Conceptual Design and Structural Optimization of NASA Environmentally Responsible Aviation (ERA) Hybrid Wing Body Aircraft

Simultaneously achieving the fuel consumption and noise reduction goals set forth by NASA's Environmentally Responsible Aviation (ERA) project requires innovative and unconventional aircraft concepts. In response, advanced hybrid wing body (HWB) aircraft concepts have been proposed and analyzed as a means of meeting these objectives. For the current study, several HWB concepts were analyzed using the Hybrid wing body Conceptual Design and structural optimization (HCDstruct) analysis code. HCDstruct is a medium-fidelity finite element based conceptual design and structural optimization tool developed to fill the critical analysis gap existing between lower order structural sizing approaches and detailed, often finite element based sizing methods for HWB aircraft concepts. Whereas prior versions of the tool used a half-model approach in building the representative finite element model, a full wing-tip-to-wing-tip modeling capability was recently added to HCDstruct, which alleviated the symmetry constraints at the model centerline in place of a free-flying model and allowed for more realistic center body, aft body, and wing loading and trim response. The latest version of HCDstruct was applied to two ERA reference cases, including the Boeing Open Rotor Engine Integration On an HWB (OREIO) concept and the Boeing ERA-0009H1 concept, and results agreed favorably with detailed Boeing design data and related Flight Optimization System (FLOPS) analyses. Following these benchmark cases, HCDstruct was used to size NASA's ERA HWB concepts and to perform a related scaling study

Caracterização físico-química de nanopartículas de dióxido de titânio para produção de nanocompósitos.

A percepção de que animais também sentem medo dor e angústia leva a necessidade de desenvolvimento de inúmeros métodos alternativos ao uso de animais em experimentação. Assim, métodos in vitro são uma alternativa para contornar este problema. Baseado em sua biocompatibilidade e sua baixa toxicidade, as nanopartículas de dióxido de titânio (TiO2NPs) apresentam grande potencial para serem utilizadas na produção de desenvolvimento de matrizes 3D para a bioengenharia de tecidos. Dentro deste contexto, o presente trabalho tem por objetivo caracterizar fisicoquimicamente TiO2NPs para em um futuro utilizá-las para produção de nanocompósitos. Para tanto, TiO2NPs (NM01001a, European Union reference material) foram caracterizadas por técnicas espectroscópica (Raman e Infravermelho), bem como por microscopia de força atômica e espalhamento dinâmico de luz. As TiO2NPs apresentaram geometrias e tamanhos heterogêneos, contudo apresentando pelo menos um dos eixos cardinais com tamanho inferior a 100nm, elevado Índice de Dispersão (0,526 ± 0,05) e baixa estabilidade coloidal (potencial Zeta de -3,50 ± 0.40 mV). Por sua vez, o material apresentou indicativo de elevado grau de preza, com bandas características de ligações de Ti-O e grupos OH na superfície da partícula, respectivamente em 542 e 686 cm− 1 3427 cm− 1 na espectroscopia e infravermelho e 639, 517 e 395 cm− 1 espectroscopia Raman. Baseado nos resultados encontrados, pode-se concluir que as TiO2NPs apresentam elevado grau de pureza e caráter nanométrico com formato heterogêneo. Baseado em dados de literatura que relatam toxicidade em função da forma de nanopartículas, recomenda-se a realização recomenda-se a realização de mais estudos de toxicidade antes de seu uso em nanocompositos destinados a bioengenharia

Effects of dog ownership in early childhood on immune development and atopic diseases

Summary Background Exposure to pets in childhood has been associated with a reduced risk of wheezing and atopy. Objective Our objective was to determine whether the effects of pet exposure on immune development and atopy in early childhood can be explained by alterations in exposure to innate immune stimuli in settled dust. Methods Two hundred and seventy-five children at increased risk of developing allergic diseases were evaluated to age 3 years for pet ownership, blood cell cytokine responses, and atopy. Can f 1, Fel d 1, endotoxin, ergosterol, and muramic acid were measured in settled dust from 101 homes. Results Dog exposure at birth was associated with decreased atopic dermatitis (AD) (12% vs. 27%; P = 0.004) and wheezing (19% vs. 36%; P = 0.005) in year 3. The rates of AD (23%) and wheezing (42%) in year 3 were relatively high in children who acquired dogs after birth. The prevalence of dog sensitization (10-12%) did not vary according to dog exposure. Can f 1 levels in bedroom dust were positively associated with IL-10 (r = 0.26; P = 0.01), IL-5 (r = 0.34, P o 0.001), and IL-13 (r = 0.28; P = 0.004) responses at age 1, and IL-5 (r = 0.24; P = 0.022) and IL-13 (r = 0.25; P = 0.015) responses at age 3. In contrast, endotoxin was associated with IFN-g (r = 0.31; P = 0.002) and IL-13 (r = 0.27; P = 0.01) responses at age 3 but not at age 1, and similar relationships were present for muramic acid. Adjustment for levels of innate immune stimuli in house dust did not significantly affect the relationships between Can f 1 and cytokine responses. Conclusions Exposure to dogs in infancy, and especially around the time of birth, is associated with changes in immune development and reductions in wheezing and atopy. These findings are not explained by exposure to endotoxin, ergosterol, or muramic acid

A distributed geospatial approach to describe community characteristics for multisite studies

Understanding place-based contributors to health requires geographically and culturally diverse study populations, but sharing location data is a significant challenge to multisite studies. Here, we describe a standardized and reproducible method to perform geospatial analyses for multisite studies. Using census tract-level information, we created software for geocoding and geospatial data linkage that was distributed to a consortium of birth cohorts located throughout the USA. Individual sites performed geospatial linkages and returned tract-level information for 8810 children to a central site for analyses. Our generalizable approach demonstrates the feasibility of geospatial analyses across study sites to promote collaborative translational research

Attachment site selection of ticks on roe deer, Capreolus capreolus

The spatio-temporal attachment site patterns of ticks feeding on their hosts can be of significance if co-feeding transmission (i.e. from tick to tick without a systemic infection of the host) of pathogens affects the persistence of a given disease. Using tick infestation data on roe deer, we analysed preferred attachment sites and niche width of Ixodes ticks (larvae, nymphs, males, females) and investigated the degree of inter- and intrastadial aggregation. The different development stages showed rather consistent attachment site patterns and relative narrow feeding site niches. Larvae were mostly found on the head and on the front legs of roe deer, nymphs reached highest densities on the head and highest adult densities were found on the neck of roe deer. The tick stages feeding (larvae, nymphs, females) on roe deer showed high degrees of intrastadial spatial aggregation, whereas males did not. Male ticks showed large feeding site overlap with female ticks. Feeding site overlap between larval-female and larval-nymphal ticks did occur especially during the months May–August on the head and front legs of roe deer and might allow pathogen transmission via co-feeding. Tick density, niche width and niche overlap on roe deer are mainly affected by seasonality, reflecting seasonal activity and abundance patterns of ticks. Since different tick development stages occur spatially and temporally clustered on roe deer, transmission experiments of tick-borne pathogens are urgently needed