50 research outputs found

    Identification and management of chronic pain in primary care:a review

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    Chronic pain is a common, complex, and challenging condition, where understanding the biological, social, physical and psychological contexts is vital to successful outcomes in primary care. In managing chronic pain the focus is often on promoting rehabilitation and maximizing quality of life rather than achieving cure. Recent screening tools and brief intervention techniques can be effective in helping clinicians identify, stratify and manage both patients already living with chronic pain and those who are at risk of developing chronic pain from acute pain. Frequent assessment and reassessment are key to ensuring treatment is appropriate and safe, as well as minimizing and addressing side effects. Primary care management should be holistic and evidence-based (where possible) and incorporates both pharmacological and non-pharmacological approaches, including psychology, self-management, physiotherapy, peripheral nervous system stimulation, complementary therapies and comprehensive pain-management programmes. These may either be based wholly in primary care or supported by appropriate specialist referral

    Clinical- and cost-effectiveness of the STAR care pathway compared to usual care for patients with chronic pain after total knee replacement: study protocol for a UK randomised controlled trial.

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    Approximately 20% of patients experience chronic pain after total knee replacement. There is little evidence for effective interventions for the management of this pain, and current healthcare provision is patchy and inconsistent. Given the complexity of this condition, multimodal and individualised interventions matched to pain characteristics are needed. We have undertaken a comprehensive programme of work to develop a care pathway for patients with chronic pain after total knee replacement. This protocol describes the design of a randomised controlled trial to evaluate the clinical- and cost-effectiveness of a complex intervention care pathway compared with usual care.This article is freely available via Open Access. Click on the Additional Link above to access the full-text via the publisher's site

    Melting of complexes of DNA-cis-DDP in acidic environment

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    The Dependence of Cis-diamminedichloroplatinum(ii) Binding To Dna Upon the Gc Content - A Thermal and Spectrophotometric Investigation

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    The binding of cis-diamminedichloroplatinum(II) (cis-DDP) to DNA is investigated as a function of the GC content and of the cis-DDP concentration. Analysis of the melting curves and of the UV and CD spectra shows that binding of cis-DDP to DNA is highly sequence specific, GC rich DNAs being destabilized more effectively. At low levels of platination, stabilization of GC- and destabilization of AT-base pairs can be noted. In AT rich DNA, cis-DDP binding favours the B --> A conformational transition. It is also shown that, in addition to specific interactions between cis-DDP and DNA, several non-specific processes take place

    A New Point of View at the Destructive 1827 Tsaghkadzor Earthquake

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    The devastating earthquake of October 8, 1827, known as the “Tsaghkadzor earthquake”, was more powerful than previously imagined. As a result, not only churches in Tsaghkadzor and on the shores of Lake Sevan were destroyed, but also churches in other places in northeastern Armenia, as well as buildings in the city of Tbilisi. New estimates of earthquake parameters and a scheme of its isoseismals are presented

    Theoretical and Experimental-study of Dna Helix-coil Transition In Acidic and Alkaline-medium

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    The theoretical approach to the calculation of the influence of selective binding of small ligands on DNA helix-coil transition has been described in the previous paper (Lando D.Yu., J. Biomol. Struct. Dyn., (1994)). In the present paper that method is used for the study of DNA protonation and deprotonation in acidic and alkaline medium by theoretical analysis of pH effect on DNA heat denaturation. The mechanism of DNA protonation in acidic medium and pk values of nucleotides are well known. It gave us an opportunity to check the theory without any fitting of pK values. A good agreement between experimental and calculated functions T-m(pK) and Delta T(pH) (melting temperature and melting range width) obtained for acidic medium proved the validity of the theory. However, for alkaline medium there was not even qualitative agreement when the agreed-upon mechanism of deprotonation was considered. Looking into the cause of the discrepancy, we have studied the DNA melting for different mechanisms of deprotonation by calculation of T-m(pH) and Delta T(pH). As a result, it has been established that the discrepancy is due to deprotonation of bonded GC base pairs of helical DNA regions (pK=11). It was shown that the early known protonation and newly found deprotonation of helical DNA essentially stabilised double helix in alkaline and acidic medium
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