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In Pain Research (in + pain_research)
Selected AbstractsNitric oxide and pain: ,Something old, something new'ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 9 2009A. MICLESCU Challenges have emerged following the revival of nitric oxide (NO) from ,something old', a simple gas derived from nitrogen and oxygen with a role in the early stages of evolution, into ,something new', an endogenously formed biological mediator regulating a wide variety of physiological functions. Although pain is a common sensation, it encompasses multiple neurobiologic components, of which NO is only one. In pain research, the study of NO is complicated by convoluted problems related mostly to the effects of NO, which are pro- or anti-nociceptive depending on the circumstances. This dual function reflects the multi-faceted roles of the NO molecule described in physiology. This review covers current information about NO and its implications in pain mechanisms. In addition, it follows the pain pathways, demonstrating the role of NO in peripheral nociceptive transmission as well in central sensitization. This knowledge may provide the scientific basis for developing new drugs that are indicated for different types of pain, drugs that may be related to the chemical links of NO. A comprehensive approach to understanding the effects of NO will help clinicians identify novel agents that combine the pharmacological profile of native drugs with a controllable manner of NO release. Inhibitors of NO synthesis may have analgesic effects and would be of interest for treating inflammatory and neuropathic pain. Unfortunately, only a few of these compounds have reached the stage of clinical pain trials. [source] The Child with Headache: Diagnosis and Treatment (Progress in Pain Research and Management, Vol.JOURNAL OF PAEDIATRICS AND CHILD HEALTH, Issue 6 2001[source] The Role of Quasi-Experimental Designs in Pain ResearchPAIN MEDICINE, Issue 2 2004Edward Gracely PhD No abstract is available for this article. [source] RNA interference in pain researchJOURNAL OF NEUROCHEMISTRY, Issue 2 2006Thomas Röhl Abstract Within the course of only the last few years, RNA interference (RNAi) has been established as a standard technology for investigation of protein function and target validation. The present review summarizes recent progress made in the application of RNAi in neurosciences with special emphasis on pain research. RNAi is a straightforward method to generate loss-of-function phenotypes for any gene of interest. In mammals, silencing is induced by small interfering RNAs (siRNAs), which have been shown to surpass traditional antisense molecules. Due to its high specificity, RNAi has the potential for subtype selective silencing of even closely related genes. One of the major challenges for in vivo investigations of RNAi remains efficient delivery of siRNA molecules to the relevant tissues and cells, particularly to the central nervous system. Various examples will be given to demonstrate that intrathecal application of siRNAs is a suitable approach to analyse the function of receptors or other proteins that are hypothesized to play an important role in pain signalling. Intensive efforts are currently ongoing to solve remaining problems such as the risk of off-target effects, the stability of siRNA molecules and their efficient delivery to the CNS. RNAi has thus demonstrated that it is an extremely valuable tool for the development of new analgesic drugs. [source] | ||||||||||