurements of ventilation flow from short term measurements with CO2 tracer gas and medium term measurements with perfluorocarbon tracer (PFT) gas decay method. After validation, in order to analyse the main parameters that affect ventilation, the model was used to predict the ventilation rates for a wide range of conditions. The purpose of this assessment was to find the best practices to improve natural ventilation. A simple analytical method to predict the ventilation flow rate of rooms is also presented. The method is based on the estimation of wind effect on the room through the evaluation of an average factor and on the assessment of relevant cross section of gaps and openings combined in series or in parallel. It is shown that it may be applied with acceptable accuracy for this type of buildings when ventilation is due essentially to wind action.