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Physiological Profiles (physiological + profile)

Distribution by Scientific Domains
Life Sciences57%
Medical Sciences28%

Selected Abstracts

An overview of insulin glargine

DIABETES/METABOLISM: RESEARCH AND REVIEWS, Issue S3 2002
Philip D. Home
Abstract Insulin glargine is an innovative, long-acting human insulin analogue, whose prolonged mean activity profile has no pronounced peak. Accordingly, it mimics more closely the natural physiological profile of basal endogenous insulin secretion than do traditional extended-acting insulins such as NPH insulin. As would be expected for a more satisfactory basal insulin, clinical trials comparing insulin glargine with NPH insulin show less nocturnal hypoglycaemia, improved pre-breakfast blood glucose levels, or both. Furthermore, no substantive safety concerns have emerged for insulin glargine. Thus, insulin glargine represents the first major advance in the provision of basal insulin injection therapy for people with type 1 and type 2 diabetes for over 50 years. Copyright © 2002 John Wiley & Sons, Ltd. [source]

The pharmacological and physiological profile of glutamate receptors at the Drosophila larval neuromuscular junction

PHYSIOLOGICAL ENTOMOLOGY, Issue 2 2005
Deval Bhatt
Abstract.,Drosophila larval muscles are commonly used for developmental assessment in regard to various mutations of synaptically relevant molecules. In addition, the molecular sequence of the glutamate receptors on the muscle fibre have been described; however, the pharmacological profiles to known agonists and antagonists have yet to be reported. Here, the responses of N -methyl- d -aspartic acid, ,-amino-3-hydroxy-5-methyl-4-isoxazole-propionate (AMPA), l -glutamate, kainate, quisqualic acid, NBQX, AP5 and DNQX are characterized with regard to synaptic transmission and direct effects on the muscle fibres. The muscle fibres depolarize to application of glutamate or quisqualate and the excitatory postsynaptic potential (EPSP) amplitudes are diminished. Kainate does not alter the muscle membrane potential but does reduce the EPSP amplitude. The known antagonists NBQX, AP5 and DNQX have no substantial effect on synaptic transmission at 1 mm, nor do they block the response of quisqualate. Kainate may be acting as a postsynaptic antagonist or via autoreceptors presynaptically to reduce evoked transmission. [source]

Copper-induced modifications of the trophic relations in riverine algal-bacterial biofilms

ENVIRONMENTAL TOXICOLOGY & CHEMISTRY, Issue 6 2003
Christiane Barranguet
Abstract The effects of copper (Cu) on photosynthetic riverine biofilms were studied in artificial stream channels. Direct effects on the composition and functioning of the biofilms were investigated using plant pigments, community-level physiological profiles (CLPP), and pulse-amplitude-modulated (PAM) fluorescence. Copper caused a significant reduction of microalgal biomass and induced a shift in the population from diatoms to cyanobacteria. However, a decrease in biomass indicated that the replacement of species was not totally effective to counteract the toxic effects of Cu. A direct effect of Cu could also be shown in the bacterial community, and, furthermore, changes in the CLPP could be related to the Cu treatment. Copper-exposed biofilms lost the capacity to use between 11 and 15% of the substrates, but many of the remaining capacities became more robust, indicating an increased Cu tolerance due to the exposure. The change in the biofilm microbial composition points to the indirect effects of Cu on biofilms due to the close interdependence between biofilm autotrophic and heterotrophic compartments. Grazing by snails, which appeared to be an important factor structuring biofilms without any Cu addition, had a very minor effect on Cu-exposed biofilms. Although grazing changed the bacterial composition, its effects were not detected either on the algal community or on the biofilm community tolerance to Cu. [source]

Soil microbial community structure in cucumber rhizosphere of different resistance cultivars to fusarium wilt

FEMS MICROBIOLOGY ECOLOGY, Issue 3 2010
Huaiying Yao
Abstract Cucumber fusarium wilt is a common soil-borne disease. We hypothesize that there is a relationship between the severity of disease and soil microbial ecology. In this work, culturable microbial populations, lipid fatty acid and community-level physiological profiles (CLPP) from rhizosphere soils of four different cucumber cultivars were investigated. Comparatively higher actinomycetes, mycorrhizal colonization and higher ratios of bacteria to fungi were found in the two resistant cultivars compared with the two susceptible cultivars. CLPP analysis showed that catabolic diversity indices were higher in the presence of two resistant cultivars. Phospholipid fatty acid (PLFA) profiles suggested that fungal (18:2,6,9c) PLFA was enriched in the rhizosphere soils of the two susceptible cultivars, but some bacterial (16:0 and 15:0a) PLFAs were found in a lower relative abundance in these soils. The neutral lipid fatty acid 16:1,5, which is an indicator of arbuscular mycorrhizal fungi, was enriched in the rhizosphere soils of the two resistant cultivars. All the three methods suggested that plant genotype had a significant impact on the soil microbial community composition and activity, and the differences in the rhizosphere microbial community may result in the differences in the resistance to fusarium wilt. [source]

Biological and caregiver correlates of behavioral inhibition

INFANT AND CHILD DEVELOPMENT, Issue 1 2003
Ty Partridge
Abstract The aim of this study was to explore the relationships among measures of behavioral inhibition, physiological reactivity, and caregiver attitudes. Measures comprised of heart rate; survey assessments of caregiver empathy with the child, appropriateness of caregiver developmental expectations of the child, and use of positive discipline techniques; and observational measures of behavioral inhibition were gathered in a laboratory setting on 72, 5,6-year old children. It was found that heart rate and behavioral inhibition were positively correlated (0.595), whereas behavioral inhibition was negatively correlated with caregiver attitudes of empathy (,0.356), appropriate expectations (,0.366), and use of positive discipline techniques (,0.275). However, there was no correlation between heart rate and caregiver attitudes. These data suggest that physiological reactivity to novel stimuli and caregiver attitudes of empathy, appropriate expectations, and use of positive discipline techniques conjointly influence behavioral inhibition in early childhood. Further, these three caregiver variables accounted for significant variance in children who had high reactive physiological profiles associated with inhibited behavior patterns, but did not display such patterns. Copyright © 2003 John Wiley & Sons, Ltd. [source]

Key Issues Concerning Biolog Use for Aerobic and Anaerobic Freshwater Bacterial Community-Level Physiological Profiling

INTERNATIONAL REVIEW OF HYDROBIOLOGY, Issue 3 2006
Bradley W. Christian
Abstract Bacterial heterotrophy in aquatic ecosystems is important in the overall carbon cycle. Biolog MicroPlates provide information into the metabolic potential of bacteria involved in carbon cycling. Specifically, Biolog EcoPlatesÔ were developed with ecologically relevant carbon substrates to allow investigators to measure carbon substrate utilization patterns and develop community-level physiological profiles from natural bacterial assemblages. However, understanding of the functionality of these plates in freshwater research is limited. We explored several issues of EcoPlate use for freshwater bacterial assemblages including inoculum density, incubation temperature, non-bacterial color development, and substrate selectivity. Each of these has various effects on plate interpretation. We offer suggestions and techniques to resolve these interpretation issues. Lastly we propose a technique to allow EcoPlate use in anaerobic freshwater bacterial studies. (© 2006 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [source]

A New Pulsatile Volumetric Device With Biomorphic Valves for the In Vitro Study of the Cardiovascular System

ARTIFICIAL ORGANS, Issue 12 2009
Ettore Lanzarone
Abstract A pulsatile mock loop system was designed and tested. This prototype represents a versatile, adjustable, and controllable experimental apparatus for in vitro studies of devices meant to interface with the human circulatory system. The pumping system consisted of a ventricular chamber featuring two biomorphic silicone valves as the inlet and outlet valves. The chamber volume is forced by a piston pump moved by a computer-controlled, low-inertia motor. Fluid dynamic tests with the device were performed to simulate physiological conditions in terms of cardiac output (mean flow of 5 and 6 L/min, with beat rates from 60 to 80 bpm), of rheological properties of the processed fluid, and of systemic circulation impedance. The pulsating actuator performed a good replication of the physiological ventricular behavior and was able to guarantee easy control of the waveform parameters. Experimental pressure and flow tracings reliably simulated the physiological profiles, and no hemolytic subatmospheric pressures were revealed. The performance of the prototype valves was also studied in terms of dynamic and static backflow, effective orifice area, and pressure loss, resulting in their applicability for this device. Mechanical reliability was also tested over 8 h. The device proved to be a reliable lab apparatus for in vitro tests; the pumping system also represents a first step toward a possible future application of pulsating perfusion in the clinic arena, such as in short-term cardiac assist and pulsatile cardiopulmonary bypass. [source]