143 research outputs found

    A self-matched leaky-wave antenna for ultrahigh-field magnetic resonance imaging with low specific absorption rate

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    The technology of magnetic resonance imaging is developing towards higher magnetic fields to improve resolution and contrast. However, whole-body imaging at 7 T or even higher flux densities remains challenging due to wave interference, tissue inhomogeneities, and high RF power deposition. Nowadays, proper RF excitation of a human body in prostate and cardiac MRI is only possible to achieve by using phased arrays of antennas attached to the body (so-called surface coils). Due to safety concerns, the design of such coils aims at minimization of the local specific absorption rate (SAR), keeping the highest possible RF signal in the region of interest. Most previously demonstrated approaches were based on resonant structures such as e.g. dipoles, capacitively-loaded loops, TEM-line sections. In this study, we show that there is a better compromise between the transmit signal B1+ and the local SAR using non-resonant surface coils generating a low electric field in the proximity of their conductors. With this aim, we propose and experimentally demonstrate a leaky-wave antenna implemented as a periodically-slotted microstrip transmission line. Due to its non-resonant radiation, it induces only slightly over half the peak local SAR compared to a state-of-the-art dipole antenna but has the same transmit efficiency in prostate imaging at 7 T. Unlike other antennas for MRI, the leaky-wave antenna does not require to be tuned and matched when placed on a body, which makes it easy-to-use in prostate imaging at 7 T MRI

    Scanning of irradiated silicon detectors using α\alpha particles and low energy protons

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    In a spectroscopic study of non-irradiated and proton-irradiated silicon diodes, the detectors were illuminated from the front side and from the rear side by various alpha particle sources (mainly ThC') and by monoenergetic protons with energies from 1.0 to 2.5~MeV. Their response characteristics have been studied as a function of the incoming particle energy and the applied bias voltage. The charge collection efficiency was determined as a function of fluenc

    Características das papilas o dorso da língua de cabras (Capra hircus): estudo por de microscopia eletrônica de varredura e luz

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    A morfologia das papilas linguais da cabra doméstica (Capra hircus) foi estudada por Microscopia Eletrônica de Varredura (MEV) e Microscopia de luz. Papilasfiiliformes, cônicas e lentiformes possuem função mecânica, enquanto que as papilas fungiformes e as valadas possuem função gustativa. As papilasfiiliformes estavam distribuídas por toda a extensão da língua, nas superfícies dorsal e lateral. Possuem um formato cônico com a extremidade pontiaguda direcionada caudalmente. Possuem vários processos secundários, de tamanhos diferentes, com a mesma orientação. A histologia revelou abundante tecido queratinizado. As papilas fungiformes foram observadas nas superfícies dorsal e lateral do ápice e do corpo da língua. Possuem formato semelhante a cogumelos, com epitélio corni[1]icado espesso e botões gustativos distribuídos na superfície. As papilas lentiformes se distribuíam na linha mediana da parte mais dorsal do toro, com projeções elevadas além da superfície da língua. Algumas apresentavam o formato de pirâmide e outras um formato mais achatado. As papilas valadas foram encontradas na superfície lateral da parte mais caudal do toro. Possuem formato arredondado, envolvido por um sulco pouco profundo. Possuem botões gustativos na parede lateral que se abrem no sulco. As papilas cônicas foram observadas no toro da língua e possuem formato alongado, com base larga e ponta romba. Embora as principais características morfológicas e estruturais do epitélio lingual sejam específicas da espécie, o tipo de alimentação e os hábitos alimentares podem influenciar na sua estrutura. Assim, o presente trabalho fornece uma descrição histológica e ultraestrutural da língua de cabras domésticas submetidas à alimentação baseada em gramíneas e ração

    Neonatal Handling Affects Durably Bonding and Social Development

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    The neonatal period in humans and in most mammals is characterized by intense mother-young interactions favoring pair bonding and the adaptation of neonates to their new environment. However, in many post-delivery procedures, human babies commonly experience combined maternal separation and intense handling for about one hour post-birth. Currently, the effects of such disturbances on later attachment and on the development of newborns are still debated: clearly, further investigations are required. As animals present good models for controlled experimentation, we chose domestic horses to investigate this issue. Horses, like humans, are characterized by single births, long lactating periods and selective mother-infant bonds. Routine postnatal procedures for foals, as for human babies, also involve intense handling and maternal separation. In the present study, we monitored the behavior of foals from early stages of development to “adolescence”, in a normal ecological context (social groups with adults and peers). Experimental foals, separated from their mothers and handled for only 1 hour post-birth, were compared to control foals, left undisturbed after birth. Our results revealed short- and long-term effects of this unique neonatal experience on attachment and subsequent social competences. Thus, experimental foals presented patterns of insecure attachment to their mothers (strong dependence on their mothers, little play) and impaired social competences (social withdrawal, aggressiveness) at all ages. We discuss these results in terms of mother-young interactions, timing of interactions and relationships between bonding and subsequent social competences. Our results indicate that this ungulate species could become an interesting animal model. To our knowledge, this is the first clear demonstration that intervention just after birth affects bonding and subsequent social competences (at least until “adolescence”). It opens new research directions for studies on both humans and other animals

    Connective tissue growth factor in tumor pathogenesis

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    Key roles for connective tissue growth factor (CTGF/CCN2) are demonstrated in the wound repair process where it promotes myofibroblast differentiation and angiogenesis. Similar mechanisms are active in tumor-reactive stroma where CTGF is expressed. Other potential roles include prevention of hypoxia-induced apoptosis and promoting epithelial-mesenchymal transistion (EMT). CTGF expression in tumors has been associated to both tumor suppression and progression. For example, CTGF expression in acute lymphoblastic leukemia, breast, pancreas and gastric cancer correlates to worse prognosis whereas the opposite is true for colorectal, lung and ovarian cancer. This discrepancy is not yet understood
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