Avaliação do comportamento mecânico de blindagens balísticas

Desde os primórdios da história, o ser humano tem procurado criar e aperfeiçoar mecanismos que o protejam das agressões do inimigo. Neste sentido, o desenvolvimento técnico e científico em torno das blindagens tem procurado contrariar o constante aperfeiçoamento dos projécteis e do seu poder de penetração. De facto, as blindagens são muitas vezes desenvolvidas para fins específicos de forma a aumentar o seu desempenho na protecção de pessoas e equipamentos. Para cumprir este objectivo, é muitas vezes necessário recorrer a soluções inovadoras, tanto em termos dos materiais e da respectiva qualidade/quantidade utilizada no fabrico, como ao nível do formato da própria blindagem. A avaliação do desempenho das blindagens é extremamente importante para garantir a segurança do utilizador nas mais diversas actividades, tanto militares, como civis. No entanto, esta informação é considerada muitas vezes sigilosa pelo risco que representa para a sociedade militar e civil, e/ou por fortes interesses económicos por parte das empresas que comercializam estes equipamentos de protecção. Quando realizada, esta avaliação restringe-se geralmente a aspectos meramente qualitativos, tais como a verificação do dano produzido pelo projéctil. No entanto, não é usual avaliar o valor da energia remanescente de impacto que, não sendo absorvida pela blindagem, é transmitida ao utilizador ou equipamento. Por outras palavras, será a não penetrabilidade da blindagem uma condição suficiente para garantir a segurança? A presente investigação incidiu no desenvolvimento de uma metodologia experimental inovadora que permita quantificar a energia remanescente de impacto, transmitida através da blindagem ao utilizador, a quando da interacção com o projéctil. Para permitir realizar os ensaios balísticos em condições laboratoriais controladas foi desenvolvido um sistema de impulsão electromagnética que possibilita a ausência de ruído, de fumos ou clarões, consentindo o disparo de diferentes tipos de projécteis com ajuste contínuo da energia de impacto. Para testar a metodologia desenvolvida foram utilizadas blindagens representativas das actividades do Exército Português. De facto, o contributo do presente trabalho permite preencher uma lacuna na avaliação de blindagens, apresentando-se como uma mais-valia, na medida que poderá ser utilizado futuramente pelo Exército Português para uma avaliação independente de blindagens.

effects of weight and injected dose in the liver’s Signal-to-Noise Ratio in patients submitted to PET/CT scans

The quality of the image of 18F-FDG PET/CT scans in overweight patients is commonly degraded. This study evaluates, retrospectively, the relation between SNR, weight and dose injected in 65 patients, with a range of weights from 35 to 120 kg, with scans performed using the Biograph mCT using a standardized protocol in the Nuclear Medicine Department at Radboud University Medical Centre in Nijmegen, The Netherlands. Five ROI’s were made in the liver, assumed to be an organ of homogenous metabolism, at the same location, in five consecutive slices of the PET/CT scans to obtain the mean uptake (signal) values and its standard deviation (noise). The ratio of both gave us the Signal-to- Noise Ratio in the liver. With the help of a spreadsheet, weight, height, SNR and Body Mass Index were calculated and graphs were designed in order to obtain the relation between these factors. The graphs showed that SNR decreases as the body weight and/or BMI increased and also showed that, even though the dose injected increased, the SNR also decreased. This is due to the fact that heavier patients receive higher dose and, as reported, heavier patients have less SNR. These findings suggest that the quality of the images, measured by SNR, that were acquired in heavier patients are worst than thinner patients, even though higher FDG doses are given. With all this taken in consideration, it was necessary to make a new formula to calculate a new dose to give to patients and having a good and constant SNR in every patient. Through mathematic calculations, it was possible to reach to two new equations (power and exponential), which would lead to a SNR from a scan made with a specific reference weight (86 kg was the considered one) which was independent of body mass. The study implies that with these new formulas, patients heavier than the reference weight will receive higher doses and lighter patients will receive less doses. With the median being 86 kg, the new dose and new SNR was calculated and concluded that the quality of the image remains almost constant as the weight increases and the quantity of the necessary FDG remains almost the same, without increasing the costs for the total amount of FDG used in all these patients.

Voice acoustic profi le of males exposed to occupational infrasound and low-frequency noise

Background: Vibroacoustic disease (VAD) is a systematic pathology characterized by the abnormal growth of extra-cellular matrices in the absence of infl ammatory processes, namely collagen and elastin, both of which are abundant in the basement membrane zone of the vocal folds. VAD can develop due to long-term exposure to infrasound and low-frequency noise (ILFN, <500 Hz). Mendes et al. (2006, 2008 and 2012) revealed that ILFN-exposed males and females presented an increased fundamental frequency (F0), decreased jitter %, and reduced maximum phonation frequency range, when compared with normative data. Temporal measures of maximum phonation time and S/Z ratio were generally reduced. Study Aims: Herein, the same voice acoustic parameters of 48 males, 36 airline pilots and 12 cabin crewmembers (age range 25-60 years) were studied, and the effects and interaction of age and years of ILFN exposure were investigated within those parameters. ILFN-exposure time (i.e. years of professional activity) ranged from 3.5 to 36 years. Materials and Methods: Spoken and sung phonatory tasks were recorded with a DA-P1 Tascam DAT and a C420III PP AKG head-worn microphone, positioned at 3 cm from the mouth. Acoustic analyses were performed using KayPENTAX Computer Speech Lab and Multi-Dimensional Voice Program. Results: Results revealed that even though pilots and cabin crewmembers were exposed to occupational environments with distinct (ILFN-rich) acoustical frequency distributions and sound pressure levels, differences in the vocal acoustic parameters were not evident. Analyzing data from both professional groups (N = 48) revealed that F0 increased signifi cantly with the number of years of professional activity. Conclusion: These results strongly suggest that the number of years of professional activity (i.e. total ILFN exposure time) had a signifi cant effect on F0. Furthermore, they may refl ect the histological changes specifi cally observed on the vocal folds of ILFN-exposed professionals.