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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Thyroid hormone has many effects on the heart and cardiovascular system. Thyrotoxicosis is associated with increased cardiovascular morbidity and mortality, primarily due to heart failure and thromboembolism. However, the relationship between thyroid hormone excess and the cardiac complications of angina pectoris and myocardial infarction remains largely speculative. Moreover, few studies have been reported on the effect of thyroid hormone levels within normal range on coronary artery disease (CAD). Therefore we examined the association of thyroid function with coronary artery diseases in euthyroid angina patients. Total 192 subjects (mean age; 60.8 yrs) were enrolled in which coronary angiograms were performed due to chest pain. We measured free thyroxine (FT(4)), thyroid stimulating hormone (TSH), serum lipid levels and high-sensitivity C-reactive protein (hsCRP) levels and analyzed their association with the presence of CAD. Serum FT(4) levels were higher in patients with CAD compared with the patients without CAD (1.31 +/- 0.30 vs 1.20 +/- 0.23, p = 0.006), and high FT(4) level was associated with the presence of multi-vessel disease. Multivariate analysis showed that age (odds ratio (OR) 1.04; 95% confidence interval (CI) 1.01-1.07, p = 0.007), hypertension (OR 2.04; 95% CI 1.06-3.90, p = 0.036) and FT(4) (OR 4.23; 95% CI 1.12-15.99, p = 0.033), were the determinants for CAD. The relative risk (RR) for CAD in highest tertile of FT(4) showed increased risk compared with the lowest tertile (RR 1.98; 95% CI 0.98-3.99, p<0.001). Our study showed that FT(4) levels were associated with the presence and the severity of CAD. Also, this study suggests that elevated serum FT(4) levels even within normal range could be a risk factor for CAD. Further studies will be necessary to confirm the relationship of thyroid function and CAD.
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PMID:Higher serum free thyroxine levels are associated with coronary artery disease. 1849 53

We report a 36 year-old pregnant woman who presented with acute pulmonary edema in the absence of preexisting cardiac disease. On admission she was on sinus rhythm and her blood pressure was mildly elevated. No cardiac abnormalities were detected by color Doppler echocardiography and no ischemic changes were seen on the electrocardiogram. Cardiac enzymes were normal. Thyroid function tests were diagnostic for hyperthyroidism. She was treated with propylthiouracil and propranolol and discharged in good conditions seven days after admission. This case emphasizes the need to consider hyperthyroidism as the cause of unexplained pulmonary edema in young patients with no history of heart disease who present with heart failure.
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PMID:[Acute pulmonary edema as a first manifestation of hyperthyroidism in a pregnant woman. Report of one case]. 1962 Nov 90

Thyroid hormone (TH) has a fundamental role in cardiovascular homeostasis in both physiological and pathological conditions, influencing cardiac contractility, heart rate (HR), diastolic function and systemic vascular resistance (SVR) through genomic and non-genomic mediated effects. In heart failure (HF) the main alteration of thyroid function is referred to as "low-triiodothyronine (T3) syndrome" (LT3S) characterized by decreased total serum T3 and free T3 (fT3) with normal levels of thyroxine (T4) and thyrotropin (TSH). Even if commonly interpreted as an adaptive factor, LT3S may have potential negative effects, contributing to the progressive deterioration of cardiac function and myocardial remodeling in HF and representing a powerful predictor of mortality in HF patients. All these observations, together with the early evidence of the benefits of T3 administration in HF patients indicate that placebo-controlled prospective studies are now needed to better define the safety and prognostic effects of chronic treatment with synthetic TH in HF.
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PMID:The role of thyroid hormone in the pathophysiology of heart failure: clinical evidence. 1911 Sep 71

Thyroid hormone exerts a large number of influences on the cardiovascular system. Increased thyroid hormone action increases the force and speed of systolic contraction and the speed of diastolic relaxation and these are largely beneficial effects. Furthermore, thyroid hormone has marked electrophysiological effects increasing heart rate and the propensity for atrial fibrillation and these effects are largely mal-adaptive. In addition, thyroid hormone markedly increases cardiac angiogenesis and decreases vascular tone. These multiple thyroid hormone effects are largely mediated by the action of nuclear based thyroid hormone receptors (TR) the thyroid hormone receptor alpha and beta. TRalpha is the predominant isoform in the heart. Rapid nongenomic thyroid hormone effects also occur, which can be clearly demonstrated in ex-vivo experiments. Some of the most marked thyroid hormone effects in cardiac myocytes involve influences on calcium flux, with thyroid hormone promoting expression of the gene encoding the calcium pump of the sarcoplasmic reticulum (SERCa2). In contrast, in hypothyroid animals phospholamban levels, which inhibit the SERCa2 pump, are increased. In addition, marked effects are exerted on the calcium channel of the sarcoplasmic reticulum the ryanodine channel. Related to myofibrillar proteins, myosin heavy chain alpha is increased by T3 and MHC beta is decreased. Complex and interesting interactions occur between cardiac hypertrophy induced by excess thyroid hormone action and cardiac hypertrophy occurring with heart failure. The thyroid hormone mediated cardiac hypertrophy in its initial phases presents a physiological hypertrophy with increases in SERCa2 levels and decreased expression of MHC beta. In contrast, pressure overload induced heart failure leads to a "pathological" cardiac hypertrophy which is largely mediated by activation of the calcineurin system and the MAPkinases signaling system. Recent evidence indicates that heart failure can lead to a downregulation of the thyroid hormone signaling system in the heart. In the failing heart, decreases of thyroid hormone receptor levels occur. In addition, serum levels of T4 and T3 are decreased with heart failure in the frame of the non-thyroidal illness syndrome. The decrease in T3 serves as an indicator for a bad prognosis in the heart failure patient being linked to increased mortality. In animal models, it can be shown that in pressure overload-induced cardiac hypertrophy a decrease of thyroid hormone receptor levels occurs. Cardiac function can be improved by increasing expression of thyroid hormone receptors mediated by adeno-associated virus based gene transfer. The failing heart may develop a "hypothyroid" status contributing to diminished cardiac contractile function.
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PMID:Cardiac hypertrophy and thyroid hormone signaling. 1912 27

We sought to assess the developing of thyroid disorders in forty eight patients with chronic stable heart failure and without thyroid abnormalities during six months follow-up. Thyroid function disorders were observed in 27.1% of the subjects: sick euthyroid syndrome (12.5%), subclinical hypothyroidism (10.4%) and overt hypothyroidism (6.2%). Subjects with higher thyroid stimulating hormone (TSH) levels at the end of the study had more hospitalizations. The developing of altered thyroid profile was related to lower hemoglobin levels, smaller phase angle with bioelectrical impedance method and more fatigue perception by the patients. This abnormal thyroid function behavior on stable chronic heart failure and was observed as part of the disease progress and was associated to worse prognosis factors as lower phase angle and anemia.
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PMID:Developing thyroid disorders is associated with poor prognosis factors in patient with stable chronic heart failure. 1920 98

The endocrine system plays an intricate role in the regulation and modulation of cardiovascular function. Several hormones including thyroid, mineralocorticoid, glucocorticoid, arginine-vasopressin (AVP), and growth hormone (GH) have been investigated as adjunctive therapies in pediatric cardiac disease. Thyroid hormone supplementation appears to be safe in neonatal and pediatric post-operative cardiac patients, but the benefits have been modest and inconsistent. Glucocorticoids appear to decrease the inflammatory response associated with cardiopulmonary bypass in children, but have little effect on clinical outcomes. The role of AVP in pediatric shock remains limited due to inconsistent trial results and its potential side effect profile. Although mineralcorticoids are commonly used to treat neurocardiogenic syncope, little to no benefit has been demonstrated in controlled trials. GH normalizes altered cardiac function in children who are GH deficient, but its effectiveness in the treatment of heart failure has been variable. Overall, the use of these hormones in a variety of pediatric cardiac conditions generally appears to be safe, but their efficacy for relieving symptoms, improving cardiac function, and improving clinical outcomes remains unclear.
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PMID:The use of hormonal therapy in pediatric heart disease. 1948 7

Thyroid hormone receptors (TRs) exert profound effects on development, metabolism, and multiple specific organ functions. Principally by regulating crucial genes in a variety of tissues, the thyroid hormones, 3,5,3'-triiodo-L-thyronine (L-T(3), 1) and 3,5,3',5'-tetraiodo-L-thyronine (L-T(4), 2), influence basal calorigenesis and oxygen consumption, cardiac rate and contractility, lipid metabolism, bone structure and strength, and central nervous system functions critical for normal mentation and mood. Elevated levels of circulating and tissue 1 and/or 2 result in the thyrotoxic clinical state, manifested by weight loss despite increased caloric intake; heat intolerance due to increased calorigenesis; cardiac tachyarrhythmias, systolic hypertension, and heart failure; skeletal muscle weakness; and a spectrum of neuropsychiatric symptoms ranging from anxiety to delirium and psychosis. The current standard treatments of endogenous hyperthyroidism causing thyrotoxicosis reduce the overproduction of thyroid hormones by pharmacologically inhibiting their synthesis or release (e.g., with thionamides or lithium, respectively), or by ablating thyroid tissue surgically or with radioiodine. TR-antagonists could hypothetically have significant clinical use in treating thyrotoxic states if they were capable of promptly and completely restoring euthyroid levels of thyroid-specific gene activity. No TRalpha-selective ligands have been prepared up to this date, ligands that potentially would further ameliorate the problem with cardiac disease connected with hyperthyroidism and maybe cardiac arrhythmia. Despite its significant potential use, no TR-antagonist has reached clinical application. Design of TR-antagonists ligands has been based on the attachment of a large extension group at the 5-prime position of 1 or other structurally related analogues. This extension is believed to distort folding of the C-terminal helix (helix 12) to the body of the ligand binding domain (LBD), which normally forms a coactivator site. Examples of synthetic TR antagonists based on this extension strategy are reviewed, as well as other strategies to achieve functional TR-antagonism.
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PMID:Thyroid hormone antagonists: potential medical applications and structure activity relationships. 1954 68

Thyroid hormone (TH) is critical in cardiac cell differentiation (regulating contractile proteins and cell geometry) and this effect could be potentially exploited therapeutically in reversing the process of de-differentiation which underlies postischemic cardiac remodeling. Acute myocardial infarction was induced in male Wistar rats by ligating left coronary artery (AMI, n=8), while sham operated animals served as control (SHAM, n=8). 13 weeks after AMI, TH was administered in a group of animals for 4 weeks (AMI-THYR, n=9). TH significantly increased beta-MHC and decreased alpha-MHC expression in the myocardium. This response was accompanied by changes in cardiac geometry: sphericity index, (SI, long to short axis ratio) was found to be 1.95 (SEM, 0.02) in SHAM, 1.51(0.03) in AMI and 1.64(0.03) in AMI-THYR, p<0.05. As a consequence, cardiac function was significantly improved: left ventricular ejection fraction (EF%) was 74.5% (SEM, 2.8) in SHAM vs 29.5% (2.1) in AMI, and 40.0% in AMI-THYR, p<0.05. Furthermore, +dp/dt and -dp/dt were 4250 (127) and 2278 (55) in SHAM vs 2737(233) and 1508 (95) in AMI vs 3866 (310) and 2137(111) in AMI -THYR, respectively, p<0.05. TH treatment partially reverses cardiac dysfunction in rats with old myocardial infarction by favorably changing cardiac chamber geometry and expression of myosin isoforms. Thyroid hormone, unlike current treatments, appears to be a paradigm of therapeutic intervention which aims at restoring cardiac geometry and may prove new effective treatment for heart failure.
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PMID:Thyroid hormone at supra-physiological dose optimizes cardiac geometry and improves cardiac function in rats with old myocardial infarction. 1982 81

We present 3-month-old male infant with diffuse neonatal hemangiomatosis. There were 63 cutaneous hemangiomas over the scalp, face, trunk, and extremities. Computed tomography scan revealed the presence of hemangiomas in the liver and kidneys; laryngobronchoscopy identified the presence of hemangioma in tracheobronchial tree. The child had symptoms of heart failure therefore digitals and diuretics were administrated. Thyroid functions were normal. Treatment with corticosteroids, in dose of 3 mg/kg/d intravenously, was initiated. As there was no significant clinical improvement, cyclophosphamide was administrated. He received 4 courses, 10 days apart. Each course consisted of 10 mg/kg/d of cyclophosphamide and 10 mg/kg/d of mesna for 4 consecutive days. After 4 cycles of cyclophosphamide, the liver was notably decreased in size and the cardiac failure was resolved. Magnetic resonance imaging of the abdomen revealed the marked decrease in size of the liver hemangioma. After 3 years of follow-up the child is well developed, fully recovered, without cardiologic or respiratory problems.
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PMID:Diffuse neonatal hemangiomatosis treatment with cyclophosphamide: a case report. 1982 52

Thyroid dysfunction, however mild, can significantly affect the cardiovascular (CV) system. The effects of thyroid hormones may be viewed as genomic and non-genomic, with the former occurring over a longer time scale and both affecting structural and functional proteins in CV tissue. As the interplay between thyroid function and the CV system becomes elucidated, particularly in the context of a system biology approach, the heart failure phenotype is better understood. Symptomatology is related to disturbance in inotropic and chronotropic function. Moreover, biochemical changes reflected by thyroid function testing with the non-thyroidal illness syndrome can prognosticate and guide therapy in heart failure. In addition, empiric treatment with thyroid hormone analogues or T3 represent emergent and highly controversial interventions.
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PMID:Thyroid hormones and the cardiovascular system: pathophysiology and interventions. 1991 24


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