Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Excessive daytime sleepiness and sleep disorders, including sleep apnea syndrome, restless legs syndrome, and periodic limb movement disorder, occur with increased frequency in patients with end-stage renal disease (ESRD). The detection and management of sleep disorders in ESRD patients is often challenging but may have significant clinical benefits. Some of the poor quality of life in ESRD may be attributed to the presence of concomitant sleep disorders, yet the classical symptoms of sleep disorders (poor concentration, daytime sleepiness, and insomnia) are often ascribed to the uremic syndrome itself. Conventional risk factors and screening tools used in the diagnosis of sleep disorders seem to have limited applicability in dialysis patients implicating the unique pathophysiology of sleep disorders in ESRD. Emerging evidence suggests that sleep apnea may contribute to the augmented cardiovascular event rates and to the accelerated development of atherosclerosis in ESRD. Whether treatment of sleep disorders in ESRD patients can affect the high morbidity and mortality of ESRD patients has yet to be elucidated. To date, conventional renal replacement therapies do not appear to have a significant impact on the treatment of sleep disorders in ESRD. The promising therapeutic effects of optimal uremia control in the forms of nocturnal hemodialysis and renal transplantation on sleep disorders require further mechanistic and clinical studies.
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PMID:Sleep disorders in end-stage renal disease: 'Markers of inadequate dialysis'? 1696 88

In spite of a progressive fall in the incidence of traditional risk factors of cardiovascular morbidity (cigarette smoking, high blood pressure, and hyperlipidemia), there is an upward trend in the prevalence of obesity and chronic kidney disease (CKD). Furthermore, there is a strong correlation between body mass indices and the relative risk of progression of CKD. The close biophysiological interaction between obesity and CKD is evident by a similar occurrence of comorbidities including insulin resistance, hyperlipidermia, endothelial dysfunction, and sleep disorders. Truncal obesity is a primary component of metabolic syndrome; unlike peripheral fat, the visceral adipocytes are more resistant to insulin. In addition, lipolysis results in a release of free fatty acid and TG, whereas hypertriglycedemia is potentiated by uremic activation of fatty acid synthase. Hypertriglycedemia and low HDL cholesterol increase the relative risk of progression of CKD. Furthermore, endothelial inflammation and premature atherosclerosis are promoted by hyperhomocysteinemia and oxidation of LDL, both of which are commonly observed in CKD and obesity. Predominance of oxidative stress in both obesity and azotemia stimulate synthesis of angiotensin II, which in turn increases TGF-B and plasminogen activator inhibitor-1, thereby propagating glomerular fibrosis. Furthermore, local synthesis of angiotensinogen by adipocytes, leptin activation of sympathetic nervous system, and hyperinsulinemia contribute to the development of hypertension in obesity and CKD. In addition, increased renal tubular expression of Na-K-ATPase and a blunted response to natiuretic hormones in obesity promote salt and water retention. Glomerular hyperfiltration from systemic volume load and hypertension results in mesangial cellular proliferation and progressive renal fibrosis. In addition, maternal nutritional deprivation increases the incidence of obesity, hypertension, and diabetes in adulthood. Reduced fetal protein synthesis contributes to oxidative glomerular injury and impairment of renal morphogenesis. Thus, kidneys are poorly equipped to handle physiologic stress that may result from the rapid body growth and programmed metabolic dysfunction later in life. Finally, in order to minimize morbidity of obesity-related kidney disease, preventive strategy must include optimal maternal health care, promotion of healthy nutrition and routine physical exercise, and early detection of CKD.
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PMID:The role of obesity and its bioclinical correlates in the progression of chronic kidney disease. 1704 21

Obstructive sleep apnea is characterized by episodes of intermittent hypoxia that occur while the afflicted person sleeps, and is believed to affect and have a negative impact on many people worldwide. Both observational evidence in obstructive sleep apnea patients and direct studies in mice mimicking the disease strongly support an increased risk for atherosclerosis in these groups. Studies to date on atherosclerosis in obstructive sleep apnea have been focused on cholesterol synthesis. However, dysregulation of bile acid synthesis, which is an important means of cholesterol removal, has not been considered in any sleep disorder model to date. While the relationship between hypoxia and bile acid regulation has been explored in a variety of models, no unifying theory currently ties in the pathologic effect of intermittent hypoxia on bile acid regulation in humans or animals. The goal of this article is to propose the role intermittent hypoxia plays in disrupting bile acid synthesis in patients with obstructive sleep apnea, and its metabolic consequences. Reviewed and discussed are the complex interactions of several key molecular players known to be involved in metabolism with emphasis on the principle bile acid synthesis enzyme, cholesterol 7-alpha-hydroxylase, which is proposed to have reduced activity under hypoxic conditions. Furthermore, the metabolic consequences of reduced levels of active peroxisome proliferator-activated receptor-gamma co-activator-1alpha (PGC-1alpha) under hypoxia, and hypothetically in obstructive sleep apnea, are explored. A better molecular understanding of bile acid synthesis and metabolic dysregulation in this context will hopefully promote the study of new targets in human sleep apneas, and encourage clinical trials using existing therapeutic and dietary interventions in patients afflicted with these conditions.
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PMID:Down-regulation of bile acid synthesis and a metabolic co-activator under hypoxic conditions - implications in obstructive sleep apnea. 1864 Jul 90

Obstructive sleep apnea (OSA) is a highly prevalent sleep disorder leading to cardiovascular and metabolic complications. OSA is also a multicomponent disorder, with intermittent hypoxia (IH) as the main trigger for the associated cardiovascular and metabolic alterations. Indeed, recurrent pharyngeal collapses during sleep lead to repetitive sequences of hypoxia-reoxygenation. This IH induces several consequences such as hemodynamic, hormonometabolic, oxidative, and immuno-inflammatory alterations that may interact and aggravate each other, resulting in artery changes, from adaptive to degenerative atherosclerotic remodeling. Atherosclerosis has been found in OSA patients free of other cardiovascular risk factors and is related to the severity of nocturnal hypoxia. Early stages of artery alteration, including functional and structural changes, have been evidenced in both OSA patients and rodents experimentally exposed to IH. Impaired vasoreactivity with endothelial dysfunction and/or increased vasoconstrictive responses due to sympathetic, endothelin, and renin-angiotensin systems have been reported and also contribute to vascular remodeling and inflammation. Oxidative stress, inflammation, and vascular remodeling can be directly triggered by IH, further aggravated by the OSA-associated hormonometabolic alterations, such as insulin resistance, dyslipidemia, and adipokine imbalance. As shown in OSA patients and in the animal model, genetic susceptibility, comorbidities (obesity), and life habits (high fat diet) may aggravate atherosclerosis development or progression. The intimate molecular mechanisms are still largely unknown, and their understanding may contribute to delineate new targets for prevention strategies and/or development of new treatment of OSA-related atherosclerosis, especially in patients at risk for cardiovascular disease.
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PMID:Obstructive sleep apnea, immuno-inflammation, and atherosclerosis. 1940 44

Obstructive sleep apnea syndrome (OSAS) is an often underestimated sleep disorder that has been associated with cardiovascular disease. OSAS is characterized by cycles of apnea and/or hypopnea during sleep caused by the collapse of the upper airways. Intermittent hypoxia deriving from the cycles of apnea/arousals (to retrieve the ventilation) plays a pivotal role in the pathogenesis of the disease. Obesity is the most frequent predisposing condition of OSAS. Recent evidence suggests that OSAS could be considered as a pro-atherosclerotic disease, independently of visceral fat amount. Oxidative stress, cardiovascular inflammation, endothelial dysfunction, and metabolic abnormalities in OSAS could accelerate atherogenesis. The present review is focused on the possible pathophysiological mediators which could favor atherosclerosis in OSAS.
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PMID:Inflammation accelerates atherosclerotic processes in obstructive sleep apnea syndrome (OSAS). 2019 12

Atherosclerotic cardiovascular diseases, currently the leading cause of death and illness in developed countries, will soon become the health problem worldwide. Atherosclerosis, a progressive disease characterized by the accumulation of lipids and fibrous elements in the arteries, constitutes the most important contributor to this growing burden of cardiovascular disease. The vascular endothelium is the inner lining of all blood vessels and serves as an important autocrine and paracrine organ, that regulates vascular wall functions. The vascular components are susceptible to the effect of oxidative stress, inflammation, (adipo)cytokines, neurohumoral factors, sleep disorders, psychogenic stress and other mediators. These vascular systems should maintain vascular homeostasis in the whole body for preventing atherosclerotic cardiovascular diseases.
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PMID:[Etiology of atherosclerosis--special reference to humoral and neurogenic factors]. 2122 58

There is emerging evidence suggesting that disturbances in sleep and sleep disorders play a role in the morbidity of chronic conditions including obesity and hypertension as well as in the development of type-2 diabetes. This brief review examines the role of inflammation in the development of atherosclerosis. Furthermore, it outlines the utility of inflammatory markers and, in particular, adhesion molecules as biomarkers for cardiovascular risk and the factors that affect their level in the circulation. It then discusses the relationship between sleep and markers of inflammation and the role of sleep in immune function.
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PMID:Association of inflammatory markers with cardiovascular risk and sleepiness. 2200 28

Sleep dramatically influences cardiovascular regulation. Changes in sleep duration or quality as seen in sleep disorders may prevent blood pressure to fall during sleep as expected in human physiology. This supports the increased prevalence of hypertension and drug-resistant hypertension in those with sleep loss. Other cardiovascular outcomes i.e. coronary lesions seem to be associated with sleep duration. Systemic inflammation, oxidative stress and endothelial dysfunction seem to be associated with both sleep loss and sleep disorders. The most critical example is Obstructive Sleep Apnea (OSA). Sympathetic activation, oxidative stress and systemic inflammation are the main intermediary mechanisms associated with sleep apnea and intermittent hypoxia. There are now convincing data regarding the associations between hypertension, arrhythmias, stroke, coronary heart disease, increased cardiovascular mortality and OSA. There are also data in OSA and in animal models supporting the link between sleep apnea and atherosclerosis and dysmetabolism. Whether treating sleep apnea enables the reversal of chronic cardiovascular and metabolic consequences of OSA, remains to be studied in adequately designed studies, particularly in comparison with usual treatment strategies.
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PMID:Sleep deprivation, sleep apnea and cardiovascular diseases. 2220 16

Neurologic complications are frequently encountered in dialysis patients. These may be due to the uremic state or to dialysis therapy, and require careful assessment. With longer survival of dialysis patients, these neurologic complications may significantly affect morbidity, mortality, and patients' well-being. Central nervous system involvement includes uremic encephalopathy as well as dialysis disequilibrium disorder. Both are rarely seen because of current improved understanding of their pathogenesis and treatment. Manifestations of atherosclerosis, stroke, and other neuropathies are present in this population and are not significantly altered by dialysis therapy. In recent years, increasing numbers of sleep disorders are being recognized. Peripheral nervous system involvement is also noted, including myopathy and related categories. In this chapter, we address clinical and pathophysiologic aspects of nervous system disorders in dialysis patients while discussing available therapeutic options to address the neurologic involvement.
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PMID:Nervous system disorders in dialysis patients. 2436 8

Sleep disorder is associated with the lifestyle-related diseases including obesity, insulin resistance and atherosclerosis. Adipose tissue functions as an endocrine organ by producing bioactive secretory proteins, also known as adipokines, that can directly act on nearby or remote organs. Recently, the associations between these adipokines and sleep disorders such as obstructive sleep apnea have been reported. In this review, we focus on the relationship between sleep disorder and lifestyle-related diseases.
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PMID:[Sleep disorder and lifestyle-related disease]. 2606 40


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