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Several Means (several + mean)

Distribution by Scientific Domains
Medical Sciences57%
Chemistry28%

Selected Abstracts

Spillover Dynamics of Central Bank Interventions

GERMAN ECONOMIC REVIEW, Issue 4 2004
Frank H. Westerhoff
Foreign exchange markets; central bank intervention; technical and fundamental analysis Abstract. Central banks frequently intervene in foreign exchange markets to reduce volatility or to correct misalignments. Such operations may be successful if they drive away destabilizing speculators. However, the speculators do not simply vanish but may reappear on other foreign exchange markets. Using a model in which traders are able to switch between foreign exchange markets, we demonstrate that while a central bank indeed has several means at hand to stabilize a specific market, the variability of the other markets depends on how the interventions are implemented. [source]

EFFECT OF LACTIC ACID AND LACTIC ACID BACTERIA TREATMENT ON MYOFIBRILLAR PROTEIN DEGRADATION AND DYNAMIC RHEOLOGY OF BEEF

JOURNAL OF TEXTURE STUDIES, Issue 3 2007
M. SIGNORINI
ABSTRACT Lactic acid has been used as an efficient decontaminant in meats aimed for direct consumption or product fabrication. However, reports on the functionality of proteins extracted from lactic acid-treated meat are scattered. The objective of this work was to study the degradation and gelling ability of myofibrillar protein extracts obtained from beef treated with lactic acid of chemical and microbial origins, stored at 4 and 20C. The gelling ability was considerably reduced by lactic acid treatment as a result of protein denaturation in acid conditions at both storage temperatures. Scanning electron microscopy showed loose structures resulting in low penetration resistance and storage modulus. Treatments with lactic acid or lactic acid bacteria (LAB) had similar effect on tan,, affecting gel rigidity but not elasticity. Penetration in gels obtained from LAB-treated meat was highly correlated with myosin degradation. Lactobacillus carnis -treated meat produced compact gels with high penetration resistance and storage modulus, although the structure became looser with storage time. LAB treatment, although not as efficient as lactic acid as a meat preservative, is a milder process causing less severe changes in meat structure rheology. PRACTICAL APPLICATIONS The potential of lactic fermentation by selected strains is somewhat limited as compared to lactic acid preservation of meat substrates, regarding pH reduction and its consequence on pathogens and spoilage microorganism population reduction. However, lactic acid bacteria (LAB) treatments are milder; therefore, changes in protein structure and rheology are less severe. Lactic acid in its chemical form promotes protein changes, whereas LAB does not. As myofibrillar protein configuration is responsible for most meat functional properties, such as gel and emulsion formation, it is important that protein structure remains unchanged as much as possible. Using nonproteolytic strains, protein degradation can only be altered by endogenous or bacteria-produced enzymes, which can be inhibited by several means. Meat preservation by lactic fermentation with selected strains can be an alternative when keeping meat protein functional properties unaltered. [source]

RT08 Population PK and PK/PD investigations and Monte Carlo simulations for a rational dosage regimen

JOURNAL OF VETERINARY PHARMACOLOGY & THERAPEUTICS, Issue 2006
P. L. TOUTAIN
Objective There are several means whereby dosage schedules for clinical use may be set, some more appropriate and scientific than others! The challenge of the 21st century must be for colleagues in the pharmaceutical industry, those serving registration bodies and academic colleagues to pool their expertise with the objective of designing dosage schedules for clinical use, which are based on the application of sound scientific principles appropriate for each drug class. In this Roundtable Session colleagues of international standing will review (a) pharmacological and other sources of variability in the responses to drugs; (b) the advantages and limitations of pre-clinical studies for dose selection; (c) the roles of population PK and population PK/PD together with Monte Carlo simulations in dosage regimen selection; (d) Bayesian approaches to dosage selection and (e) regulatory guidelines on the type and extent of studies required for selecting dosages. There is no unanimity amongst stakeholders on either the principles or the methods underlying dosage schedule design. Dose titration studies have long been the principal means of fixing doses but PK-PD and population PK-PD studies are now challenging more traditional approaches. The papers and discussion in this Roundtable Session will provide a critical basis for future advances in this crucial area of therapeutic drug usage. Getting the doses right means that the patient will receive maximum benefit, in terms of optimal efficacy with minimal toxicity, and hence correct dosing will contribute enormously to animal welfare. [source]

RT09 Bayesian approaches in dosage selection

JOURNAL OF VETERINARY PHARMACOLOGY & THERAPEUTICS, Issue 2006
D. CONCORDET
Objective There are several means whereby dosage schedules for clinical use may be set, some more appropriate and scientific than others! The challenge of the 21st century must be for colleagues in the pharmaceutical industry, those serving registration bodies and academic colleagues to pool their expertise with the objective of designing dosage schedules for clinical use, which are based on the application of sound scientific principles appropriate for each drug class. In this Roundtable Session colleagues of international standing will review (a) pharmacological and other sources of variability in the responses to drugs; (b) the advantages and limitations of pre-clinical studies for dose selection; (c) the roles of population PK and population PK/PD together with Monte Carlo simulations in dosage regimen selection; (d) Bayesian approaches to dosage selection and (e) regulatory guidelines on the type and extent of studies required for selecting dosages. There is no unanimity amongst stakeholders on either the principles or the methods underlying dosage schedule design. Dose titration studies have long been the principal means of fixing doses but PK-PD and population PK-PD studies are now challenging more traditional approaches. The papers and discussion in this Roundtable Session will provide a critical basis for future advances in this crucial area of therapeutic drug usage. Getting the doses right means that the patient will receive maximum benefit, in terms of optimal efficacy with minimal toxicity, and hence correct dosing will contribute enormously to animal welfare. [source]

What is the basis of transmissible spongiform encephalopathy induced neurodegeneration and can it be repaired?

NEUROPATHOLOGY & APPLIED NEUROBIOLOGY, Issue 1 2002
J. R. FraserArticle first published online: 8 APR 200
Once an animal becomes infected with a prion disease, or transmissible spongiform encephalopathy (TSE), the progression of infection is relentless and inevitably fatal, although often with such prolonged incubation periods that an alternative cause of death can intervene. Infection has been compared to ,setting a clock' which then runs inexorably as the disease spreads, usually through the lymphoreticular system and then via peripheral nerves to the central nervous system (CNS), although the mechanism controlling the protracted progression is not known. Clinical disease develops as characteristic degenerative changes in the CNS progress, but the molecular basis for this pathology is not clear, particularly the relationship between the deposition of abnormal PrP and neuronal dysfunction. Recent research has identified several means of slowing (if not stopping) the clock when infection has not yet reached the CNS; although the potential for later stage therapies seems limited, neuroprotective strategies which have been shown to be effective in other neurodegenerative conditions may also ameliorate TSE induced CNS pathology. This review focuses on our current knowledge of the key events following infection of the CNS and the opportunities for intervention once the CNS has become infected. [source]

Regulation of innate and acquired immunity in African trypanosomiasis

PARASITE IMMUNOLOGY, Issue 10-11 2005
J. M. MANSFIELD
SUMMARY African trypanosomes are well known for their ability to avoid immune elimination by switching the immunodominant variant surface glycoprotein (VSG) coat during infection. However, antigenic variation is only one of several means by which trypanosomes manipulate the immune system of their hosts. In this article, the role of parasite factors such as GPI anchor residues of the shed VSG molecule and the release of CpG DNA, in addition to host factors such as IFN-,, in regulating key aspects of innate and acquired immunity during infection is examined. The biological relevance of these immunoregulatory events is discussed in the context of host and parasite survival. [source]

SPLASH: Systematic proteomics laboratory analysis and storage hub

PROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 6 2006
Siaw Ling Lo
Abstract In the field of proteomics, the increasing difficulty to unify the data format, due to the different platforms/instrumentation and laboratory documentation systems, greatly hinders experimental data verification, exchange, and comparison. Therefore, it is essential to establish standard formats for every necessary aspect of proteomics data. One of the recently published data models is the proteomics experiment data repository [Taylor, C. F., Paton, N. W., Garwood, K. L., Kirby, P. D. et,al., Nat. Biotechnol. 2003, 21, 247,254]. Compliant with this format, we developed the systematic proteomics laboratory analysis and storage hub (SPLASH) database system as an informatics infrastructure to support proteomics studies. It consists of three modules and provides proteomics researchers a common platform to store, manage, search, analyze, and exchange their data. (i),Data maintenance includes experimental data entry and update, uploading of experimental results in batch mode, and data exchange in the original PEDRo format. (ii),The data search module provides several means to search the database, to view either the protein information or the differential expression display by clicking on a gel image. (iii),The data mining module contains tools that perform biochemical pathway, statistics-associated gene ontology, and other comparative analyses for all the sample sets to interpret its biological meaning. These features make SPLASH a practical and powerful tool for the proteomics community. [source]