2,030 research outputs found
Mirror Therapy for the Alleviation of Phantom Limb Pain Following Amputation: A literature review
Introduction: Phantom Limb pain (PLP) affects up to 85% of all patients following an amputation, causing debilitating effects on their quality of life. Mirror Therapy (MT) has been reported to have potential success for the alleviation of PLP. Current understanding of PLP and the efficacy of MT for its alleviation are still unclear, therefore guidelines for treatment protocols are lacking. This literature review assesses the current best evidence for using MT to alleviate PLP of patients with amputation.
Method: The authors systematically searched the academic databases Medline, Amed, CINAHL and Google Scholar, using key search terms with inclusion and exclusion criteria to identify relevant articles on the use of MT in populations of patients suffering PLP after unilateral limb amputation.
Findings: Seven primary papers were identified and appraised. All the articles reported significant PLP alleviation after using MT with a trend for achieving phantom limb movement (PLM) prior to pain relief.
Conclusions: Mirror Therapy is a promising intervention for PLP. Regular MT sessions are required to maintain treatment effect. Causes of PLP and pathways to its alleviation may be multifactorial; therefore further well-conducted RCTs are required to identify best practice
Mirror Therapy for the Alleviation of Phantom Limb Pain Following Amputation: A literature review
Introduction: Phantom Limb pain (PLP) affects up to 85% of all patients following an amputation, causing debilitating effects on their quality of life. Mirror Therapy (MT) has been reported to have potential success for the alleviation of PLP. Current understanding of PLP and the efficacy of MT for its alleviation are still unclear, therefore guidelines for treatment protocols are lacking. This literature review assesses the current best evidence for using MT to alleviate PLP of patients with amputation.
Method: The authors systematically searched the academic databases Medline, Amed, CINAHL and Google Scholar, using key search terms with inclusion and exclusion criteria to identify relevant articles on the use of MT in populations of patients suffering PLP after unilateral limb amputation.
Findings: Seven primary papers were identified and appraised. All the articles reported significant PLP alleviation after using MT with a trend for achieving phantom limb movement (PLM) prior to pain relief.
Conclusions: Mirror Therapy is a promising intervention for PLP. Regular MT sessions are required to maintain treatment effect. Causes of PLP and pathways to its alleviation may be multifactorial; therefore further well-conducted RCTs are required to identify best practice
Shock Deformation in Zircon, a Comparison of Results from Shock-Reverberation and Single-Shock Experiments
The utility of the mineral zircon, ZrSiO4, as a shock-metamorphic geobarometer and geochronometer, has been steadily growing within the planetary science community. Zircon is an accessory phase found in many terrestrial rock types, lunar samples, lunar meteorites, martian meteorites and various other achondrites. Because zircon is refractory and has a high closure temperature for Pb diffusion, it has been used to determine the ages of some of the oldest material on Earth and elsewhere in the Solar System. Furthermore, major (O) and trace-element (REE, Ti, Hf) abundances and isotope compositions of zircon help characterize the petrogenetic environments and sources from which they crystallized. The response of zircon to impact-induced shock deformation is predominantly crystallographic, including dislocation creep and the formation of planar and sub-planar, low-angle grain boundaries; the formation of mechanical {112} twins; transformation to the high pressure polymorph reidite; the development of polycrystalline microtextures; and dissociation to the oxide constituents SiO2 and ZrO2. Shock microstructures can also variably affect the U- Pb isotope systematics of zircon and, in some instances, be used to constrain the impact age. While numerous studies have characterized shock deformation in zircon recovered from a variety of terrestrial impact craters and ejecta deposits and Apollo samples, experimental studies of shock deformation in zircon are limited to a handful of examples in the literature. In addition, the formation conditions (e.g., P, T) of various shock microstructures, such as planar-deformation bands, twins, and reidite lamellae, remain poorly con-strained. Furthermore, previous shocked-zircon experimental charges have not been analyzed using modern analytical equipment. This study will therefore under-take an new set of zircon shock experiments, which will then be microstructurally characterized using state-of-the-art instrumentation within the Astromaterials Research and Exploration Science Division (ARES), NASA Johnson Space Center
Effects of ErbB2 overexpression on the proteome and ErbB ligand-specific phosphosignalling in mammary luminal epithelial cells
Most breast cancers arise from luminal epithelial cells and 25-30% of these tumours overexpress the ErbB2/HER2 receptor which correlates with disease progression and poor prognosis. The mechanisms of ErbB2 signalling and the effects of its overexpression are not fully understood. Herein, SILAC expression profiling and phosphopeptide enrichment of a relevant, non-transformed, immortalized human mammary luminal epithelial cell model were used to profile ErbB2-dependent differences in protein expression and phosphorylation events triggered via EGFR (EGF treatment) and ErbB3 (HRG1β treatment) in the context of ErbB2 overexpression. Bioinformatics analysis was used to infer changes in cellular processes and signalling events. We demonstrate the complexity of the responses to oncogene expression and growth factor signalling and identify protein changes relevant to ErbB2-dependent altered cellular phenotype, in particular cell cycle progression and hyper-proliferation, reduced adhesion and enhanced motility. Moreover, we define a novel mechanism by which ErbB signalling suppresses basal interferon signalling that would promote the survival and proliferation of mammary luminal epithelial cells. Numerous novel sites of growth factor-regulated phosphorylation were identified that were enhanced by ErbB2 overexpression and we putatively link these to altered cell behaviour and also highlight the importance of performing parallel protein expression profiling alongside phosphoproteomic analysis
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Advances in mass spectrometry-based cancer research and analysis: from cancer proteomics to clinical diagnostics
Introduction: The last 20 years have seen significant improvements in the analytical capabilities of biological mass spectrometry. Studies using advanced mass spectrometry (MS) have resulted in new insights into cell biology and the aetiology of diseases as well as its use in clinical applications.
Areas Covered: This review will discuss recent developments in MS-based technologies and their cancer-related applications with a focus on proteomics. It will also discuss the issues around translating the research findings to the clinic and provide an outline of where the field is moving.
Expert Opinion: Proteomics has been problematic to adapt for the clinical setting. However, MS-based techniques continue to demonstrate potential in novel clinical uses beyond classical cancer proteomics
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Position-effect variegation revisited: HUSHing up heterochromatin in human cells.
Much of what we understand about heterochromatin formation in mammals has been extrapolated from forward genetic screens for modifiers of position-effect variegation (PEV) in the fruit fly Drosophila melanogaster. The recent identification of the HUSH (Human Silencing Hub) complex suggests that more recent evolutionary developments contribute to the mechanisms underlying PEV in human cells. Although HUSH-mediated repression also involves heterochromatin spreading through the reading and writing of the repressive H3K9me3 histone modification, clear orthologues of HUSH subunits are not found in Drosophila but are conserved in vertebrates. Here we compare the insights into the mechanisms of PEV derived from genetic screens in the fly, the mouse and in human cells, review what is currently known about the HUSH complex and discuss the implications of HUSH-mediated silencing for viral latency. Future studies will provide mechanistic insight into HUSH complex function and reveal the relationship between HUSH and other epigenetic silencing complexes.This work was funded by a Wellcome Trust Principal Research Fellowship to P.J.L. (084957/Z/08/Z) and a Wellcome Trust PhD studentship to I.A.T. The Cambridge Institute for Medical Research is in receipt of a Wellcome Trust Strategic Award.This is the author accepted manuscript. The final version is available from Wiley via http://dx.doi.org/10.1002/bies.20150018
Identification of a serum biomarker panel for the differential diagnosis of cholangiocarcinoma and primary sclerosing cholagnitis
The non-invasive differentiation of malignant and benign biliary disease is a clinical challenge. Carbohydrate antigen 19-9 (CA19-9), leucine-rich α2-glycoprotein (LRG1), interleukin 6 (IL6), pyruvate kinase M2 (PKM2), cytokeratin 19 fragment (CYFRA21.1) and mucin 5AC (MUC5AC) have reported utility for differentiating cholangiocarcinoma (CCA) from benign biliary disease. Herein, serum levels of these markers were tested in 66 cases of CCA and 62 cases of primary sclerosing cholangitis (PSC) and compared with markers of liver function and inflammation. Markers panels were assessed for their ability to discriminate malignant and benign disease. Several of the markers were also assessed in pre-diagnosis biliary tract cancer (BTC) samples with performances evaluated at different times prior to diagnosis. We show that LRG1 and IL6 were unable to accurately distinguish CCA from PSC, whereas CA19-9, PKM2, CYFRA21.1 and MUC5AC were significantly elevated in malignancy. Area under the receiver operating characteristic curves for these individual markers ranged from 0.73–0.84, with the best single marker (PKM2) providing 61% sensitivity at 90% specificity. A panel combining PKM2, CYFRA21.1 and MUC5AC gave 76% sensitivity at 90% specificity, which increased to 82% sensitivity by adding gamma-glutamyltransferase (GGT). In the pre-diagnosis setting, LRG1, IL6 and PKM2 were poor predictors of BTC, whilst CA19-9 and C-reactive protein were elevated up to 2 years before diagnosis. In conclusion, LRG1, IL6 and PKM2 were not useful for early detection of BTC, whilst a model combining PKM2, CYFRA21.1, MUC5AC and GGT was beneficial in differentiating malignant from benign biliary disease, warranting validation in a prospective trial
Diagnosing GORD in Respiratory Medicine
Gastroesophageal reflux disease (GORD) is increasing in prevalence and is highly associated with several lung diseases such as asthma and COPD. Current diagnostic methods are imperfect, being insensitive, non-specific, expensive, or invasive. An accurate diagnosis of GORD can aid effective treatment and have significant clinical impact. Novel methods such as exhaled breath condensate analysis and electronic nose technology have the potential to improve the accuracy of diagnosing GORD
Energy-saving compression valve of the rock drill
The relevance of the research is due to the necessity to create pneumatic rock drills with low air consumption. The article analyzes the reasons for low efficiency of percussive machines. The authors state that applying a single distribution body in the percussive mechanism does not allow carrying out a low-energy operating cycle of the mechanism. Using the studied device as an example, it is substantiated that applying a compression valve with two distribution bodies separately operating the working chambers makes it possible to significantly reduce the airflow. The authors describe the construction of a core drill percussive mechanism and the operation of a compression valve. It is shown that in the new percussive mechanism working chambers are cut off the circuit by the time when exhaust windows are opened by the piston and air is not supplied into the cylinder up to 20% of the cycle time. The air flow rate of the new mechanism was 3.8 m3/min. In comparison with the drill PK-75, the overall noise level of the new machine is lower by 8-10 dB, while the percussive mechanism efficiency is 2.3 times higher
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