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Major Progress (major + progress)

Distribution by Scientific Domains
Medical Sciences50%
Humanities and Social Sciences33%

Selected Abstracts

Genetics of type 2 diabetes mellitus: status and perspectives

DIABETES OBESITY & METABOLISM, Issue 2 2005
Lars Hansen
Throughout the last decade, molecular genetic studies of non-autoimmune diabetes mellitus have contributed significantly to our present understanding of this disease's complex aetiopathogenesis. Monogenic forms of diabetes (maturity-onset diabetes of the young, MODY) have been identified and classified into MODY1,6 according to the mutated genes that by being expressed in the pancreatic ,-cells confirm at the molecular level the clinical presentation of MODY as a predominantly insulin secretory deficient form of diabetes mellitus. Genomewide linkage studies of presumed polygenic type 2 diabetic populations indicate that loci on chromosomes 1q, 5q, 8p, 10q, 12q and 20q contain susceptibility genes. Yet, so far, the only susceptibility gene, calpain-10 (CAPN10), which has been identified using genomewide linkage studies, is located on chromosome 2q37. Mutation analyses of selected ,candidate' susceptibility genes in various populations have also identified the widespread Pro12Ala variant of the peroxisome proliferator-activated receptor-, and the common Glu23Lys variant of the ATP-sensitive potassium channel, Kir6.2 (KCNJ11). These variants may contribute significantly to the risk type 2 diabetes conferring insulin resistance of liver, muscle and fat (Pro12Ala) and a relative insulin secretory deficiency (Glu23Lys). It is likely that, in the near future, the recent more detailed knowledge of the human genome and insights into its haploblocks together with the developments of high-throughput and cheap genotyping will facilitate the discovery of many more type 2 diabetes gene variants in study materials, which are statistically powered and phenotypically well characterized. The results of these efforts are likely to be the platform for major progress in the development of personalized antidiabetic drugs with higher efficacy and few side effects. [source]

Productive Restructuring and ,Standardization' in Mexican Horticulture: Consequences for Labour

JOURNAL OF AGRARIAN CHANGE, Issue 2 2010
HUBERT CARTON DE GRAMMONT
In this paper we discuss how the establishment of strict quality and food safety norms for horticulture to satisfy the current consumer demands has forced enterprises to invest in modifying their productive processes. In the light of the unavoidable trend in favour of consumers, we analyze the precarious situation of farm workers, a situation that is not in tune with the concept of decent work promoted by the International Labour Organization or with the Social Accountability Standard promoted by the United Nations. We conclude that the enterprises have achieved major progress in productive restructuring to comply with quality standards, but at the expense of their workers' salaries and living and working conditions. This contradiction between the well-being of the consumer and the misery of the worker is a fundamental characteristic explaining the current success of globalized agro-food systems. [source]

Dependence of interfacial strength on the anisotropic fiber properties of jute reinforced composites

POLYMER COMPOSITES, Issue 9 2010
J.L. Thomason
The upsurge in research on natural fiber composites over the past decade has not yet delivered any major progress in large scale replacement of glass fiber in volume engineering applications. This article presents data on injection-molded jute reinforced polypropylene and gives a balanced comparison with equivalent glass reinforced materials. The poor performance of natural fibers as reinforcements is discussed and both chemical modification of the matrix and mercerization and silane treatment of the fibers are shown to have little significant effect on their level of reinforcement of polypropylene in comparison to glass fibers. A hypothesis is proposed to explain the poor performance of natural fibers relating their low level of interfacial strength to the anisotropic internal fiber structure. POLYM. COMPOS., 31:1525,1534, 2010. © 2009 Society of Plastics Engineers [source]

Historical perspective: Neurological advances from studies of war injuries and illnesses,

ANNALS OF NEUROLOGY, Issue 4 2009
Douglas J. Lanska MD
Early in the 20th century during the Russo-Japanese War and World War I (WWI), some of the most important, lasting contributions to clinical neurology were descriptive clinical studies, especially those concerning war-related peripheral nerve disorders (eg, Hoffmann-Tinel sign, Guillain-Barré-Strohl syndrome [GBS]) and occipital bullet wounds (eg, the retinal projection on the cortex by Inouye and later by Holmes and Lister, and the functional partitioning of visual processes in the occipital cortex by Riddoch), but there were also other important descriptive studies concerning war-related aphasia, cerebellar injuries, and spinal cord injuries (eg, cerebellar injuries by Holmes, and autonomic dysreflexia by Head and Riddoch). Later progress, during and shortly after World War II (WWII), included major progress in understanding the pathophysiology of traumatic brain injuries by Denny-Brown, Russell, and Holbourn, pioneering accident injury studies by Cairns and Holbourn, promulgation of helmets to prevent motorcycle injuries by Cairns, development of comprehensive multidisciplinary neurorehabilitation by Rusk, and development of spinal cord injury care by Munro, Guttman, and Bors. These studies and developments were possible only because of the large number of cases that allowed individual physicians the opportunity to collect, collate, and synthesize observations of numerous cases in a short span of time. Such studies also required dedicated, disciplined, and knowledgeable investigators who made the most out of their opportunities to systematically assess large numbers of seriously ill and injured soldiers under stressful and often overtly dangerous situations. Ann Neurol 2009;66:444,459 [source]

The challenge of multiple sclerosis: How do we cure a chronic heterogeneous disease?,,

ANNALS OF NEUROLOGY, Issue 3 2009
Howard L. Weiner MD
Multiple sclerosis is (MS) a T-cell autoimmune disease characterized by a relapsing-remitting followed by a progressive phase. Relapses are driven by the adaptive immune system and involve waves of T helper cell 1 (Th1), Th17, and CD8 cells that infiltrate the nervous system and provoke a attack. These cells are modulated by regulatory T and B cells. Infiltration of T cells into the nervous system initiates a complex immunological cascade consisting of epitope spreading, which triggers new attacks, and activation of the innate immune system (microglia, dendritic cells, astrocytes, B cells), which leads to chronic inflammation. The secondary progressive phase is due to neurodegeneration triggered by inflammation and is driven by the innate immune system. Why a shift to the progressive stage occurs and how to prevent it is a central question in MS. Effective treatment of MS must affect multiple disease pathways: suppression of proinflammatory T cells, induction of regulatory T cells, altering traffic of cells into the nervous system, protecting axons and myelin, and controlling innate immune responses. Without biomarkers, the clinical and pathological heterogeneity of MS makes treatment difficult. Treatment is further hampered by untoward adverse effects caused by immune suppression. Nonetheless, major progress has been made in the understanding and treatment of MS. There are three definitions of cure as it applies to MS: (1) halt progression of disease, (2) reverse neurological deficits, and (3) prevent MS. Although the pathways to each of these cures are linked, each requires a unique strategy. Ann Neurol 2009;65:239,248 [source]

ON ISOTOPES AND OLD BONES*

ARCHAEOMETRY, Issue 6 2008
J. A. LEE-THORP
This review charts the developments and progress made in the application of stable light isotope tools to palaeodietary adaptations from the 1970s onwards. It begins with an outline of the main principles governing the distribution of stable light isotopes in foodwebs and the quality control issues specific to the calcified tissues used in these analyses, and then proceeds to describe the historical landmark studies that have marked major progress, either in their archaeological applications or in enhancing our understanding of the tools. They include the adoption of maize agriculture, marine-focused diets amongst coastal hunter,gatherers, trophic level amongst Glacial-period modern humans and Neanderthals, and the use of savannah resources by early hominins in Africa. Particular attention is given to the progress made in addressing the challenges that have arisen out of these studies, including issues related to the routing of dietary nutrients. I conclude with some firm, and some more speculative, pointers about where the field may be heading in the next decade or so. [source]