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Test Rates (test + rate)

Distribution by Scientific Domains
Chemistry50%

Selected Abstracts

RELATIONSHIPS BETWEEN PRIMARY PLANT CELL WALL ARCHITECTURE AND MECHANICAL PROPERTIES FOR ONION BULB SCALE EPIDERMAL CELLS

JOURNAL OF TEXTURE STUDIES, Issue 6 2004
DAVID G. HEPWORTH
ABSTRACT This article investigates onion epidermal tissue (Allium cepa) using a combination of mechanical testing, microscopy and modeling and relates tissue mechanical properties to the known structure of the cell walls. Onion epidermal tissue has a simple, regular structure of elongated cells, which have been used to enable the contributions to mechanical properties of cell walls and of higher order structures to be separated and analyzed. Two models of wall behavior were used to explore how Poisson's ratio of cell walls parallel to the plane of the epidermal surface may vary with applied strain. In the first model, cellulose microfibrils can be reorientated in an unrestricted way with the result that the cell wall volume decreases. In the second model the volume of the cell wall remains constant, which controls the reorientation of microfibrils, hence the Poisson's ratio. Measurements made from uniaxially stretched cells show that the data most closely fits model I, therefore, it is concluded that the bulk of the matrix has little influence on the observed mechanical properties (at a test rate of 1 mm/min), allowing cellulose microfibrils to reorient through the matrix in an unrestricted way during uniaxial tests. In its mechanical attributes the primary cell wall resembles more a knitted cloth than a semisolid composite material. When biaxial stretching is applied to tissue, so that there is no re-orientation of microfibrils, the cell wall material is still able to reach surprisingly large elastic strains of up to 12.5% and no plastic deformation was recorded. Current theory suggests that cellulose microfibrils can stretch elastically by a maximum of 7%, therefore further work is required to identify mechanisms that could account for the extra elastic strain. [source]

Global epidemiology of HIV,

JOURNAL OF MEDICAL VIROLOGY, Issue S1 2006
Francine E. McCutchan
Abstract HIV is among the most generically variable of human pathogens. A comprehensive and detailed description of HIV strains in the pandemic is an important foundation for diagnosis, treatment, and prevention. The current sequence database for HIV includes almost 800 complete genome sequences, documenting HIV-1 groups M, O, and N, and HIV-2. Among HIV-1 group M strains, responsible for the vast majority of HIV infections worldwide, 743 sequences represent 9 genetic subtypes, 16 circulating recombinant forms (CRF) that are spreading in populations, and a variety of unique recombinant forms (URF), identified so far only from a single individual. The global distribution of HIV is complex and dynamic with regional epidemics harboring only a subset of the global diversity. HIV strains differ enormously in terms of global prevalence. Six strains account for the majority of HIV infections: HIV-1 subtypes A, B, C, D, and two of the CRF, CRF01-AE and CRF02_AG, respectively. Many of the known subtypes and recombinant forms are currently rare in the epidemic, but could spread more widely if favorable conditions arise. HIV-2 is largely restricted to West Africa at relatively low prevalence there. Groups O and N of HIV-1 are very rare in the pandemic. The goal of universal coverage of HIV-1 strains by diagnostic tests can be met by minimizing false negative test rates for the six globally prevalent HIV-1 group M strains and HIV-2, and by evaluating systematically coverage of rare subtypes and recombinant forms. J. Med. Virol. 78:S7,S12, 2006. © 2006 Wiley-Liss, Inc. [source]

Insecticidal activity of N -arylalkylbenzhydrolpiperidines

PEST MANAGEMENT SCIENCE (FORMERLY: PESTICIDE SCIENCE), Issue 12 2002
Joel M Wierenga
Abstract Benzhydrolpiperidine (BZP) insecticides represent a novel class of chemistry. Their specificity and efficacy as well as their low mammalian toxicity give them excellent potential for commercialization. Several N -arylalkylbenzhydrolpiperidines were tested for activity against a variety of insects in the laboratory and greenhouse. These tests were used to select compounds for field trials and determine rates of application for field tests. The BZP compounds have good activity against Lepidoptera, with modest Coleoptera activity. They are toxic by oral administration and have about 100-fold lower activity by topical exposure. A methyl carbamate BZP, F4265, was the most active compound, with LC50 values of 6,mg,litre,1 or less for most Lepidopteran species tested. F4265 was active in a variety of field trials at 112,224,g,AI,ha,1. Whole-plant testing methods conducted in the greenhouse were effective in determining field test rates. © 2002 Society of Chemical Industry [source]

Utility of Lead aVR for Identifying the Culprit Lesion in Acute Myocardial Infarction

ANNALS OF NONINVASIVE ELECTROCARDIOLOGY, Issue 3 2009
B.Sc., Jørgen Tobias Kühl M.A.
Background: Lead aVR is a neglected, however, potentially useful tool in electrocardiography. Our aim was to evaluate its value in clinical practice, by reviewing existing literature regarding its utility for identifying the culprit lesion in acute myocardial infarction (AMI). Methods: Based on a systematic search strategy, 16 studies were assessed with the intent to pool data; diagnostic test rates were calculated as key results. Results: Five studies investigated if ST-segment elevation (STE) in aVR is valuable for the diagnosis of left main stem stenosis (LMS) in non,ST-segment AMI (NSTEMI). The studies were too heterogeneous to pool, but the individual studies all showed that STE in aVR has a high negative predictive value (NPV) for LMS. Six studies evaluated if STE in aVR is valuable for distinguishing proximal from distal lesions in the left anterior descending artery (LAD) in anterior ST-segment elevation AMI (STEMI). Pooled data showed a sensitivity of 47%, a specificity of 96%, a positive predicative value (PPV) of 91% and a NPV of 69%. Five studies examined if ST-segment depression (STD) in lead aVR is valuable for discerning lesions in the circumflex artery from those in the right coronary artery in inferior STEMI. Pooled data showed a sensitivity of 37%, a specificity of 86%, a PPV of 42%, and an NPV of 83%. Conclusion: The absence of aVR STE appears to exclude LMS as the underlying cause in NSTEMI; in the context of anterior STEMI, its presence indicates a culprit lesion in the proximal segment of LAD. [source]