Institution
Defence Science and Technology Laboratory
Government•Salisbury, United Kingdom•
About: Defence Science and Technology Laboratory is a government organization based out in Salisbury, United Kingdom. It is known for research contribution in the topics: Burkholderia pseudomallei & Francisella tularensis. The organization has 926 authors who have published 1242 publications receiving 30091 citations. The organization is also known as: Dstl & [dstl].
Papers published on a yearly basis
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TL;DR: This work investigates a TIR domain protein from the highly virulent bacterium Yersinia pestis, the causative agent of plague, which when overexpressed in vitro is able to downregulate IL-1β- and LPS-dependent signalling to NFκB and to interact with the TIR adaptor protein MyD88.
Abstract: The Toll/interleukin (IL)-1 receptor (TIR) domain is an essential component of eukaryotic innate immune signalling pathways. Interaction between TIR domains present in Toll-like receptors and associated adaptors initiates and propagates an immune signalling cascade. Proteins containing TIR domains have also been discovered in bacteria. Studies have subsequently shown that these proteins are able to modulate mammalian immune signalling pathways dependent on TIR interactions and that this may represent an evasion strategy for bacterial pathogens. Here, we investigate a TIR domain protein from the highly virulent bacterium Yersinia pestis, the causative agent of plague. When overexpressed in vitro this protein is able to downregulate IL-1β- and LPS-dependent signalling to NFκB and to interact with the TIR adaptor protein MyD88. This interaction is dependent on a single proline residue. However, a Y. pestis knockout mutant lacking the TIR domain protein was not attenuated in virulence in a mouse model of bubonic plague. Minor alterations in the host cytokine response to the mutant were indicated, suggesting a potential subtle role in pathogenesis. The Y. pestis mutant also showed increased auto-aggregation and reduced survival in high-salinity conditions, phenotypes which may contribute to pathogenesis or survival.
22 citations
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TL;DR: Doxycycline was more effective against the 12 μm particle inhalational infection as evidenced by increased time to death, however, both treatment regimes exhibited significant relapse when therapy was discontinued with massive enlargement and abscessation of the lungs, spleen, and cervical lymph nodes observed.
Abstract: Deposition of Burkholderia pseudomallei within either the lungs or nasal passages of the Balb/c murine model resulted in different infection kinetics. The infection resulting from the inhalation of B. pseudomallei within a 12 um particle aerosol was prolonged compared to a 1 um particle aerosol with a mean time-to-death (MTD) of 73.8 ± 11.3 h and 174.7 ± 14.9 h respectively. Inhalation of B. pseudomallei within 1 um or 12 um particle aerosols resulted in a median lethal dose (MLD) of 4 and 12 cfu respectively. The 12 mm particle inhalational infection was characterised by involvement of the respiratory epithelium and inflammation of the neurological path leading from the olfactory epithelium to the olfactory bulb (100%), culminating in abscessation of the brain (33%). Initial involvement of the upper respiratory tract lymphoid tissues (nasal-associated lymphoid tissue and cervical lymph nodes) was observed in both the 1 and 12 um particle inhalational infections (80-85%). Necrotising alveolitis and bronchiolitis were evident in both inhalational infections however lung pathology was greater after inhalation of the 1 mm particle aerosol with pronounced involvement of the mediastinal lymph node (50%). Terminal disease was characterised by bacteraemia in both inhalational infections with dissemination to the spleen, liver, kidneys and thymus. Treatment with co-trimoxazole was more effective than treatment with doxycycline irrespective of the size of the particles inhaled. Doxycycline was more effective against the 12 um particle inhalational infection as evidenced by increased time to death. However, both treatment regimes exhibited significant relapse when therapy was discontinued with massive enlargement and abscessation of the lungs, spleen and cervical lymph nodes observed.
22 citations
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25 Jun 2007TL;DR: In this paper, the authors focused on the importance of grid fineness, turbulence model and laminar to turbulent flow transition transition for accurate computation of the flow and showed that transition onset modeling must be included in the flow prediction methods if reliable results are to be obtained for any but the most benign of flows over the configuration.
Abstract: The AFRL 1303 unmanned combat air vehicle concept is geometrically simple and yet, at moderate conditions, exhibits complex flows that present a challenge for computational fluid dynamics. The military requirement for computing with consistent accuracy the low-speed flow o ver flying-wing config urations with moderate sweep, and the large volume of validation data from extensive wind-tunnel testing of the 1303 configuration make it an extremely useful test case. The work reported in this paper was aimed at identifying the source of, and overcoming, some of the shortcomings highlighted by previous computational studies. The investigation reported here concentrated on the importance of grid fineness, turbulence model and laminar to turbulent flow transition for accurate computation of the flow. Two flow prediction codes, two computational grids of significantly different total numbers of cells and four turbulence models have been employed. Crucially, transition onset prediction has been incorporated with one of the flow prediction codes to enable the calculation of flows with natural transition. Calculation of the transition onset location is through linear stability analysis and an e N criterion. Calculations have been performed for six test cases and the results compared with data obtained in the wind-tunnel tests. A range of results is presented and discussed to illustrate the main findings of the work. The single most important outcome of the study is that transition onset modeling must be included in the flow prediction methods if reliable results are to be obtained for any but the most benign of flows over the configuration. At the same time, it is recognised that some problems remain unresolved.
22 citations
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TL;DR: An algorithm based on a short-term representation of the fractional Fourier transform which is highly suited to signals that contain multiple non-stationary components, including a synthetic signal and a bat echolocation signal is presented.
22 citations
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TL;DR: Surface landmarks utilised in this study were proven to be reliable surrogate markers for the boundaries of the underlying anatomical structures potentially requiring essential protection by a plate, and it is recommended that torso height is used instead of stature for sizing body armour.
Abstract: INTRODUCTION: Military body armour is designed to prevent the penetration of ballistic projectiles into the most vulnerable structures within the thorax and abdomen. Currently the OSPREY and VIRTUS body armour systems issued to United Kingdom (UK) Armed Forces personnel are provided with a single size front and rear ceramic plate regardless of the individual's body dimensions. Currently limited information exists to determine whether these plates overprotect some members of the military population, and no method exists to accurately size plates to an individual. METHOD: Computed Tomography (CT) scans of 120 male Caucasian UK Armed Forces personnel were analysed to measure the dimensions of internal thoraco-abdominal anatomical structures that had been defined as requiring essential medical coverage. The boundaries of these structures were related to three potential anthropometric landmarks on the skin surface and statistical analysis was undertaken to validate the results. RESULTS: The range of heights of each individual used in this study was comparable to previous anthropometric surveys, confirming that a representative sample had been used. The vertical dimension of essential medical coverage demonstrated good correlation to torso height (suprasternal notch to iliac crest) but not to stature (r(2)=0.53 versus 0.04). Horizontal coverage did not correlate to either measure of height. Surface landmarks utilised in this study were proven to be reliable surrogate markers for the boundaries of the underlying anatomical structures potentially requiring essential protection by a plate. CONCLUSIONS: Providing a range of plate sizes, particularly multiple heights, should optimise the medical coverage and thus effectiveness of body armour for UK Armed Forces personnel. The results of this work provide evidence that a single width of plate if chosen correctly will provide the essential medical coverage for the entire military population, whilst recognising that it still could overprotect the smallest individuals. With regards to anthropometric measurements; it is recommended, based on this work, that torso height is used instead of stature for sizing body armour. Coverage assessments should now be undertaken for side protection as well as for other non-Caucasian populations and females, with anthropometric surveys utilising the three landmarks recommended in this study.Crown Copyright © 2016. Published by Elsevier Ltd. All rights reserved. Language: en
22 citations
Authors
Showing all 928 results
Name | H-index | Papers | Citations |
---|---|---|---|
Richard W. Titball | 79 | 410 | 22484 |
Andrew D. Griffiths | 72 | 152 | 37590 |
Alan D.T. Barrett | 71 | 341 | 17136 |
Jim Haywood | 67 | 213 | 20503 |
Philip N. Bartlett | 58 | 293 | 12798 |
Alan C. Newell | 58 | 209 | 17820 |
David A. Rand | 57 | 223 | 12157 |
Michael P. O'Donnell | 49 | 301 | 8762 |
James Hill | 47 | 216 | 6837 |
Franz Worek | 46 | 262 | 8754 |
Petra C. F. Oyston | 45 | 127 | 7155 |
K. Ravi Acharya | 45 | 161 | 7405 |
Horst Thiermann | 43 | 298 | 7091 |
Leigh T. Canham | 42 | 160 | 18268 |
Mark J. Midwinter | 39 | 180 | 5330 |