Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0012833 (dizziness)
 9,689 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Orthostatic hypotension is a fall in blood pressure on standing that causes symptoms of dizziness, visual changes, and discomfort in the head and neck. The goal of treatment is the improvement of the patient's functional capacity, rather than a target blood pressure. For treatment to be successful, it must be individualized. Non-pharmalogic interventions include carefully managed exercise, scheduled activities, and monitoring of the environmental temperature. Agents such as fludrocortisone, midodrine, and epoetin alfa offer successful pharmacologic interventions. Although these measures ease the symptoms of orthostatic hypotension, current approaches neither reverse nor stabilize the disease process in autonomic disorders.
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PMID:Recent advances in the treatment of orthostatic hypotension. 774 70

The symptoms and severity of anemia depend on various factors, including the degree of anemia, the rapidity of its onset, and the age and physiologic status of the patient. Although the human body tries to counterbalance the effects of anemia by various mechanisms, almost every organ system of the human body is eventually affected. The symptoms experienced by patients vary from cold skin, dizziness, and palpitations to pulmonary edema, heart failure, depression, and severe impairment of cognitive function. Anemia substantially impacts patients' quality of life, a fact that has been shown in several clinical trials in patients with renal disease as well as in patients suffering from various malignancies undergoing chemotherapy. These studies evaluated the administration of recombinant human erythropoietin (r-HuEPO, epoetin alfa) to anemic patients, and it was shown that raising hemoglobin levels with epoetin alfa ameliorated the symptoms of anemia and significantly improved the functional status and overall quality of life in cancer patients. Furthermore, preliminary data indicate that the correction of anemia in cancer patients may in addition improve treatment efficacy and possibly overall survival.
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PMID:Symptomatology of anemia. 1139 46

It is now recognized that the majority of patients on epoetin therapy require intravenous (IV) iron supplementation to maximize the response to treatment. Of the IV iron preparations available, iron sucrose has proved its efficacy and safety; however, there are no guidelines or systematic studies examining the optimum safe dosage regimen for this compound. The aim of the present study was to investigate prospectively a variety of dosing regimens for IV iron sucrose in patients with renal failure to develop treatment strategies for this preparation. A total of 335 iron infusions was administered to 249 patients in this study, which was conducted in four phases. In phase I, 89 patients were administered a dose of 200 mg as an IV infusion over 2 hours. No adverse events were seen. A 500-mg dose by 2-hour infusion was then assessed, but was abandoned after 8 of 22 patients developed reactions characterized by dizziness, hypotension, and nausea. The dose was then reduced to 300 mg by 2-hour infusion for the next 189 patients, and again, no adverse reactions were witnessed. Finally, a 400-mg dose by 2-hour infusion was examined in 35 patients, but 2 patients experienced such symptoms as hypotension, nausea, and lower back pain. Both the 200- and 300-mg doses of IV iron sucrose administered over 2 hours appear to be safe. The incidence of adverse events with the 400- and 500-mg doses administered as a 2-hour infusion seems too high to recommend their routine use, although it may be possible to administer these doses over a longer period.
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PMID:Intravenous iron sucrose: establishing a safe dose. 1168 51

Anaemia occurs in a significant number of patients with cancer, and is associated with symptoms of fatigue, dizziness, headache and decreased health-related quality of life. Clinical trials have demonstrated the ability of epoetin alfa to increase haemoglobin concentrations and reduce transfusion requirements in patients with cancer. Data from three large, open-label, community-based trials of >7000 patients, as well as a series of smaller, randomized, placebo-controlled studies, have confirmed the efficacy of treatment with epoetin alfa in patients undergoing chemotherapy. In two of the community-based studies (>2000 patients in each), patients undergoing chemotherapy received epoetin alfa, 150-300 IU/kg or 10,000-20,000 IU, three times weekly. Significant (P<0.01) increases in haemoglobin concentrations and reductions in transfusion rates were seen in both studies. Significant improvements in quality of life were also reported, as measured by the Linear Analogue Scale Assessment and the Functional Assessment of Cancer Therapy-Anaemia. Importantly, the increases in quality of life were independent of tumour response. These findings were also observed in randomized, placebo-controlled studies. The third study, in approximately 3000 patients, evaluated the efficacy of once-weekly dosing, which significantly (P<0.01) increased haemoglobin concentrations, reduced transfusion requirements and improved quality of life. Greater increases in haemoglobin concentration were associated with greater improvements in quality-of-life scores. The safety and efficacy profile of the once-weekly regimen was comparable with that of the three times weekly regimen. Maintaining optimal quality of life, while achieving tumour stabilization or regression, is essential to the successful management of patients with cancer. Epoetin alfa has been shown to increase haemoglobin concentration, decrease transfusion requirements and increase quality of life. Given the frequency of adverse sequelae associated with anaemia, its aggressive management should become an integral and routine part of cancer treatment.
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PMID:Managing cancer-related anaemia with epoetin alfa. 1181 17

Syncope is defined as a temporary interruption of cerebral perfusion with a sudden and transient loss of consciousness and spontaneous recovery. Approximately one third of the population experiences syncope at least once during a lifetime. Presyncopal signs and symptoms, including weakness, headache, blurred vision, diaphoresis, nausea, and vomiting are sometimes present for seconds or minutes prior to loss of consciousness. After syncope, the patients may present with persisting drowsiness, headache, dizziness, nausea, but not usually confusion. Causes of syncope have been categorized as cardiovascular, non-cardiovascular, and unexplained. Cardiovascular causes can be subdivided into structural heart disease, coronary heart disease, and arrhythmia. Non-cardiovascular causes include neurological, metabolic, psychiatric and other disorders.Orthostatic hypotension - one of the most frequent causes of syncope - has manifold etiologies comprising various neurological and internal diseases. Orthostatic hypotension usually can be attributed to an impairment of peripheral vasoconstriction or to a reduction of the intravascular volume. Signs and symptoms, including the above prodromi are often present just after rising from a supine or sitting position. Frequently, blood pressure decreases significantly without an increase in heart rate. Autonomic cardiovascular modulation is often reduced. Many of the patients with "unexplained" syncope experience neurally mediated (i. e. neurocardiogenic or vasovagal) syncope. In these patients, cardiovascular control may be stable for an extended period of time during orthostatic stress, then there is a sudden decrease in blood pressure and heart rate. Neurocardiogenic or neurally mediated syncope can be associated with painful or emotionally stressful situations such as anxiety or fear, with prolonged standing or specific trigger situations such as micturition, defecation, coughing or sneezing, visceral or carotid sinus stimulation, or with trigeminal or glossopharyngeal neuralgia. So far, the mechanisms of neurocardiogenic syncope are not completely understood. The passive 60 degrees to 70 degrees head-up tilt test is useful for the diagnosis of orthostatic and neurally mediated syncope. The sensitivity of the test can be improved by additional pharmacological provocation, e. g. by isoproterenol, or by increased orthostatic stress using lower body negative pressure stimulation. For the treatment of syncope one should first consider non-pharmacological options. Patients with orthostatic hypotension should avoid rapid changes of the body position from supine to standing, as well as high room temperature or other situations inducing peripheral vasodilatation. An increased intake of sodium and fluids, mild physical exercise or so-called postural counter-maneuvers can improve orthostatic tolerance. Among the drugs recommended for pharmacologic treatment are mineralocorticoids (e. g. fludrocortisone), vasoconstrictor agents (e. g. ephedrine, midodrine), adenosine receptor blockers (theophylline) and beta2-blockers (propanolol), anticholinergic agents, e. g. scopolamine or disopyramide, and negative cardiac inotropes, e. g. beta1-adrenergic blockers or disopyramide. Serotonin reuptake inhibitors (e. g. fluoxetine, sertraline), alpha2-adrenergic agonists (clonidine), central nervous system stimulants such as methylphenidate or phentermine are thought to be beneficial in specific cases. Cardiac pacemakers often seem to be recommended without adequate indication. The antidiuretic, V2-receptor specific, vasopressin analogue desmopressin increases the intravascular volume. Erythropoietin improves anemia and red blood cell decrease and augments blood pressure and cerebral oxygenation. In postprandial hypotension, octreotide, a somatostatin analogue, prostaglandin inhibitors such as indomethacin or ibuprofen, as well as metoclopramide or two cups of coffee per day might be beneficial.
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PMID:[Syncope - a systematic overview of classification, pathogenesis, diagnosis and management]. 1182 26

Anemia is a common complication in patients with hematologic malignancies, and is caused by a variety of mechanisms, including neoplastic cell infiltration into the bone marrow, hemolysis, nutritional deficiencies, and defects in erythropoiesis as a result of the disease itself or cytotoxic therapy. The anemia associated with multiple myeloma is caused by inadequate erythropoietin levels consequent to renal impairment and the effect of inflammatory cytokines. The degree of anemia can have prognostic importance, as is the case with multiple myeloma, or be a significant indicator of disease stage, as noted with chronic lymphocytic leukemia. Anemia results in fatigue, exhaustion, dizziness, headache, dyspnea, and decreased motivation, seriously affecting a patient's quality of life. Since anemia is so prevalent in hematologic malignancy patients, its treatment must be an integral part of disease management, to improve quality of life and to possibly increase potential survival. Clinical studies have shown that effectively treating anemia and increasing hemoglobin levels using recombinant human erythropoietin (rHuEPO, epoetin alfa) has a significant effect on transfusion requirements and quality of life.
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PMID:The effects of anemia in hematologic malignancies: more than a symptom. 1208 53

Cancer-related anemia often develops from the infiltration of marrow by malignant cells, impaired hemoglobin (Hb) production related to chemotherapy or radiation therapy, iron deficiency, or low endogenous erythropoietin levels. Patients with cancer-related anemia may experience cognitive dysfunction including decreased mental alertness, poor concentration, and memory problems. Anemia-mediated cerebral hypoxia may cause symptoms such as headache, vertigo, tinnitus, and dizziness. These symptoms often are exacerbated in the elderly patient with cancer and related to underlying low Hb concentrations. Restoring Hb levels via the administration of iron supplements, blood transfusions, or, more recently, erythropoiesis-stimulating therapy (epoetin alfa) results in significant improvement of cognitive function. The use of epoetin alfa as a treatment option for patients with chemotherapy-associated anemia and an Hb concentration less than 10 g/dL has been recommended by the American Society of Clinical Oncology and the American Society of Hematology. Erythropoiesis-stimulating therapies are a promising treatment option for cancer-related anemia that may improve cognitive function and quality of life for patients with cancer.
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PMID:Anemia in the oncology patient: cognitive function and cancer. 1502 12

It is unclear whether physiologic hemoglobin targets lead to cardiac benefit in incident hemodialysis patients without symptomatic heart disease and left ventricular dilation. In this randomized, double-blind study, lower (9.5 to 11.5 g/dl) and higher (13.5 to 14.5 g/dl) hemoglobin targets were generated with epoetin alpha over 24 wk and maintained for an additional 72 wk. Major eligibility criteria included recent hemodialysis initiation and absence of symptomatic cardiac disease and left ventricular dilation. The primary outcome measure was left ventricular volume index (LVVI). The study enrolled 596 patients. Mean age, duration of dialysis therapy, baseline predialysis hemoglobin, and LVVI were 50.8 yr, 0.8 yr, 11.0 g/dl, and 69 ml/m2, respectively; 18% had diabetic nephropathy. Mean hemoglobin levels in the higher and lower target groups were 13.3 and 10.9 g/dl, respectively, at 24 wk. Percentage changes in LVVI between baseline and last value were similar (7.6% in the higher and 8.3% in the lower target group) as were the changes in left ventricular mass index (16.8 versus 14.2%). For the secondary outcomes, the only between-group difference was an improved SF-36 Vitality score in the higher versus the lower target group (1.21 versus -2.31; P = 0.036). Overall adverse event rates were similar in both target groups; higher (P < 0.05) rates of skeletal pain, surgery, and dizziness were seen in the lower target group, and headache and cerebrovascular events were seen in the higher target group. Normalization of hemoglobin in incident hemodialysis patients does not have a beneficial effect on cardiac structure, compared with partial correction.
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PMID:Double-blind comparison of full and partial anemia correction in incident hemodialysis patients without symptomatic heart disease. 1590 66