Objective To reconstruct real life head injury accidents resulting from falls using multibody modelling software, with the aim of comparing simulation output to injuries sustained. Background Much previous research on head injury biomechanics has focussed on animals and cadavers. However, focus is increasingly turning towards the examination of real life head injury. Falls are a major cause of head injury and, in general, are simpler to model than other accident types. Design and Methods Five cases of simple falling accidents resulting in focal head injury were examined, and reconstructions were performed using a multibody model of the human body. Each case was reconstructed a number of times, varying the initial conditions and using two different sets of properties for head contact. Results Results obtained included velocities, accelerations and forces on the head during impact. This output appeared more sensitive to changes in head contact characteristics than to changes in initial conditions. Depending on the contact characteristics used, results were consistent with proposed tolerance limits from the literature for various lesion types. Conclusions Provided it is used with caution, this method could prove a useful source of biomechanical data for the investigation of head injury biomechanics. Relevance Biomechanical investigation of real-life cases of head injury is very important, yet not as prevalent as work with animals and cadavers. Reconstruction of real life accidents is a good method of obtaining data that will aid in the investigation of mechanisms of head injury and human tolerance to head injury.
The aims of the present study were to investigate food consumption, growth and the dynamics of feeding hierarchies in the same groups of juvenile greenback flounder (Rhombosolea tapirina: Teleostei) fed either high or low rations. Differential food consumption by individual greenback flounder held in groups of 20 showed the presence of feeding hierarchies in which individuals consumed between 0 and 22% of the available food. Inter-individual differences in food consumption resulted in different growth rates leading to growth depensation (measured as an increase in the coefficient of variation for weight). Intra-individual differences in food consumption tended to be larger for flounder which consumed a lower share of the available food. When the group ration was reduced the inter-individual and intra-individual variations in food consumption increased. Consequently, the relationship between inter-individual and intra-individual variation in food consumption tended to become stronger at lower food availability and indicated an increase in the strength of the feeding hierarchies. This study suggests that individual differences in food consumption, mediated through exploitation competition, contribute to growth depensation in this species of flatfish.
Freshwater Atlantic salmon Salmo salar and rainbow trout Oncorhynchus mykiss responded similarly to increase in water flow (exercise), reduction in holding tank water level (stress), or 30 min chasing with water level reduction (stress and exercise). Stress generally resulted in elevated plasma cortisol, above the control. Fish responded to stress and exercise combined, with elevated lactate and [H + ] which was sometimes associated with elevated plasma cortisol. These changes were combined with a depletion of the muscle adenylate pool. Post-mortem, this resulted in an increase in the rate of onset of rigor, and a higher and sometimes sustained muscle proton load. Both species produced predominantly inosine as opposed to hypoxanthine, for up to 72 h of ice storage. This study shows that the physiological disruption in Atlantic salmon and rainbow trout caused by simulated harvest conditions of stress and exercise, results in mostly transient changes in post-mortem muscle biochemistry. These changes lead to an earlier onset and resolution of rigor, and lower post-mortem muscle pH in comparison to the control. 1999 The Fisheries Society of the British Isles
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