Behavioral circadian rhythms disintegrate progressively in the R6/2 mouse model of Huntington's disease (HD), recapitulating the sleep-wake disturbance seen in HD patients. Here we show that disturbances in circadian pacemaking are not restricted to the brain, but also encompass peripheral metabolic pathways in R6/2 mice. Notably, circadian rhythms of clock-driven genes that are key metabolic outputs in the liver are abolished in vivo. This deficiency is accompanied by arrhythmic expression of the clock genes Cry1 and Dbp, and a phase-advanced Per2 cycle. Compromised circadian metabolic cycles are not, however, a consequence of deficient pacemaking intrinsic to the liver, because when cultured in vitro, R6/2 liver slices exhibit self-sustained circadian bioluminescence rhythms. We therefore propose that compromised metabolic cycles arise from an internal desynchronization secondary to altered feeding patterns and impaired circadian signaling from the central pacemaker of the suprachiasmatic nucleus (SCN). Importantly, the SCN-independent food-entrainable oscillator remains intact in R6/2 mice and, when invoked, can restore daily behavioral cycles and reverse some of the metabolic abnormalities seen in the liver. Disturbances of metabolism have long been thought to be an important feature of HD. Uncoupling liver metabolism from circadian drives will reduce metabolic efficiency and cause imbalances in metabolites known to be deleterious to brain function. Thus, even subtle imbalances in liver function may exacerbate symptoms of HD, where neurological function is already compromised.
Huntington's disease (HD) is a fatal neurodegenerative disease characterized by motor, cognitive, and psychiatric disturbance. In this article, we used polysomnography, actigraphy and a variety of validated questionnaires to ascertain the extent to which sleep changes are identifiable and measurable in mild stage HD, and importantly, to see whether patients are negatively impacted by the changes in their sleep. We found significant differences in sleep architecture and sleep efficiency in patients compared with controls using polysomnography. However, patient scores on the Functional Outcomes of Sleep Questionnaire, Medical Outcomes of Sleep Scale, and Epworth Sleepiness Scale were not significantly different to controls. These results suggest that although marked changes in sleep architecture are present in early HD and can be detected using polysomnography, patients do not necessarily recognize or report these abnormalities.
The tibiotalar joint was not involved in 39% of the swollen ankles; and tenosynovitis, sometimes in isolation, was the dominant finding. This has implications for therapeutic intervention and also for an improved classification of children with JIA, especially with ankle involvement.
Prader-Willi Syndrome (PWS) is a genetically determined neurodevelopmental disorder associated with mild to moderate intellectual disability, growth and sex-hormone deficiencies and a propensity to overeat that leads to severe obesity. The PWS phenotype changes from an early disinterest in food to an increasing pre-occupation with eating and a failure of the normal satiety response to food intake. The prevention of severe obesity is primarily through strict control of access to food and it is this aspect that most limits the independence of those with PWS. This review considers the eating disorder in PWS, specifically how the as yet uncertain genetics of the syndrome and the transition from the early to the later phenotype might account for the later hyperphagia. On the basis of behavioural and imaging studies, a failure of satiety and excessive activation of neural reward pathways have both been suggested. We speculate that the overeating behaviour, consequent upon one or other of the above, could either be due to a direct effect of the PWS genotype on the feeding pathways of the hypothalamus or a consequence of prenatal changes in the regulation of genes responsible for energy balance that sets a high satiation threshold. Understanding the overeating in PWS will lead to more focused and successful management and ultimately, treatment of this life-threatening behaviour. International Journal of Obesity (2011) IntroductionWe review the present state of knowledge on the eating disorder and potential resultant life-threatening obesity that is associated with Prader-Willi Syndrome (PWS), a genetically determined neurodevelopmental disorder affecting 1 in 22-25 000 live births.1-3 The aims of the review are: first, to consider our understanding of the eating disorder associated with PWS primarily from a behavioural and neuroscience perspective; second, to speculate as to the possible mechanisms that might directly or indirectly link the PWS genotype to the 'eating' phenotype; and third, to reflect on the implications for future research and for treatment. We discuss the major theories that could account for eating behaviour and whether any of these adequately explain the complex array of characteristics that exist in PWS and fit with what we know about the pathophysiology and the genetics of the disorder. The main discussion items include considering PWS as a disorder of satiety, as well as theories of hyper-responsive rewards systems and over-sensitivity to food stimuli, as has been proposed in general obesity. Further, we consider the importance of the prenatal environment and examine the possibility that people with PWS have an altered inner physical awareness, as shown by abnormal pain responses, and how this may alter the eating behaviour. MethodThis review has been carried out through a search of relevant articles primarily on the PubMed search engine (www. pubmed.gov) using 'eating behaviour Prader-Willi syndrome OR Prader Willi syndrome' as the search term. As the eating behaviour is such a key feature of t...
Using US findings as the "gold standard," clinical examination of the ankle in children with JIA was found to be inadequate in identifying the structures involved. US assessment prior to any glucocorticoid injection should be considered to improve the outcome. A prospective study comparing the outcome following clinical- versus US-guided ankle joint injection should be undertaken, to confirm our findings.
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