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Protection Mechanisms (protection + mechanism)
Selected AbstractsExplaining the Emergence of Different European Union Crisis and Emergency Management StructuresJOURNAL OF CONTINGENCIES AND CRISIS MANAGEMENT, Issue 2 2010Cécile Wendling Two European Union (EU) tools were adopted to enhance cooperation among Member States in the case of crises and emergencies (natural, industrial or man-made) occurring both inside and outside the EU borders: first, the EU has developed a new tool in the field of civil protection that has been managed by the Directorate General Environment of the European Commission under the label of the Community Civil Protection Mechanism since 2001. Second, the Emergency and Crisis Coordination Arrangements (CCA), under the responsibility of the European Council, have been developed since 2005. Using a sociological neo-institutionalist approach based on the concept of ,divergent isomorphism', the paper explains who and what the sources of EU integration process were leading to the coexistence of these two structures. Two case studies are presented using process tracing to demonstrate that two different pre-existing organizational models were copied to create the EU structures of crisis and emergency management: that of the Community Marine pollution framework for the Community Civil Protection Mechanism and that of NATO for the CCA. [source] Effect of load distribution in path protection of MPLSINTERNATIONAL JOURNAL OF COMMUNICATION SYSTEMS, Issue 4 2003Sook-Yeon Kim Abstract We analyse and compare a protection mechanism based on load distribution with a typical protection mechanism in an multiprotocol label switching (MPLS) network. The protection mechanism based on load distribution is modelled as a fully shared mechanism (FSM) and the typical protection mechanism is a partially shared mechanism (PSM). By comparing the FSM and the PSM, we numerically analyse the effect of load distribution in path protection of MPLS. The comparison is based on numerical equations representing the relationship between service reliability and resource utilization. From the equations, we show that both the FSM and the PSM have a tradeoff between service reliability and resource utilization. In addition, we provide solutions for the FSM and the PSM to determine the amount of bandwidth occupied according to the requested service reliability. The comparison of the FSM and the PSM shows that the PSM cannot provide greater service reliability than the FSM under the same utilization. In addition, the PSM is not capable of accommodating greater resource utilization than the FSM for the same level of service reliability. However, an appropriate choice of the number of protection paths allows the PSM to provide the same level of service reliability as the FSM. The choice is the maximum among the possible numbers of protection paths of the PSM. In short, the typical protection mechanism is as good as the FSM in terms of service reliability and resource utilization even though the FSM is an attractive alternative to the typical protection mechanism. Copyright © 2003 John Wiley & Sons, Ltd. [source] Mechanisms involved in control of Blumeria graminis f.sp. hordei in barley treated with mycelial extracts from cultured fungiPLANT PATHOLOGY, Issue 5 2002H. Haugaard Treatment with mycelial extracts, prepared from liquid cultures of Bipolaris oryzae, Pythium ultimum and Rhizopus stolonifer, protected barley (Hordeum vulgare) against powdery mildew disease caused by the fungus Blumeria graminis f.sp. hordei. The mechanisms of this protection were studied using histopathological methods and molecular analysis. Germination and appressorial formation of B. graminis were generally reduced after treatment with mycelial extracts. Although this reduction (between 12 and 62% depending on treatment and experiment) was inconsistent and only occasionally significantly different from the water-treated control, it indicated a direct antifungal effect of the extracts. In situations where the fungus succeeded in forming an appressorium, penetration efficiency and haustorium formation from these appressoria was not affected , no enhanced penetration resistance associated with papilla formation was detected. However, a post-penetration effect was observed, as B. graminis colonies on mycelial extract-treated leaves produced 50% fewer hyphae than on controls. Northern blot analyses showed earlier accumulation of defence-related gene transcripts following treatment with B. oryzae and P. ultimum mycelial extracts, and to a lesser extent R. stolonifer mycelial extract, compared with water-treated leaves. It is suggested that the protection mechanism of the mycelial extracts involves direct antifungal effects and possible induced resistance for the B. oryzae and P. ultimum mycelial extracts. [source] Circulatory effects of apnoea in elite breath-hold diversACTA PHYSIOLOGICA, Issue 1 2009F. Joulia Abstract Aim:, Voluntary apnoea induces several physiological adaptations, including bradycardia, arterial hypertension and redistribution of regional blood flows. Elite breath-hold divers (BHDs) are able to maintain very long apnoea, inducing severe hypoxaemia without brain injury or black-out. It has thus been hypothesized that they develop protection mechanisms against hypoxia, as well as a decrease in overall oxygen uptake. Methods:, To test this hypothesis, the apnoea response was studied in BHDs and non-divers (NDs) during static and dynamic apnoeas (SA, DA). Heart rate, arterial oxygen saturation (SaO2), and popliteal artery blood flow were recorded to investigate the oxygen-conserving effect of apnoea response, and the internal carotid artery blood flow was used to examine the mechanisms of cerebral protection. Results:, The bradycardia and peripheral vasoconstriction were accentuated in BHDs compared with NDs (P < 0.01), in association with a smaller SaO2 decrease (,2.7% vs. ,4.9% during SA, P < 0.01 and ,6% vs. ,11.3% during DA, P < 0.01). Greater increase in carotid artery blood flow was also measured during apnoea in BHDs than in controls. Conclusion:, These results confirm that elite divers present a potentiation of the well-known apnoea response in both SA and DA conditions. This response is associated with higher brain perfusion which may partly explain the high levels of world apnoea records. [source] Spatial Distribution of Bax and Bcl-2 in Osteocytes After Bone Fatigue: Complementary Roles in Bone Remodeling Regulation?,JOURNAL OF BONE AND MINERAL RESEARCH, Issue 5 2002Olivier Verborgt Abstract Osteocyte apoptosis appears to play a key role in the mechanism by which osteoclastic resorption activity targets bone for removal, because osteocyte apoptosis occurs in highly specific association with microdamage and subsequent remodeling after fatigue. However, beyond terminal deoxynucleotidyl transferase (TdT)-mediated deoxyuridine triphosphate (dUTP)-biotin nick end labeling (TUNEL) assay, little is known about the mechanisms controlling osteocyte apoptosis in vivo. In the current studies, expression of Bax, a proapoptotic gene product, and Bcl-2, an antiapoptotic gene product, was determined in osteocytes of fatigued rat bone using immunocytochemical staining and compared with TUNEL staining patterns. Bax and Bcl-2 were evident in osteocytes by 6 h after loading. Moreover, Bax and Bcl-2 in osteocytes were expressed differently as a function of distance from microdamage sites. The peak of Bax expression and TUNEL+ staining in osteocytes was observed immediately at the microcrack locus, which is where bone resorption occurs in this system; in contrast, Bcl-2 expression, the antiapoptotic signal, reached its greatest level at some distance (1-2 mm) from microcracks. These data suggest that near sites of microinjury in bone, those osteocytes that do not undergo apoptosis are prevented from doing so by active protection mechanisms. Moreover, the zone of apoptotic osteocytes around microcracks was effectively "walled in" by a surrounding halo of surviving osteocytes actively expressing Bcl-2. Thus, the expression pattern of apoptosis-inhibiting gene products by osteocytes surrounding the apoptotic osteocyte at microdamage sites also may provide important signals in the guidance of resorption processes that occur in association with osteocyte apoptosis after fatigue. [source] Household experiences of ill-health and risk protection mechanismsJOURNAL OF INTERNATIONAL DEVELOPMENT, Issue 2 2009Jane Goudge First page of article [source] Altered arachidonic acid biosynthesis and antioxidant protection mechanisms in Schwann cells grown in elevated glucoseJOURNAL OF NEUROCHEMISTRY, Issue 6 2002Cristinel Mîinea Abstract In cultured Schwann cells, elevated glucose induces alterations in arachidonic acid metabolism that cause a decrease in the content of glycerophospholipid arachidonoyl-containing molecular species (ACMS). This could result from decreased de novo arachidonic acid biosynthesis, or increased arachidonic acid release from phospholipids. Incorporation of radioactive 8,11,14-eicosatrienoic acid into ACMS was lower for cells grown in 30 mm versus 5 mm glucose, consistent with a decrease in ,5 desaturase activity. However, neither basal arachidonic acid release from prelabeled cells nor stimulated generation of arachidonic acid in the presence of the reacylation inhibitor, thimerosal, the phosphotyrosine phosphatase inhibitor, bipyridyl peroxovanadium, or both together, were altered by varying the glucose concentrations, indicating that arachidonic acid turnover did not contribute to ACMS depletion. Free cytosolic NAD+/NADH decreased, whereas NADP+/NADPH remained unchanged for cells grown in elevated glucose, implying that decreased desaturase activity is a result of metabolic changes other than cofactor availability. Schwann cells in elevated glucose were susceptible to oxidative stress, as shown by increased malondialdehyde, depleted glutathione levels, and reduced cytosolic superoxide dismutase activity. Glutathione-altering compounds had no effect on ACMS levels, in contrast to N -acetylcysteine and ,-lipoic acid, which partly corrected ACMS depletion in phosphatidylcholine. These findings suggest that in the Schwann cell cultures, a high glucose level elicits oxidative stress and weakens antioxidant protection mechanisms which could decrease arachidonic acid biosynthesis and that this deficit can be partly corrected by treatment with exogenous antioxidants. [source] EVIDENCE FOR A SPECIALIZED LOCALIZATION OF THE CHLOROPLAST ATP-SYNTHASE SUBUNITS ,, ,, AND , IN THE EYESPOT APPARATUS OF CHLAMYDOMONAS REINHARDTII (CHLOROPHYCEAE),JOURNAL OF PHYCOLOGY, Issue 2 2007Melanie Schmidt The eyespot apparatus (EA) of Chlamydomonas reinhardtii P. A. Dang. consists of two layers of carotenoid-rich lipid globules subtended by thylakoids. The outermost globule layer is additionally associated with the chloroplast envelope membranes and the plasma membrane. In a recent proteomic approach, we identified 202 proteins from isolated EAs of C. reinhardtii via at least two peptides, including, for example, structural components, signalling-related proteins, and photosynthetic-related membrane proteins. Here, we have analyzed the proteins of the EA with regard to their topological distribution using thermolysin to find out whether the arrangement of globules and membranes provides protection mechanisms for some of them. From about 230 protein spots separated on two-dimensional gels, the majority were degraded by thermolysin. Five major protein spots were protected against the action of this protease. These proteins and some that were degradable were identified by mass spectrometry. Surprisingly, the thermolysin-resistant proteins represented the , and , subunits of the soluble CF1 complex of the chloroplast ATP synthase. Degradable proteins included typical membrane proteins like LHCs, demonstrating that thermolysin is not in general sterically prevented by the EA structure from reaching membrane-associated proteins. A control experiment showed that the CF1 complex of thylakoids is efficiently degraded by thermolysin. Blue native PAGE of thermolysin-treated EAs followed by SDS-PAGE revealed that the , and , subunits are present in conjunction with the , subunit in a thermolysin-resistant complex. These results provide strong evidence that a significant proportion of these ATP-synthase subunits have a specialized localization and function within the EA of C. reinhardtii. [source] Antioxidant Protection Mechanisms And Arachidonic Acid Synthesis Are Altered In Schwann Cells Grown In Elevated GlucoseJOURNAL OF THE PERIPHERAL NERVOUS SYSTEM, Issue 3 2000C Miinea Accumulating evidence points to oxidative stress as an important factor in the onset of diabetic neuropathy. We have investigated the status of antioxidant protection mechanisms in immortalized rat Schwann cells cultured in high (30 and 50 mM) concentrations of glucose. As compared to growth in 5 mM glucose, the cells contained 40% less reduced glutathione (n =8, p < 0.01). Total superoxide dismutase activity was diminished by more than 50% (n=3; p < 0.001), whereas catalase activity was unchanged. The cellular NADH/NAD+ ratio was progressively increased with increasing medium glucose concentrations. Our previous findings have established that upon exposure of cultured cells to elevated glucose, the proportions of arachidonic acid-containing molecular species (ACMS) in phospholipids are decreased in a pattern similar to alterations exhibited by diabetic nerve. To examine whether biosynthesis of arachidonic acid might be perturbed, confluent cells maintained in either high or low glucose were incubated with either [14C]linoleic acid (18:2) or [14C]dihomo-,-linolenic acid (20:3) and radioactivity incorporated into molecular species of major phospholipid classes was measured. The incorporation of 18:2 either as unchanged fatty acid or into ACMS did not differ as a function of glucose concentration. Negligible labeled 18:3 or 20:3 molecular species were detected. In contrast, the uptake of 20:3 into 18:1/20:4 and 16:0/20:4 phosphatidylcholine and 18:1/20:4 phosphatidylethanolamine, but not into 20:3-containing molecular species, was significantly reduced in cells cultured in 30 mM glucose. These data imply that ,5 desaturase activity is decreased in cells exposed to elevated glucose. This reduced enzyme activity could adversely affect polyunsaturated fatty acid metabolism and might arise as a consequence of impaired scavenging of reactive oxygen species. (Supported by NIH grant DK30577) [source] Benefit of Feeding Assessment Before Pediatric Airway Reconstruction ,THE LARYNGOSCOPE, Issue 5 2000Jay Paul Willging MD Abstract Objectives/Hypothesis To determine the utility of preoperative feeding assessments in children undergoing airway reconstruction, identifying parameters that correlate with functional deficits in swallowing and postoperative feeding difficulties. Study Design Prospective, sequential enrollment. Methods Two hundred fifty-five patients with structural abnormalities of the upper aerodigestive tract underwent endoscopic swallow studies. Classification of preoperative feeding abilities, specific feeding disorders, and abnormal endoscopic feeding parameters were used to predict the postoperative course of patients undergoing airway reconstruction. The relationships between diagnoses and functional feeding categories and postoperative outcomes and functional feeding categories were appraised by ,2 analysis. Results The median age of the study population was 2.5 years. Fifty-three percent of the patients were tracheotomy dependent. Only 13% of the patients had diagnoses limited to the airway, with 45% of patients having three or more diagnoses. Worse preoperative feeding abilities were associated with the presence of a tracheotomy, age 2 years or less, and multiple underlying diagnoses. Neurological diagnoses were associated with worse feeding abilities. Preoperative feeding assessments directly altered the course of management of 15% of operative patients, by recommending a delay in the surgical correction, the placement of a gastrostomy tube preoperatively, or a modification in the surgical reconstruction planned for the patient. Postoperative airway protection predictions were 80% accurate. Twelve percent of the predictions involved patients who developed unforeseen complications that required additional treatments or prolonged the hospital stay secondary to difficulties with airway protection. There was no correlation between the preoperative feeding abilities of the patients and their postoperative course after airway reconstruction. Conclusion Transient dysphagia is common after laryngotracheal reconstruction. Preoperative feeding abilities do not correlate with the postoperative airway protection abilities of a patient. Feeding assessments before pediatric airway reconstruction provide a means of identifying patients with poor airway protection mechanisms that may compromise the patient after reconstruction. Findings on swallowing evaluations that predict poor airway protective mechanisms are 1) pooling of secretions in the hypopharynx, 2) poor oral motor skills, allowing premature spillage of material into the hypopharynx where it penetrates the larynx, and 3) residue that persists in the hypopharynx after multiple swallows. The integration of information generated from the preoperative swallowing assessment promotes the selection of operative procedures that are optimal for that patient and highlights specific therapy issues that may need to be addressed in the postoperative management of the patient that may not have been obvious without the study. [source] | |||||||||||||