Forensic reconstruction of two military combat related shooting incidents using an anatomically correct synthetic skull with a surrogate skin/soft tissue layer.

Six synthetic head models wearing ballistic protective helmets were used to recreate two military combat-related shooting incidents (three per incident, designated 'Incident 1' and 'Incident 2'). Data on the events including engagement distances, weapon and ammunition types was collated by the Defence Science and Technology Laboratory. The models were shot with 7.62 × 39 mm ammunition downloaded to mean impact velocities of 581 m/s (SD 3.5 m/s) and 418 m/s (SD 8 m/s), respectively, to simulate the engagement distances. The damage to the models was assessed using CT imaging and dissection by a forensic pathologist experienced in reviewing military gunshot wounds. The helmets were examined by an MoD engineer experienced in ballistic incident analysis. Damage to the helmets was consistent with that seen in real incidents. Fracture patterns and CT imaging on two of the models for Incident 1 (a frontal impact) were congruent with the actual incident being modelled. The results for Incident 2 (a temporoparietal impact) produced realistic simulations of tangential gunshot injury but were less representative of the scenario being modelled. Other aspects of the wounds produced also exhibited differences. Further work is ongoing to develop the models for greater ballistic injury fidelity.

From Northern Ireland to Afghanistan: half a century of blast injuries.

INTRODUCTION: Throughout the last half century, blast injuries have been a common occurrence to UK military personnel during combat operations. This study investigates casualty data from three different military operations to determine whether survivability from blast injuries has improved over time and whether the tactics used could have influenced the injuries sustained. METHODS: Casualty data from operations in Northern Ireland, Iraq and Afghanistan were reviewed and found to contain a total of 2629 casualties injured by improvised explosive devices. The injury severities were examined and the suitability of comparison between conflicts was considered. RESULTS: The case fatality rate and mean severity score sustained remained consistent among the operations included in this study. Using the New Injury Severity Score, the probabilities of survival were calculated for each separate operation. The body regions injured were identified for both fatalities and survivors. Using this information, comparisons of injury severities sustained at an Abbreviated Injury Scale of 3 and above (identified as a threshold for fatal injury) were conducted between the different operations. CONCLUSIONS: The data showed that as operations changed over time, survivability improved and the proportions of body regions injured also changed; however, this study also highlights how studying casualty data from different conflicts without taking account for the contextual differences may lead to misleading conclusions.

Identifying stabilizers of plasmid DNA for pharmaceutical use.

To better address the need for developing stable formulations of plasmid DNA-based biopharmaceuticals, 37 compounds from a generally regarded as safe library were examined for their potential use as stabilizers. A plasmid DNA-based therapeutic vaccine, BHT-DNA, was used as a model system. Initial studies were performed to compare the biophysical properties of BHT-DNA plasmid from bulk drug substance and finished drug product. An agarose gel electrophoresis-based assay was then employed in excipient compatibility studies for the drug product by monitoring supercoiled plasmid DNA content in various formulations. After incubation at 40 °C for 30 days, eight out of the 37 excipients tested were able to better retain the supercoil content compared to the control. Sodium citrate appeared to be the most effective stabilizer and its protective capability plateaued at an ionic strength of about 0.4. Several other excipients including malic acid, ethanol, and Pluronic F-68 were also identified as promising stabilizers for BHT-DNA plasmid DNA. Additionally, compounds, including ferrous chloride, ascorbic acid, human serum albumin, and PEG 1000, which significantly destabilized the supercoiled plasmid DNA were identified. These data may also be applicable to other plasmid DNA-based pharmaceuticals for storage stability improvement, due to chemical and structural similarities of these macromolecules.

Melanin in the extracellular matrix of germlings of Botrytis cinerea.

Previous work on the composition of the extracellular matrix of germlings of the plant pathogenic fungus Botrytis cinerea demonstrated the presence of carbohydrate, protein, and simple lipids; which, together, comprised 50-60% of the dry weight. Here we show that most of the remaining mass of the extracellular matrix consists of a chemically inert dark pigment with the electron paramagnetic resonance characteristics of a melanin. Scanning electron micrographs of the purified pigment, and transmission electron micrographs of thin sections made using the pigment indicate that it has a filamentous structure. We conclude that melanin is an important component of the extracellular matrix of germlings of B. cinerea. This is the first report of a melanin present in the extracellular matrix of a plant pathogenic fungus.