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Injury Only (injury + only)

Distribution by Scientific Domains
Medical Sciences50%

Selected Abstracts

Trauma in the city of Kerma: ancient versus modern injury patterns

INTERNATIONAL JOURNAL OF OSTEOARCHAEOLOGY, Issue 1 2004
M. Judd
Abstract Injuries, whether accidental or intentional, have incapacitated humans and their primordial ancestors throughout time, although the injury mechanisms have become increasingly more technologically sophisticated. Interpretation of injury aetiology among past peoples is challenging, and often impossible, however, clinical research from developing countries provides a useful analogy with which to evaluate trauma or health patterns of an ancient society. This paper presents a systematic analysis of cranial and postcranial skeletal trauma among 223 adults who were excavated by George Reisner in 1923 from the city of Kerma (1750,1550 BC), Egypt's ancient nemesis in the struggle for control of the Nile River trade route. A total of 156 injuries (fractures, dislocations and muscle pulls among the skull, long bones, extremities and torso) were observed among 88 individuals, 48 of whom had one injury only. The skull was the most frequently traumatized element (11.2%) followed by the ulna (8.3%); 2.4% (48/2029) long bones were fractured. The modal distribution of the Kerma fractures was compared to the fracture distributions of two samples from India and Nigeria where falls were the most common cause of injury. Some characteristics of the three injury patterns were shared: males suffered the greatest frequency of injury, the economically active people (25 to 50 years of age) presented the most injuries among adults, and a small proportion of the victims had more than one major injury. However, the Kerma distribution of the fractured bones varied dramatically from the clinical injury distributions: the ulna and skull were among the least frequently injured bones in the modern samples, while the radius, humerus and lower leg were the most commonly traumatized elements among the modern people, but rare among the ancients. The configuration of the ulna and skull injuries at Kerma was characteristic of those associated with blunt force trauma in other clinical assessments and the absence of these specific lesions from the modern samples where accident was the primary injury mechanism presents a persuasive argument for interpersonal violence among the ancient Kerma people. Copyright © 2004 John Wiley & Sons, Ltd. [source]

Optimum Postmortem Chilled Storage Temperature for Summer and Winter Acclimated, Rested, Chinook Salmon (Oncorhynchus tshawytscha) White Muscle

JOURNAL OF FOOD SCIENCE, Issue 5 2000
A.R. Jerrett
ABSTRACT Chemical anaesthesia (AQUI-STM) was used to harvest 2 groups of tank-reared chinook salmon (Oncorhynchus tshawytscha), naturally acclimated to summer (18.8 °C) and winter (10.7 and 12.4 °C) temperatures, in a "rested"state. Carcasses were stored in 35% seawater at temperatures between approximately 2 and 19 °C to investigate the effects of acclimation and storage temperature on the postmortem metabolic rate of rested epaxial white muscle tissue. Muscle pH, [lactate], and adenosine triphosphate/inosine monophosphate measurements made 20 h postharvest indicated that winter acclimated fish were 2.2 times more sensitive to temperature than summer fish. A 3rd group of winter acclimated fish, stored between ,1.2 and 6 °C, indicated that significant cold injury only occurred on freezing. [source]

The Cardio-Protective Properties of Ncx-6550, a Nitric Oxide Donating Pravastatin, in the Mouse

MICROCIRCULATION, Issue 6 2010
CLARA DI FILIPPO
Please cite this paper as: Di Filippo, Monopoli, Ongini, Perretti and D'Amico (2010). The Cardio-Protective Properties of Ncx-6550, a Nitric Oxide Donating Pravastatin, in the Mouse. Microcirculation17(6), 417,426. Abstract Objective:, Determine the cardio-protective properties of a nitric oxide-releasing pravastatin (Ncx-6550), in comparison to pravastatin. Methods:, A mouse model of myocardial infarct was used assessing tissue damage both at 2 and 24 hour post-reperfusion, administering compounds both prophylactically and therapeutically. Results:, Ncx-6550 induced a significant dose-dependent (2.24,22.4 ,mol/kg i.p.) cardioprotection in the two hour reperfusion protocol. In vehicle-treated mice, infarct size (expressed as fraction of area at risk; IS/AR) was 41.2 ± 1%, and it was reduced to 22.2 ± 0.9% and 32.6 ± 0.9% following 22.4 and 6.72 ,mol/kg Ncx-6550 (p < 0.05). 22.4 ,mol/kg Ncx-6550 also increased cardiac levels of the enzyme heme oxygenase-1. Treatment of mice with pravastatin induced significant reduction of myocardial injury only at 22.4 ,mol/kg (IS/AR value: 33.7 ± 0.9%). In a 24 hour reperfusion protocol, Ncx-6550 and pravastatin were tested only at 22.4 ,mol/kg i.p. being given either one hour prior to ischemia (prophylactic protocol) or one hour into reperfusion (therapeutic protocol). With either treatment scheme, Ncx-6550 produced higher cardioprotection compared to pravastatin, as reflected also by a reduction in the incidence of lethality as well as in circulating troponin I and interleukin-1, levels. Conclusions:, These results indicate Ncx-6550 as a novel therapeutic agent with a potential for the treatment of myocardial infarct. [source]

Stem cell implantation in ischemic mouse heart: a high-resolution magnetic resonance imaging investigation,

NMR IN BIOMEDICINE, Issue 6 2005
Ekkehard Küstermann
Abstract Advances in the biology of stem cells have evoked great interest in cell replacement therapies for the regeneration of heart tissue after myocardial infarction. However, results from human trials are controversial, since the destination of the injected cells, their engraftment and their long-term fate have remained unclear. Here we investigate whether transplanted cells can be identified in the intact and lesioned murine myocardium employing high-resolution MRI. Cardiac progenitor cells, expressing the enhanced green fluorescent protein (EGFP), were labeled with ultra-small paramagnetic iron-oxide (USPIO) nanoparticles and transplanted into the intact or injured myocardium of mice. Their precise location was determined with high-resolution MRI and compared with histological tissue sections, stained with Prussian blue for iron content. These experiments showed that iron nanoparticle-loaded cells could be identified at high resolution in the mouse heart. However, ischemic myocardium (after cryoinjury or left coronary artery ligation) was characterized by a signal attenuation similar to that induced by USPIO-labeled cells in T -weighted MR images, making detection of labeled stem cells in this area by T -sensitive contrast rather difficult. In animals with myocardial injury only, the signal attenuated areas were of the same size in proton density- and T -weighted MR images. In injured animals also receiving labeled cells the lesioned area appeared larger in T - than in proton density-weighted MR images. This sequence-dependent lesion size change is due to the increased signal loss caused by the iron oxide nanoparticles, most sensitively detectable in the T -sensitive images. Thus, using the novel combination of these two parameter weightings, USPIO-labeled cells can be detected at high resolution in ischemic myocardium. Copyright © 2005 John Wiley & Sons, Ltd. [source]