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Similar Impact (similar + impact)

Distribution by Scientific Domains
Medical Sciences37%
Life Sciences25%

Selected Abstracts

Original article: Quality of life after esophagectomy and endoscopic therapy for Barrett's esophagus with dysplasia

DISEASES OF THE ESOPHAGUS, Issue 6 2010
D. Schembre
SUMMARY Esophagectomy (EG) and endoscopic therapy (ET) can eradicate Barrett's esophagus with early neoplasia. Their relative effect on quality of life is unknown. The 36-item Short Form Health Survey (SF-36) and Gastrointestinal Quality of Life Index (GIQLI) questionnaires were sent to all patients who underwent either EG or ET at our institution over the last 9 years. Groups were stratified by age and American Society of Anesthesia (ASA) class. Surveys were sent to 77 patients and completed by 14 EG (50%) and by 28 ET patients (57%). The average time between treatment and survey was 4 years in the ET group and 5 years in the EG group. There were no significant differences in SF-36 scores between EG and ET patients except for superior physical functioning among EG patients 65 and older QOL scores among EG and ET groups were not significantly different than sex age-matched controls. GIQLI scores were similar between ET and EG patients of all ages (P= 0.60). GIQLI scores were higher among younger ET patients than young EG patients (P= 0.049). GIQLI scores also tended to be higher among ASA 1 and 2 ET patients than ASA 1 and 2 EG patients, but this did not reach statistical significance (P= 0.09). EG and ET for early Barrett's neoplasia appear to have similar impact on QOL 1 year or more after treatment compared with age-matched controls. Negative QOL impact appears to be greater for younger patients undergoing EG than for ET. [source]

Invasions and niche width: does niche width of an introduced crayfish differ from a native crayfish?

FRESHWATER BIOLOGY, Issue 8 2009
KARIN OLSSON
Summary 1. Human activities have promoted the spread of species worldwide. Several crayfish species have been introduced into new areas, posing a threat to native crayfish and other biota. Invader success may depend on the ability to utilise a wide variety of habitats and resources. Successful invaders are generally expected to have broader niches and to be more plastic than non-invasive species. 2. Using stable isotope ratios of carbon and nitrogen we compared the niche widths of native noble crayfish and introduced signal crayfish, a successful invader of Swedish streams. The calculation of niche width took account of between-site differences in basal resource isotope signature ranges. We also assessed whether population density, prey biomass or prey diversity affected niche width. 3. At the species level, signal crayfish had twice the niche width of noble crayfish. However, individual populations of noble crayfish and signal crayfish in Swedish streams had similar niche widths. This suggests that signal crayfish has greater plasticity with respect to habitat utilisation and feeding than noble crayfish. Niche width in both species correlated positively with benthic invertebrate biomass and diversity, indicating that animal food sources are important for crayfish. 4. We find that assessing niche width in relation to invader success can be a useful tool trying to predict the impact of invasions on different scales. The findings in this study suggest that invaders and natives will have a similar impact on the stream scale whereas the invader will have a larger impact on the regional scale due to the ability to utilise a wider range of streams. [source]

The geometry of fan-deltas and related turbidites in narrow linear basins

GEOLOGICAL JOURNAL, Issue 1 2003
Abraham Zelilidis
Abstract The sediment distribution in three narrow, linear basins, two modern and one ancient, in Greece and Italy, was studied and related to changes in basin configuration. The basins are the Plio-Quaternary Patras,Corinth graben, the Pliocene,Quaternary Reggio,Scilla graben and the middle Tertiary Mesohellenic piggy-back basin. These basins were formed at different times and under different geodynamic conditions, but in each case, the tectonic evolution produced a narrow area in the basin where the water depth decreased dramatically, forming a strait with a sill. This strait divided the basin into major and minor sub-basins, and the strait has a similar impact on sedimentary environments in all three basins, even though different depositional environments were formed along the initial basin axis. Predictions for the development of depositional environments in the two modern basins, especially in their straits, are based on the studied ancient basin. In the straits, powerful tidal flows will transport finer sediments to sub-basins and trapezoidal-type fan-deltas will gradually fill up and choke the strait through time. In sub-basins, according to basin depth, either deltaic (in the shallow minor sub-basin) or turbiditic (in the deep major sub-basin) deposits may accumulate. Moreover, an extensive shelf is likely to develop between the strait and major sub-basin. This shelf will be cross-cut by canyons and characterized by thin fine- to coarse-grained deposits. These sediment models could be applied to analogous basin geometries around the world. Copyright © 2003 John Wiley & Sons, Ltd. [source]

The credit crunch , the right time for credit unions to strike?

LEGAL STUDIES, Issue 1 2009
Dr Nicholas Ryder
The origins of the cooperative movement can be traced to the Rochdale Society of Equitable Pioneers in 1844, from which similar institutions emerged in Central Europe, the North American continent and the rest of the world. Modern credit unions evolved from these small cooperative societies and have developed into mainstream providers of financial services in many jurisdictions. However, credit unions in the UK have not made a similar impact. There are several factors that have limited their growth , an inadequate legislative framework, an ineffective credit union regulatory system, inappropriate development models, an over-reliance on state subsidies and a disunited movement. The aim of this paper is to re-examine these factors in light of the level of political support provided by the government since 1997. [source]

The Impact of C4d Pattern and Donor-Specific Antibody on Graft Survival in Recipients Requiring Indication Renal Allograft Biopsy

AMERICAN JOURNAL OF TRANSPLANTATION, Issue 12 2009
A. Haririan
We examined the pattern of PTC C4d by immunohistochemistry and DSA in 297 kidney recipients with indication biopsies, and evaluated their predictive value for graft survival. Median biopsy time was 5.1 months posttransplant. Patients were followed for 17.9 ± 9.4 months postbiopsy. An 18.5% had focal and 15.2% had diffuse C4d, with comparable graft survival (adjusted graft failure HR: 2.3, p = 0.001; HR:1.9, p < 0.02, respectively). 31.3% were DSA+, 19.5% class I and 22.9% class II DSA. Only those with class II DSA had worse outcome (adjusted HR:2.5, p = 0.001 for class II only; HR:2.7, p < 0.001 for class I/II DSA). Among patients with <10%C4d, 23.9% had DSA, compared to 68.9% with diffuse staining. For patients biopsied in first-year posttransplant presence of DSA, regardless of C4d positivity in biopsy, was a poor prognostic factor (adjusted graft failure HR: 4.2, p < 0.02 for C4d,/DSA+; HR:4.9, p = 0.001 for C4d+/DSA+), unlike those biopsied later. We have shown that focal C4d had similar impact on graft survival as diffuse pattern. During the first-year posttransplant either class I or II DSA, and afterward only class II DSA were associated with worse graft survival. DSA was predictive of worse outcome regardless of C4d for patients biopsied in first year and only with C4d positivity afterward, supporting the importance of assessment of both DSA and C4d pattern in biopsy. [source]

Off-Target Effects Related to the Phosphorothioate Modification of Nucleic Acids

CHEMMEDCHEM, Issue 8 2010
Johannes Winkler Dr.
Abstract Phosphorothioate antisense oligonucleotides have been widely used in clinical studies for rational sequence-specific gene silencing. However, several sequence-unspecific off-target effects have been recently described for this compound class. In contrast to siRNA-mediated knockdown of the same gene, the bcl-2 -targeted oblimersen (Genasense, G3139) downregulates a number of proteins involved in apoptotic resistance and several glycolytic enzymes in 607B human melanoma cells. Regardless of their target, phosphorothioate-modified antisense and siRNA compounds, but not oligonucleotides with a phosphodiester backbone, resulted in a similar impact on the proteome. Unspecifically downregulated proteins include cancer markers involved in apoptotic resistance and endoplasmatic reticulum (ER) stress such as the 78,kDa glucose regulated protein (GRP,78), protein disulfide isomerase,A3 (PDIA3, GRP,58), calumenin, and galectin-1, as well as the glycolytic enzymes triose phosphate isomerase, glyceraldehyde phosphodehydrogenase, and phosphoglycerate mutase. The depletion of the glycolytic enzymes is reflected by a decrease in L -lactate production, indicating a partial reversal of the Warburg effect. Compared with other phosphorothioate oligonucleotides, oblimersen generally led to a more pronounced effect both in terms of the number of influenced proteins and the extent of downregulation, suggesting a synergistic effect of Bcl-2 downregulation. [source]

Marine range shifts and species introductions: comparative spread rates and community impacts

GLOBAL ECOLOGY, Issue 3 2010
Cascade J. B. Sorte
ABSTRACT Aim, Shifts in species ranges are a predicted and realized effect of global climate change; however, few studies have addressed the rates and consequence of such shifts, particularly in marine systems. Given ecological similarities between shifting and introduced species, we examined how our understanding of range shifts may be informed by the more established study of non-native species introductions. Location, Marine systems world-wide. Methods, Database and citation searches were used to identify 129 marine species experiencing range shifts and to determine spread rates and impacts on recipient communities. Analyses of spread rates were based on studies for which post-establishment spread was reported in linear distance. The sizes of the effects of community impacts of shifting species were compared with those of functionally similar introduced species having ecologically similar impacts. Results, Our review and meta-analyses revealed that: (1) 75% of the range shifts found through the database search were in the poleward direction, consistent with climate change scenarios, (2) spread rates of range shifts were lower than those of introductions, (3) shifting species spread over an order of magnitude faster in marine than in terrestrial systems, and (4) directions of community effects were largely negative and magnitudes were often similar for shifters and introduced species; however, this comparison was limited by few data for range-shifting species. Main conclusions, Although marine range shifts are likely to proceed more slowly than marine introductions, the community-level effects could be as great, and in the same direction, as those of introduced species. Because it is well-established that introduced species are a primary threat to global biodiversity, it follows that, just like introductions, range shifts have the potential to seriously affect biological systems. In addition, given that ranges shift faster in marine than terrestrial environments, marine communities might be affected faster than terrestrial ones as species shift with climate change. Regardless of habitat, consideration of range shifts in the context of invasion biology can improve our understanding of what to expect from climate change-driven shifts as well as provide tools for formal assessment of risks to community structure and function. [source]

MicroRNA in the immune system, microRNA as an immune system

IMMUNOLOGY, Issue 3 2009
Li-Fan Lu
Summary The advent of microRNA has potentially uncovered a new level of complexity to be considered for every biological process. Through the modulation of transcription and translation, microRNA alter the basal state of cells and the outcome of stimulatory events. The exact effect of the microRNA network and individual microRNA on cellular processes is only just starting to be dissected. In the immune system, microRNA appear to have a key role in the early differentiation and effector differentiation of B cells. In T cells, microRNA have been shown to be key regulators of the lineage induction pathways, and to have a strong role in the induction, function and maintenance of the regulatory T-cell lineage. MicroRNA are also important for regulating the differentiation of dendritic cells and macrophages via toll-like receptors, with responsibilities in suppressing effector function before activation and enhancing function after stimulation. In addition to regulating key processes in the immune system, microRNA may also represent an archaic immune system themselves. Small interfering RNA of viral origin has been shown to function as an intracellular mediator in the suppression of viral infection in eukaryotes as diverse as plants, insects, nematodes and fungi, and there is growing evidence that endogenous mammalian microRNA can have similar impacts. In this article we speculate that the anti-viral function of microRNA drove the expression of different subsets of microRNA in different cellular lineages, which may have, in turn, led to the myriad of roles microRNA play in lineage differentiation and stability. [source]