UMLS:C0038454 - FACTA Search

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Query: UMLS:C0038454 (stroke)
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If one reviews the literature with zeal, it is increasingly apparent that few organs escape recruitment when IBD is chronic or progressive. Insights into mucosal pathophysiology have helped with understanding the more frequent extraintestinal manifestations, but the mechanisms attendant to the development of less common events (e.g. acute pancreatitis, concurrent gluten sensitive enteropathy, or active pulmonary disease) remain either poorly studied or obscure. It is particularly interesting, however, to read reports of abnormal pulmonary function, generally of the obstructive type, correlated to measurements of abnormal intestinal permeability in patients with either active pulmonary sarcoid or pulmonary involvement in Crohn's disease. It has been further speculated that similarities in the mucosal immune system of the lung and intestine are responsible for evidence of bronchial hyperreactivity in patients with active IBD. Finally, it is important to recognize that extensions of the inflammatory process are not restricted to the development of organ-based events but may be responsible for some of the most frequent systemic abnormalities detected in IBD patients. It is now also well confirmed that the cytokine environment in IBD can support activated coagulation and, in some clinical situations, overt vascular thrombosis. The cerebrovascular complications of IBD are well recognized and range from peripheral venous thrombosis to central stroke syndromes and pseudotumor cerebri. Reports of focal white matter lesions in the brains of patients with IBD or an increased incidence of polyneuropathy may be other clinical examples of regional microvascular clotting. Microvascular injury appears to be more ubiquitously present, with reports ranging from a speculated primary causative role (e.g., granulomatous vasculitis in the mesenteric circulation) to the utility of nailbed vasospasm, in Crohn's disease, as a clinical marker for disease activity. It is also reported that IL-6 suppression of erythropoietin production is a major feature of the chronic anemia seen in active IBD. Moreover, the capacity of peripheral monocytes from active IBD patients to secrete TNF and IL-8 is reported predictive for the degree of therapeutic response from recombinant erythropoietin. These collected observations constitute another excellent example of the symmetry between basic science and clinical utility. It is from the context of applied basic science that many future therapies will arise. Empiricism will lose much of its appeal as clinical observations will be increasingly translated into cellular language. Already in animal models, elemental diets diminish IL-6-related acute inflammatory injury, and reductions in dietary lipid alter the antigenicity of bacteria. Provocatively, in humans, unconfirmed reports have even associated diet therapy with the resolution of uveitis and pyoderma gangrenosum. It is likely that efforts will also be made to induce oral tolerance if specific triggering proteins are discovered or to alter bowel flora if such an arcane area of investigation becomes resurgent.
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PMID:Extraintestinal considerations in inflammatory bowel disease. 880 40

Recombinant human erythropoietin is widely used in chronic dialysis patients. However, the long-term effect, especially on the incidence of cardiovascular disease, has not been critically evaluated. We observed the annual incidence of stroke and acute myocardial infarction from April 1988 through March 1993 in Okinawa, Japan. Until April 1990, erythropoietin was not generally used. Therefore, we have two periods: pre-erythropoietin, April 1988 through March 1990, and post-erythropoietin, April 1990 through March 1993. Two thousand one hundred and sixteen patients (1,219 males and 897 females) were on chronic dialysis during the study period by March 31, 1993. Every case of stroke and acute myocardial infarction during the study period was registered. The odds ratio was calculated using the data of the general population in each sex and age class obtained in the same area. A total of 86 cases of stroke and 15 cases of acute myocardial infarction were registered during the study period. The annual incidence, per 1,000 patient-years, of stroke was 12.5 (1988), 10.5 (1989), 12.7 (1990), 14.0 (1991), and 17.5 (1992). The incidence of stroke was increased in the post-erythropoietin period compared to the pre-erythropoietin period, odds ratio 1.22 and 95% confidence interval (95% CI 1.06-1.41, p < 0.01). The annual incidence of acute myocardial infarction was 1.0 (1988), 1.8 (1989), 0.8 (1990), 2.9 (1991) and 4.7 (1992). The incidence of acute myocardial infarction was increased significantly in the post-erythropoietin period compared to the pre-erythropoietin period, odds ratio 1.87 (95% CI 1.66-2.10, p < 0.01). The odds ratio of stroke to the general population was 4.25 (95% CI 3.10-5.82) in the pre-erythropoietin and 4.58 (95% CI 2.14-9.80) in the post-erythropoietin period. In acute myocardial infarction, it was 2.98 (95% CI 2.84-3.12) and 3.81 (95% CI 3.18-4.56). The odds ratio of acute myocardial infarction was significantly increased (p < 0.01). The introduction of erythropoietin was associated with an increased risk of cardiovascular disease, especially acute myocardial infarction. Erythropoietin may unmask the sclerotic lesion in chronic dialysis patients.
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PMID:Increased risk of cardiovascular disease with erythropoietin in chronic dialysis patients. 917 10

Anemia typically leads to a state of hyperkinetic circulation with tachycardia, reduced peripheral resistance, increased stroke volume chamber dilatation, and finally to the development of left ventricular hypertrophy. These changes are usually well tolerated by patients with a healthy heart. In patients with heart diseases, however, anemia may lead to deterioration of ventricular performance and to increased morbidity and mortality respectively. Specific changes in cardiac function may arise depending on the causes of anemia such as myocardial iron deposition and dilatative cardiomyopathy in hemolytic anemia or alterations of homeostasis and reduction of cardiac function in renal anemia. With respect to cardiac function the cause of anemia must be corrected as far as possible and hemoglobin kept over a level of 10 g/dl. As far as renal anemia is concerned this goal can be reached by regular administration of erythropoietin and/or iron respectively.
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PMID:[Anemia and heart function]. 943 93

To investigate the influence of functioning on unexplained senile anemia, we measured commonly used hematological parameters (serum iron, transferrin, iron saturation and ferritin) in addition to specific erythropoietic factors, such as interleukin-3 (IL-3), interleukin-6 (IL-6), and erythropoietin (EPO) in 48 elderly subjects aged 65-90 years. The subjects were divided into 3 groups: 1) 17 patients with unexplained mild anemia; 2) 17 non-anemic patients with newly acquired stroke and who previously were functionally active; 3) 14 functionally active patients with no major disease who served as controls. Anemia was defined as hemoglobin (Hb) values under 12.0 g/dL. The degree of functional ability was defined and scored by the "functional independence measure" (FIM) test. Data are presented as mean values +/- SD. The results revealed a correlation between the functional state and levels of Hb, iron and transferrin with unchanged iron saturation. Patients in the mild anemia group were found to be functionally declined (FIM = 57 +/- 19.4) with the relatively lowest mean iron (75.1 +/- 17 micrograms/dL) and transferrin levels (243 +/- 42.6 micrograms/dL). The stroke group (FIM = 62 +/- 17.7) had intermediate levels of iron (85.4 +/- 20.3 micrograms/dL) and transferrin (245 +/- 45.2), and with the continuation of the declined functional state the Hb level decreased significantly (13.7 +/- 0.9 to 12.0 +/- 1.0 g/dL, p < 0.001). The highest mean values of iron (102 +/- 27.9 micrograms/dL) and transferrin (322 +/- 42.7 micrograms/dL) were found in the control group (FIM = 122.7 +/- 5.8). The ferritin levels showed an opposite trend. IL-3 values were undetectable in the anemic and control groups, and were elevated in some patients in the stroke group. The lowest IL-6 level was observed in the anemic group, and the highest in the control group. Serial IL-6 assays in the stroke group showed an upward trend. Erythropoietin levels in all groups showed no difference.
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PMID:Relationship between routine hematological parameters, serum IL-3, IL-6 and erythropoietin and mild anemia and degree of function in the elderly. 958 49

The amount of oxygen delivered to an organ depends on three factors: blood flow and its distribution; the oxygen-carrying capacity of the blood, i.e. haemoglobin concentration; and oxygen extraction. Non-haemodynamic and haemodynamic mechanisms operate to compensate for anaemia. Non-haemodynamic mechanisms include increased erythropoietin production to stimulate erythropoiesis, and increased oxygen extraction (displacement of the haemoglobin oxygen dissociation curve). This decreased affinity of oxygen for haemoglobin is mediated by increased 2,3-diphosphoglycerate concentrations. Increased cardiac output is the main haemodynamic factor, mediated by lower afterload, increased preload, and positive inotropic and chronotropic effects. Decreased afterload is due to vasodilatation and reduced vascular resistance as a consequence of lower blood viscosity, hypoxia-induced vasodilatation, and enhanced nitric oxide activity. Vasodilatation also involves recruitment of microvessels and, in the case of chronic anaemia, stimulation of angiogenesis. With decreased afterload, the venous return (preload) and left ventricular (LV) filling increase, leading to increased LV end-diastolic volume and maintenance of a high stroke volume and high stroke work. High stroke work is also due to enhanced LV contractility attributed to increased concentrations of catecholamines and non-catecholamine inotropic factors. In addition, heart rate is increased in anaemia, due to hypoxia-stimulated chemoreceptors and increased sympathetic activity. In the long term, these haemodynamic alterations lead to gradual development of cardiac enlargement and LV hypertrophy (LVH). The LVH is eccentric, characterized by increased LV internal dimensions and a normal ratio of wall thickness to cavity diameter, as occurs in other forms of volume overload. When anaemia-related LVH develops in an otherwise 'healthy' humoral environment, the lesions are reversible and the type of LVH is primarily physiological and is not associated with impaired diastolic function. In the absence of underlying cardiovascular disorders, severe anaemia (Haemoglobin concentration < 4-5 g/dl) leads to congestive heart failure. In the presence of heart disease, especially coronary artery disease, anaemia intensifies angina and contributes to a high incidence of cardiovascular complications. In end-stage renal disease (ESRD), LVH is influenced by many other factors, leading to intense interstitial fibrosis, to alterations in diastolic function, and usually to poor reversibility. The chronic increase in cardiac output contributes to arterial remodelling of central elastic arteries such as the aorta and common carotid artery. This remodelling consists principally of arterial enlargement and compensatory arterial intima--media thickening. In ESRD, these geometric changes are accompanied by arterial stiffening. The principal consequences of arterial alterations are increased systolic pressure and high inertia due to higher blood mass in the dilated arterial system. These alterations contribute to the development of LVH and abnormal coronary perfusion.
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PMID:Pathophysiology of anaemia: focus on the heart and blood vessels. 1103 52

Recombinant human erythropoietin (Epo) has been used successfully to correct the anemia caused by chronic renal failure in patients undergoing dialysis, as well as the anemia associated with other conditions, including cancer therapy. Despite its benefits, it can be associated with adverse side effects. These include hypertension, headaches, increased seizure activity, clotted vascular access, and occasional thromboembolic events, such as myocardial infarction or stroke. We report a potentially new side effect associated with Epo of a cosmetic nature. Three Southeast Asian women with chronic renal failure developed diffuse, nearly total, hair loss during erythropoietin use. Two cases were strongly associated with Epo use, and a third had other intercurrent illnesses as well. Alopecia may be associated with Epo use in certain ethnic populations.
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PMID:Alopecia in three women of Southeast Asian descent with chronic renal failure: possible association with erythropoietin use. 1113 98

Erythropoietin (EPO) is a glycoprotein that has been shown to mediate response to hypoxia, and is most notably recognized for its central role in erythropoiesis. In a series of experiments using rodent models, the ability of systemically administered recombinant human erythropoietin (r-HuEPO, epoetin alfa) to cross the blood-brain barrier and affect the outcome of neuronal injury or cognitive function was evaluated. It was shown that EPO and EPO receptors are expressed at capillaries of the brain-periphery interface, and that systemically administered epoetin alfa crossed the blood-brain barrier. Compared with control animals, epoetin alfa significantly reduced tissue damage in an ischemic stroke model when administered 24 hours before inducing stroke, with significant protection still evident when epoetin alfa was administered 6 hours poststroke. Epoetin alfa reduced injury by blunt trauma when administered 24 hours before trauma, with a significantly smaller volume of tissue necrosis noted when compared with controls. The observation that epoetin alfa may reduce nervous system inflammation was confirmed when an experimental autoimmune encephalomyelitis model in which rats were shown to have significantly delayed onset and reduced severity of experimental autoimmune encephalomyelitis symptoms after treatment with epoetin alfa. Epoetin alfa also was shown to ameliorate the latency and severity of seizures, and significantly increase survival versus controls when exposed to kainate. These findings suggest future potential therapeutic uses for epoetin alfa beyond its current use to increase erythropoiesis.
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PMID:Effects of epoetin alfa on the central nervous system. 1139 56

There is increasing evidence that erythropoietin (Epo) has a protective function in cerebral ischemia. When used for treatment, high Epo plasma levels associated with increases in blood viscosity, however, may counteract beneficial effects of Epo in brain ischemia. The authors generated two transgenic mouse lines that overexpress human Epo preferentially, but not exclusively, in neuronal cells. In mouse line tg21, a fourfold increase of Epo protein level was found in brain only, whereas line tg6 showed a dramatic increase of cerebral and systemic transgene expression resulting in hematocrit levels of 80%. Cerebral blood flow (CBF), as determined by bolus tracking magnetic resonance imaging, was not altered in the tg6 line. The time-to-peak interval for the tracer, however, increased approximately threefold in polyglobulic tg6 mice. Immunohistochemical analysis revealed an increase in dilated vessels in tg6 mice, providing an explanation for unaltered CBF in polyglobulic animals. Permanent occlusion of the middle cerebral artery (pMCAO) led to similar perfusion deficits in wild-type, tg6, and tg21 mice. Compared with wild-type controls, infarct volumes were not significantly smaller (22%) in tg21 animals 24 hours after pMCAO, but were 49% enlarged (P < 0.05) in polyglobulic tg6 mice. In the latter animals, elevated numbers of Mac-1 immunoreactive cells in infarcted tissue suggested that leukocyte infiltration contributed to enlarged infarct volume. The current results indicate that moderately increased brain levels of Epo in tg21 transgenic mice were not sufficient to provide significant tissue protection after pMCAO. The results with tg6 mice indicate that systemic chronic treatment with Epo associated with elevated hematocrit might deteriorate outcome after stroke either because of the elevated hematocrit or other chronic effects.
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PMID:Increased cerebral infarct volumes in polyglobulic mice overexpressing erythropoietin. 1143 98

Erythropoietin (EPO) primarily is produced in the kidney and acts as a principal mediator of the physiologic response to hypoxia by increasing red blood cell production. Astrocytes and neurons in the central nervous system (CNS) also are known to produce EPO in response to hypoxia/ischemia. EPO appears to play a neuroprotective role based on preclinical data demonstrating the ability of recombinant human erythropoietin (r-HuEPO) to shield neurons from hypoxic/ischemic stress when administered intracerebraventricularly. In CNS models, systemically administered r-HuEPO has not been intensely investigated because large glycosylated molecules generally were deemed incapable of crossing the blood-brain barrier (BBB). A collaborative research effort identified expression of EPO receptors on human brain capillaries and a specific receptor-mediated transport of r-HuEPO across the BBB after a single intraperitoneal (IP) injection in rodents, with subsequent protection against various types of neuronal damage. For example, administration of r-HuEPO 24 hours before or up to 6 hours after focal ischemic stroke significantly reduced the extent of infarction. r-HuEPO also attenuated concussive brain injury, kainate-induced seizure activity, and autoimmune encephalomyelitis. These preclinical findings suggest that r-HuEPO may have therapeutic potential for stroke, head trauma, and epilepsy; additional studies are needed to confirm and extend these encouraging observations in animal models.
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PMID:Beyond erythropoiesis: novel applications for recombinant human erythropoietin. 1152 26

Tolerance to cerebral ischemia is achieved by preconditioning sublethal stresses, such as ischemia or hypoxia, paradigms in which the decrease of O2 availability may constitute an early signal inducing tolerance. In accordance with this concept, this study shows that hypoxia induces tolerance against focal permanent ischemia in adult mice. Normobaric hypoxia (8% O2 of 1-hour, 3-hour, or 6-hour duration), performed 24 hours before ischemia, reduces infarct volume by approximately 30% when compared with controls. To elucidate the mechanisms underlying this neuroprotection, the authors investigated the effects of preconditioning on cerebral expression of hypoxia-inducible factor-1alpha (HIF-1alpha) and its target genes, erythropoietin and vascular endothelial growth factor (VEGF). Hypoxia, whatever its duration (1 hour, 3 hours, 6 hours), rapidly increases the nuclear content of HIF-1alpha as well as the mRNA levels of erythropoietin and VEGF. Furthermore, erythropoietin and VEGF are upregulated at the protein level 24 hours after 6 hours of hypoxia. The authors' findings show that (1) hypoxia elicits a delayed, short-lasting (<72 hours) tolerance to focal permanent ischemia in the adult mouse brain; (2) HIF-1 target genes could contribute to the establishment of tolerance; and (3) this model might be a useful paradigm to further study the mechanisms of ischemic tolerance, to identify new therapeutic targets for stroke.
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PMID:Normobaric hypoxia induces tolerance to focal permanent cerebral ischemia in association with an increased expression of hypoxia-inducible factor-1 and its target genes, erythropoietin and VEGF, in the adult mouse brain. 1191 10

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