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Selected AbstractsNO EVIDENCE FOR PATIENT-TO-PATIENT TRANSMISSION OF HEPATITIS C VIRUS DURING UPPER GASTROINTESTINAL ENDOSCOPY: MOLECULAR STUDIES ON THREE ACUTE HEPATITIS C PATIENTSDIGESTIVE ENDOSCOPY, Issue 3 2009Takayuki Toda Background:, The risk of patient-to-patient transmission of hepatitis C virus (HCV) during endoscopy remains controversial. Using molecular approaches, we examined the possibility of patient-to-patient transmission of HCV in three patients who developed acute hepatitis C 1,6 months after examination by upper gastrointestinal endoscopy (UGIE) in a hospital endoscopy unit in Japan. Methods:, For the source of HCV infection, we used frozen sera obtained from potential candidates who underwent UGIE earlier than three index patients on the same days in the same unit. HCV genotype was determined by multiplex polymerase chain reaction (PCR) with genotype-specific primers. The 1087-nucleotide (nt) sequence of the NS5B region of the HCV genome was compared between index patients and their HCV-viremic candidates. Results:, The three index patients were exclusively infected with HCV of genotype 1b. Among a total of 60 candidate patients who underwent UGIE earlier than the index patients, 14 were positive for anti-HCV, of whom 12 had detectable HCV-RNA (1b, n = 9; 2a, n = 1; 2b, n = 2) on sera collected during each UGIE. Shared identity within the 1087-nt NS5B sequence was less than 95.0% between index patients and HCV/1b-infected candidates (n = 3, 1 and 5, respectively). None of the remaining 46 candidates who were negative for anti-HCV at UGIE examination tested positive for HCV-RNA, nor seroconverted to anti-HCV on their sera, which most likely excludes the possibility of HCV viremia despite the anti-HCV-negative serology at UGIE examination. Conclusion:, The present study suggests that patient-to-patient transmission of HCV during UGIE is infrequent. [source] Toward an integrated microchip sized 2-D polyacrylamide slab gel electrophoresis device for proteomic analysisELECTROPHORESIS, Issue 3 2007Zuzana Demianová Abstract We describe a miniaturized instrument capable of performing 2-DE. Our miniaturized device is able to perform IEF and polyacrylamide slab gel electrophoresis (PASGE) in the same unit. It consists of a compartment for a first-dimensional IEF gel, which is connected to a second-dimensional PASGE gel. The focused samples are automatically transferred from the IEF gel to the PASGE gel by electromigration. Our preliminary experiments show that the device is able to focus and separate a mixture of proteins in approximately 1,h, excluding the time required for the staining procedure. On average, the gel-to-gel retardation factor,(Rf) variation was 6.2% (±0.9%) and pI variation was 2.5% (±0.6%). Separated protein spots were excised from stained gels, digested with trypsin, and further identified by MS, thus enabling direct proteomic analysis of the separated proteins. [source] Liquid-Crystalline Polymer with a Block Mesogenic Side Group: Photoinduced Manipulation of Nanophase-Separated StructuresADVANCED FUNCTIONAL MATERIALS, Issue 23 2009Kunihiko Okano Abstract In this report, a novel type of photoresponsive liquid crystalline polymer with a block mesogenic side-group is demonstrated. The block mesogene is an amphipathic molecule containing a hydrophobic mesogene (azotolane moiety) and hydrophilic oligooxyethylene moieties in the same unit. The block mesogene in the polymer plays a role in liquid crystalline, amphiphilic and photoresponsive properties. As expected, a film prepared from the polymer exhibits phase separation of a lamellar structure due to cooperative motion between liquid crystal assembly and nanophase separation. The morphology of the lamellae can be aligned upon irradiation of linearly polarized light. Moreover, a photochemical phase transition induced by unpolarized UV irradiation erases the surface morphology. The erased nanostructure can be recovered by annealing or irradiation of linearly polarized light, meaning that the surface morphology is rewritable via a photochemical process. [source] Late Wisconsinan Port Eliza Cave deposits and their implications for human coastal migration, Vancouver Island, CanadaGEOARCHAEOLOGY: AN INTERNATIONAL JOURNAL, Issue 4 2006M. Al-Suwaidi Sediments of Port Eliza Cave provide a record of the Last Glacial Maximum (LGM) on Vancouver Island that has important implications for human migration along the debated coastal migration route. Lithofacies changes from nonglacial diamict to glacial laminated silt and clay and till, then a return to nonglacial conditions with oxidized clay, colluvial block beds, and speleothems, along with radiocarbon and U/Th dates, define glacial,nonglacial transitions. Scanning electron microscope studies and clay mineralogy confirm that the laminated fines represent glaciation. Preglacial faunal evidence shows a diverse range from small species, including birds, fish, vole, and marmot, to larger species, such as mountain goat. Pollen data from the same unit show a cold, dry tundra environment with sparse trees. Deglaciation occurred prior to an age of 12.3 ka B.P. based on dated mountain goat bone. These data support the viability of the coastal migration route for humans prior to ,16 ka B.P. and then as early as ,13 ka B.P. © 2006 Wiley Periodicals, Inc. [source] Exhumation paths of high-pressure metapelites obtained from local equilibria for chlorite,phengite assemblagesGEOLOGICAL JOURNAL, Issue 3-4 2000O. Vidal Abstract The compositional variation of phengite and chlorite pairs in rocks sampled across the metamorphic zonation of three different blueschist belts (Cycladic, Sambagawa and Schistes Lustrés) is characterized from the regional to the thin-section scale. The different sample suites show different compositional trends, but similar trends are observed at the regional and thin-section scale in the same unit. At the thin-section scale, several local chlorite,phengite equilibria involving minerals of different compositions can be identified. These observations suggest that at temperature T <,,550°C, equilibration of chlorite and phengite compositions with varying pressure and temperature is controlled by crystallization/recrystallization processes rather than by changing the composition of older grains by lattice diffusion. In some instances, the relative time of growth of the different phyllosilicate generations can be determined using microstructural criteria. The observed compositional variations are interpreted and quantified in terms of pressure (P) and temperature (T) variations using new thermodynamic solution models accounting for the Tschermak, di/trioctahedral, and pyrophyllitic substitutions. Chlorite,phengite local equilibria constrain the shape of the exhumation P,T paths of the rocks under consideration. The assemblage chlorite,phengite,paragonite,albite,quartz,H2O can be used to constrain different P,T paths for Tinos and Sambagawa blueschists. Copyright © 2000 John Wiley & Sons, Ltd. [source] Cooling and inferred exhumation history of the Ryoke metamorphic belt in the Yanai district, south-west Japan: Constraints from Rb,Sr and fission-track ages of gneissose granitoid and numerical modelingISLAND ARC, Issue 2 2001Takamoto Okudaira Abstract The Ryoke metamorphic belt in south-west Japan consists mainly of I-type granitoids and associated low-pressure/high-temperature metamorphic rocks. In the Yanai district, it has been divided into three structural units: northern, central and southern units. In this study, we measured the Rb,Sr whole-rock,mineral isochron ages and fission-track ages of the gneissose granodiorite in the central structural unit. Four Rb,Sr ages fall in a range of ca 89,87 Ma. The fission-track ages of zircon and apatite are 68.9 ± 2.6 Ma and 57.4 ± 2.5 Ma (1, error), respectively. Combining the newly obtained ages with previously reported (Th,)U,Pb ages from the same unit, thermochronologic study revealed two distinctive cooling stages; 1) a rapid cooling (> 40°C/Myr) for a period (~7 Myr) soon after the peak metamorphism (~ 95 Ma) and 2) the subsequent slow cooling stage (~ 5°C/Myr) after ca 88 Ma. The first rapid cooling stage corresponds to thermal relaxation of the intruded granodiorite magma and its associated metamorphic rocks, and to the uplift by a displacement along low-angle faults which initiated soon after the intrusion of the magma. Uplift by the later stage deformation having formed large-scale upright folds resulted in progress of the exhumation during the first stage. The average exhumation velocity of the stage is , 2 mm/yr. During the second stage, the rocks were not accompanied by ductile deformation and were exhumed with the rate of 0.1,0.2 mm/yr. The difference in the exhumation velocity between the first and second cooling stages resulted from the difference in the thickness of the crust and in the activity of ductile deformation between the early and later stages of the orogenesis. [source] A Mixed Modelling Approach for Randomized Experiments with Repeated MeasuresJOURNAL OF AGRONOMY AND CROP SCIENCE, Issue 4 2004H. P. Piepho Abstract Repeated measurements on the same experimental unit are common in plant research. Due to lack of randomization and the serial ordering of observations on the same unit, such data give rise to correlations, which need to be accounted for in statistical analysis. Mixed modelling provides a flexible framework for this task. The present paper proposes a general method to formulate mixed models for designed experiments with repeated measurements. The approach is exemplified by way of several examples. [source] Monazite geochronology in central New England: evidence for a fundamental terrane boundaryJOURNAL OF METAMORPHIC GEOLOGY, Issue 3 2008F. S. SPEAR Abstract Monazite crystallization ages have been measured in situ using SIMS and EMP analysis of samples from the Bronson Hill anticlinorium in central New England. In west-central New Hampshire, each major tectonic unit (nappe) displays a distinctive P,T path and metamorphic history that requires significant post-metamorphic faulting to place them in their current juxtaposition, and monazite ages were determined to constrain the timing of metamorphism and nappe assembly. Monazite ages from the low-pressure, high-temperature Fall Mountain nappe range from c. 455 to 355 Ma, and Y zoning indicates that these ages comprise three to four distinct age domains, similar to that found in the overlying Chesham Pond nappe. The underlying Skitchewaug nappe contains monazite ages that range from c. 417 to 307 Ma. 40Ar/39Ar ages indicate rapid cooling of the Chesham Pond and Fall Mountain nappes after 350 Ma, which is believed to represent the time of emplacement of the high-level Chesham Pond and Fall Mountain nappes onto rocks of the underlying Skitchewaug nappe. Garnet zone rocks from western New Hampshire contain monazite that display a range of ages (c. 430,340 Ma). Both the metamorphic style and monazite ages suggest that the low-grade belt in western New Hampshire is continuous with the Vermont sequence to the west. Rocks of the Big Staurolite nappe in western New Hampshire contain monazite that crystallized between c. 370 and 290 Ma and the same unit along strike in northern New Hampshire and central Connecticut records ages of c. 257,300 Ma. Conspicuously absent from this nappe are the older age populations that are found in both the overlying nappes and underlying garnet zone rocks. These monazite ages confirm that the metamorphism observed in the Big Staurolite nappe occurred significantly later than that in the units structurally above and below. These data support the hypothesis that the Big Staurolite nappe represents a major tectonic boundary, along which rocks of the New Hampshire metamorphic series were juxtaposed against rocks of the Vermont series during the Alleghanian. [source] Neuropathology of septic shockNEUROPATHOLOGY & APPLIED NEUROBIOLOGY, Issue 2 2002F. Gray Introduction:, Septic shock is the most frequent cause of death in intensive care units. It is often complicated by an encephalopathy and there is increasing evidence that central autonomic nervous system (CANS) dysfunction plays a crucial role in the onset and persistance of the haemodynamic failure. However, only a few neuropathological studies are available; they are always retrospective and often disagree. Material and methods:, Twenty consecutive patient who died from septic shock were examined and compared with eight patients who died from nonseptic shock in the same unit and five ,normal' controls collected from the Forensic Medicine Service. Results and conclusion:, A variety of lesions, including microabscesses, multifocal necrotizing leukoencephalopathy, haemorrhages and disseminated intravascular coagulation, were found, and were most probably related to the biological disturbances associated with sepsis. These lesions may contribute to the ,septic encephalopathy'. Ischaemic changes in ,susceptible' areas were comparable in septic shock and in nonseptic shock. In contrast, ischaemic changes in the nuclei of the CANS were significantly more severe in septic shock than in nonseptic shock. Neuronal apoptosis in these nuclei was significantly more frequent and more severe in septic shock; apoptosis did not correlate exactly with neuronal ischaemia and was associated with only mild microglial activation suggesting that circulating factors may also play a role in its causation. [source] Risk factors of status epilepticus in childrenPEDIATRICS INTERNATIONAL, Issue 4 2003Serap Karasal AbstractBackground:,Although there is abundant literature about the morbidity and mortality rates of status epilepticus (SE), little is known about the risk factors of this medical emergency. The aim of the present study is to assess the risk factors of SE in children. Methods:,The authors reviewed the medical records of 83 patients admitted to the Pediatric Neurology Unit of Trakya University Hospital, Edirne, Turkey from January 1994 to December 2001 with the diagnosis of SE. Eighty-three patients were compared with 166 controls who were admitted to the same unit due to non-status epilepticus (non-SE) seizure. Results:,The univariate analysis demonstrated that SE episodes were significantly associated with a history of birth asphyxia, neonatal seizure, discontinuation of antiepileptic medication, epilepsy, partial seizure evolving to secondary generalized seizures, myoclonic seizure, generalized abnormalities in the neurological examination, neuromotor retardation, generalized background abnormalities on electroencephalogram (EEG), generalized abnormalities on neuroimaging and polypharmacy than non-SE episodes. Logistic regression was used to test the independence of these parameters as predictors of SE risk. Four parameters emerged as significant independent predictors of SE in children in multiple logistic regression: polypharmacy (Odds ratio (OR) 5.17, P = 0.0004), discontinuation of antiepileptic medication (OR 4.04, P = 0.0095), neuromotor retardation (OR 4.03, P = 0.0016) and generalized background abnormalities on EEG (OR 2.48, P = 0.0419). Conclusion:,Polypharmacy, discontinuation of antiepileptic medication, neuromotor retardation and generalized background abnormalities on EEG are indicators in children of a higher risk of SE. [source] Improving the prognosis of patients after radical cystectomy.BJU INTERNATIONAL, Issue 6 2007Part I: the role of lymph node dissection The first two reviews are from the same unit in Germany and describe the well-known but still much discussed ways of improving the prognosis of patients undergoing cystectomy for bladder cancer. The authors review the roles of lymph node dissection and perioperative chemotherapy, and draw conclusions which will be of help for patients having this form of therapy. In a further review, authors from Egypt debate the requirement for a refluxing or non-refluxing uretero-ileal anastomosis in low-pressure reservoirs, drawing on their extensive experience in this field. The optimum treatment for patients with muscle-invasive bladder cancer remains a matter of intense debate; some authors still question the role of radical cystectomy (RC) per se, as it can be a potentially mutilating procedure with subsequent impairment in quality of life. However, the impairment has not been investigated using validated quality-of-life studies. By contrast, it is commonly accepted that no alternative treatment yields similar long-term survival data to RC. However, survival rates after RC are far from satisfying, particularly for patients with ,,pT3 and/or pN+ disease. Therefore, various strategies were introduced to improve survival in these patients, i.e. extension of lymph node dissection during radical surgery and perioperative chemotherapy. Both strategies are analysed and discussed in two mini-reviews, based on data from current publications and from theoretical considerations. [source] Mesoscopic Structure and Properties of Liquid Crystalline Mesophase Pitch and Its Transformation into Carbon FiberTHE CHEMICAL RECORD, Issue 2 2002Isao Mochida Abstract The history and present state of the art in the chemistry of mesophase pitch, which is an important precursor for carbon fiber and other high-performance industrial carbons, are reviewed relative to their structural properties. The structural concepts in both microscopic and macroscopic views are summarized in terms of the sp2 carbon hexagonal plane as a basic unit common to graphitic materials, its planar stacking in clusters, and cluster assembly into microdomains and domains, the latter of which reflect the isochromatic unit of optical anisotropy. Such a series of structural units is described in a semiquantitative manner corresponding to the same units of graphitic materials, although the size and stacking height of the hexagonal planes (graphitic sheets) are very different. Mesophase pitch is a liquid crystal material whose basic structural concepts are maintained in the temperature range of 250 to 350,°C. The melt flow and thermal properties are related to its micro- and mesoscopic structure. The structure of mesophase-pitch,based carbon fiber of high tensile strength, modulus, and thermal conductivity has been formed through spinning, and has inherited the same structural concepts of mesophase pitch. Stabilization settles the structure in successive heat treatments up to 3000,°C. Carbonization and graphitization enable growth of the hexagonal planes and their stacking into units of graphite. Such growth is governed and controlled by the alignment of micro- and mesoscopic structures in the mesophase pitch, which define the derived carbon materials as nanostructural materials. Their properties are controlled by the nanoscopic units that are expected to behave as nanomaterials when appropriately isolated or handled. © 2002 The Japan Chemical Journal Forum and Wiley Periodicals, Inc. Chem Rec 2:81,101, 2002: Published online in Wiley InterScience (www.interscience.wiley.com) DOI 10.1002/tcr.10016 [source] | |||||||||||||