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

1. The present review focuses on the adenine nucleotide translocator (ANT), which facilitates exchange of cytosolic ADP for mitochondrial ATP. This protein serves a central role in regulating cellular oxidative capacity. 2. The ANT, a nuclear-encoded mitochondrial protein, is developmentally regulated and, thus, accumulates within the mitochondrial membrane during maturation. 3. Accumulation of ANT parallels changes in kinetics of myocardial respiration determined from 31P magnetic resonance spectroscopy studies. 4. Thyroid hormone modulates developmental transitions in ANT content, as well as respiratory control patterns. These transitions are linked to quantitative ANT changes, not to alterations in functionality at individual exchanger sites. 5. Developmental programming for ANT and parallel alterations in oxidative phosphorylation kinetics are relevant to the heart, which exhibits remodelling in response to pathological processes. Maladaptive hearts exhibiting ANT deficits demonstrate ADP-dependent respiratory kinetics similar to the newborn heart. Thus, ANT deficits and alterations in mitochondrial respiratory function may contribute to the pathogenesis of myocardial remodelling and heart failure.
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PMID:The adenine nucleotide translocator: regulation and function during myocardial development and hypertrophy. 1198 46

The effects of hypothyroidism on the cardiovascular system have been the subject of much research over the last several decades. The hypothyroid cardiac phenotype includes impaired contractile function, decreased cardiac output, and alterations in myocyte gene expression. In the setting of cardiac disease, as in other acute illnesses, alterations in thyroid hormone metabolism occur that result in decreased serum triiodothyronine (T(3)) levels. This is referred to as low T(3) syndrome. Similarities between the heart failure phenotype and the hypothyroid cardiac phenotype are numerous including changes in the expression of thyroid hormone regulated myocyte specific genes. The heart responds in a very sensitive manner to reduced circulating levels of T(3) with decreased expression of positively regulated genes and increased expression of negatively regulated genes. In the present paper we review data on thyroid hormone mediated cardiac specific gene transcriptional regulation. T(3) replacement therapy for hypothyroidism restores normal expression of these T(3) regulated genes and recent experiments suggest that the diseased human heart in congestive failure would benefit from similar T(3) replacement therapy.
Thyroid 2002 Jun
PMID:Thyroid hormone-regulated cardiac gene expression and cardiovascular disease. 1216 8

Atrial fibrillation is often induced in patients with hyperthyroidism and may trigger heart failure. Its prevalence and outcome were examined to obtain up-to-date information. Persistent atrial fibrillation was observed in approximately 1.7% of new hyperthyroid patients. It occurs more frequently in males (2.86%) than in females (1.36%), even though the number of male hyperthyroid patients is only one fifth of female patients. The rate increased with age, being 8% in the patients older than 70 years old. The initial treatment is to control the heart rate with routine pharmacologic therapy and to start antithyroid therapy as quickly as possible. Attempted cardioversion should be deferred until approximately the fourth month of maintaining a euthyroid state, because more than 56% of atrial fibrillation spontaneously reverts to sinus rhythm when the thyroid hormone levels start to decline. Elective cardioversion for those whose atrial fibrillation persists is highly effective and sinus rhythm maintenance rates were 56.7% and 47.6% at the 10th and the 14th year, respectively, even though the duration of atrial fibrillation prior to cardioversion was extremely long (35.0 +/- 29.0 months).
Thyroid 2002 Jun
PMID:Hyperthyroidism and the management of atrial fibrillation. 1216 11

Thyroid hormone has multiple effects on the cardiovascular system, ranging from molecular and cellular effects to the consequent hemodynamic alterations. Consequently, thyroid function has been evaluated in small cohorts of patients with advanced heart failure that indicate a significant prevalence of morphologic or functional thyroid disorders. We sought to determine the prevalence of altered thyroid hormone metabolism in a broad spectrum of ambulatory heart failure patients. Thyroid function tests were evaluated in 132 ambulatory patients (98 males, 32 females, mean age, 67 years) with left ventricular systolic dysfunction (EF < 35%) and New York Heart Association (NYHA) class I-IV symptoms. Hypothyroidism was defined as serum thyroid-stimulating hormone (TSH) > 4.25 U/mL and low triiodothyronine (T3) state was defined as T3 levels < 80 ng/dL, with normal thyroxine (T4) and TSH level. Seven percent of patients were found to have primary hypothyroidism and 34% have a low T3 state. Of patients receiving amiodarone, 21% had elevated TSH levels and 76% had low T3 levels. The prevalence of abnormal thyroid function correlated with NYHA class. There is an unexpectedly high risk of hypothyroidism and low T3 syndrome in patients regardless of treatment with amiodarone, which appears to correlate with disease severity that requires further investigation.
Thyroid 2002 Jun
PMID:Thyroid hormone metabolism in patients with congestive heart failure: the low triiodothyronine state. 1216 15

Thyroid hormone has unique actions that make it a novel and possibly useful agent for treatment of heart failure. Because of potential adverse effects of thyroid hormone, however, there has been interest in developing analogues with fewer undesirable side effects. Screening of compounds structurally related to levothyroxine identified 3,5-diiodothyropropionic acid (DITPA) as an analogue with inotropic selectivity and low metabolic activity in hypothyroid rats. When DITPA was administered alone or in combination with captopril in rat and rabbit postinfarction models of heart failure, cardiac output was increased and left ventricular end-diastolic pressure (LV EDP) was decreased without increasing heart rate. A pilot clinical study was undertaken to evaluate the safety and efficacy of DITPA. In a dose-ranging study in 7 normal volunteers the drug was well tolerated. A double-blind comparison then was made of DITPA versus placebo in a group of 19 patients with moderately severe heart failure. Patients were randomly assigned to receive either 1.875 mg/kg of DITPA or placebo daily. After 2 weeks the drug was increased to 3.75 mg/kg daily for an additional 2 weeks. In heart failure patients receiving the drug for 4 weeks, cardiac index was increased (p = 0.04) and systemic vascular resistance index was decreased (p = 0.02). Total serum cholesterol (p = 0.013) and triglycerides (p = 0.005) also were decreased significantly. These results indicate that DITPA is well tolerated and could represent a useful new agent for treatment of congestive heart failure.
Thyroid 2002 Jun
PMID:Clinical and experimental studies on the use of 3,5-diiodothyropropionic acid, a thyroid hormone analogue, in heart failure. 1216 18

Thyroid hormones have been shown to be absolutely necessary for early brain development. During pregnancy, both maternal and foetal thyroid hormones contribute to foetal brain development and maternal supply explains why most of the athyreotic newborns usually do not show any signs of hypothyroidism at birth. Foetal and/or neonatal hypothyroidism is a rare disorder. Its incidence, as indicated by neonatal screening, is about 1:4000. Abnormal thyroid development (i.e. agenesia, ectopic gland, hypoplasia) or inborn errors in thyroid hormone biosynthesis are the most common causes of permanent congenital hypothyroidism. Recent studies reported that mutations involving Thyroid Transcriptor Factors (TTF) such as TTF-1, TTF-2, PAX-8 play an important role in altered foetal thyroid development. Deficiency of transcriptor factor (Pit-1, Prop-1, LHX-3) both in mother and in the foetus represents another rare cause of foetal hypothyroidism. At birth clinical picture may be not always so obvious and typical signs appear only after several weeks but a delayed diagnosis could have severe consequences consisting of delayed physical and mental development. Even if substitutive therapy is promptly started some learning difficulties might still arise suggesting that intrauterine adequate levels of thyroid hormones are absolutely necessary for a normal neurological development. Placental transfer of maternal antithyroid antibodies inhibiting fetal thyroid function can cause transient hypothyroidism at birth. If the mother with thyroid autoimmune disease is also hypothyroid during pregnancy and she doesn't receive substitutive therapy, a worse neurological outcome may be expected for her foetus. Foetal and/or neonatal hyperthyroidism is a rare condition and its incidence has been estimated around 1:4000-40000, according to various authors. The most common causes are maternal thyroid autoimmune disorders, such as Graves' disease and Hashimoto's thyroiditis. Rarer non autoimmune causes recently identified are represented by TSH receptor mutations leading to constitutively activated TSH receptor. Infants born to mothers with Graves' history may develop neonatal thyrotoxicosis. Foetal/neonatal disease is due to transplacental thyrotrophin receptor stimulating antibodies (TRAb) passage. It's extremely important recognizing and treating Graves' disease in mothers as soon as possible, because a thyrotoxic state may have adverse effects on the outcome of pregnancy and both on the foetus and newborn. Thyrotoxic foetuses may develop goitre, tachycardia, hydrops associated with heart failure, growth retardation, craniosynostosis, increased foetal motility and accelerated bone maturation. Neonatal Graves' disease tends to resolve spontaneously within 3-12 weeks as maternal thyroid stimulating immunoglobulins are cleared from the circulation but subsequent development may be impaired by perceptual motor difficulties. Hashimoto's thyroiditis is a very common autoimmune thyroid disease. In presence of maternal Hashimoto's thyroiditis, there are usually no consequences on foetal thyroid, even if antiTPO and antiTg antibodies can be found in the newborn due to transplacental passage. However there are some literature reports describing foetal and neonatal hyperthyroidism in the affected mothers' offspring.
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PMID:Foetal and neonatal thyroid disorders. 1224 77

During experimental hypertensive cardiac hypertrophy, the heart energy metabolism reverts from the normal adult type that obtains the majority of its requirement for adenosine triphosphate (ATP) from metabolism of fatty acids and oxidative phosphorylation (OXPHOS), to the fetal form, which metabolizes glucose and lactate. Mitochondrial synthesis and function require an estimated 1000 polypeptides, 37 of which are encoded by mitochondrial (mt) DNA, the rest by nuclear (n) DNA. Inherited or acquired aberrations of either mtDNA or nDNA mitochondrial genes cause mitochondrial dysfunction. Tissue expression of OXPHOS enzyme defects is often heterogeneous. As a result, cardiomyopathy and cardiac failure are frequent but unpredictable complications of mitochondrial encephalopathy, neuropathy, and myopathy. Several nuclear genes that encode mitochondrial proteins have been sequenced and specific defects associated with nuclear genes that affect mitochondrial structure and function have been linked to hypertrophic and dilated cardiomyopathies and to cardiac conduction defects. Thyroid hormone and exercise stimulate expression of a nuclear respiratory factor (NRF) that induces the nuclear gene TFAM, which encodes the mitochondrial transcription factor A that controls mitochondrial replication and transcription. TFAM-null mouse embryos lack mitochondria and fail to develop a heart. Mitochondrial dysfunction enhances the generation of radical oxygen species (ROS), which damage mtDNA, nDNA, proteins, and lipid membranes. Mice lacking the mitochondrial antioxidant enzyme manganese-superoxide dismutase (SOD) develop dilated cardiomyopathy. Palliative mitochondrial therapy with L-acetyl-carnitine and coenzyme Q10 improves cardiac function in patients with cardiomyopathy. Cure is only achievable by mitochondrial gene therapy. Experimental direct gene therapy uses vectors or targeting signal sequences to insert genes into mtDNA; indirect gene therapy employs viral or non-viral vectors to introduce genes into nDNA. Clinical repair of damaged somatic and germline genes that encode mitochondrial proteins may soon be within reach.
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PMID:Review: Mitochondrial medicine--cardiomyopathy caused by defective oxidative phosphorylation. 1458 51

A case of neonatal thyrotoxicosis secondary to maternal autoimmune hyperthyroidism is reported in an infant born at 34 weeks gestation who presented with tachycardia, jitteriness, diarrhea, and a small goiter. Propranolol and oxygen were used to treat high-output cardiac failure and transient persistent pulmonary hypertension. The infant's response to propylthiouracil therapy, gradual resolution of cardiac and systemic symptoms, and normaliziation of thyroid studies are described. Thyroid physiology and function and the special considerations in a premature infant are reviewed. An overview of maternal autoimmune hyperthyroidism and the implications for the developing fetus and neonate are presented. The risk factors for, and clinical presentation of, hyperthyroidism are outlined and treatment strategies highlighted. The nursing care of infants with hyperthyroidism is carefully described with an emphasis on the surveillance for and management of multisystem manifestations.
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PMID:A case report of neonatal thyrotoxicosis due to maternal autoimmune hyperthyroidism. 1469 99

Thyroid hormone has the unique properties of lowering cholesterol in hypothyroid individuals and improving cardiac performance. Beginning in the 1950s, extensive efforts were made to develop thyroid hormone analogs that could utilize the cholesterol-lowering property in euthyroid individuals without affecting the heart. These efforts culminated in the development of analogs that selectively bind to beta1-type nuclear thyroid hormone receptors (TRs), which are responsible for cholesterol-lowering activity, without activating alpha1-type receptors in the heart. beta1-Selective compounds may be useful in lowering cholesterol in euthyroid individuals who are intolerant to treatment with 'statins'. Screening of compounds for those that might be suitable for improving cardiac performance in heart failure led to the identification of 3,5-diiodothyropropionic acid (DITPA). DITPA binds to both alpha- and beta-type TRs with relatively low affinity. In postinfarction models of heart failure and in a pilot clinical study, DITPA increased cardiac performance without affecting heart rate. This compound also lowers cholesterol and may be a useful adjunct to standard heart failure therapy. Although there is both experimental and clinical evidence indicating that thyroid analogs act differently than thyroid hormones, the details of their mechanism of action have not been completely elucidated. A number of potential mechanisms are reviewed, including serum protein binding, tissue disposition, receptor binding, and gene activation. Clinical trials for thyroid hormone analogs are in prospect.
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PMID:Thyroid hormone analogs for treatment of hypercholesterolemia and heart failure: past, present and future prospects. 1557 44

Thyroid hormones (TH) enhance cardiac function and reverse gene changes typical of pathological hypertrophy. However, reports in humans, but not animals, indicate that excess TH can cause heart failure. Also, the effects of TH on normal and cardiomyopathic hearts are likely to be different. The goal of this study was to characterize the effects of prolonged hyperthyroidism on cardiac function, chamber and cellular remodeling, and protein expression in both normal and cardiomyopathic hearts. Hyperthyroidism was induced in 3-mo-old normal BIO F1B and dilated cardiomyopathic BIO TO2 hamsters. After TH treatment for 10 days and 2 mo, hemodynamics, echos, myocyte length, histology, and protein expression were assessed. After 10 days and 2 mo, there were no differences between TO2-treated (Tx) and TO2-untreated (Untx) hamsters in chamber diameters or left ventricular function. After 2 mo of treatment, however, F1B-Tx showed evidence of dilated heart failure vs. F1B-Untx. Chamber diameters were increased, and ejection fraction and positive and negative changes in pressure over time were reduced. In F1B-Tx and TO2-Tx hamsters, beta-myosin isoform expression was reduced, whereas alpha-myosin increased significantly in F1B-Tx only. In TO2-Tx hamsters, the percent of viable myocardium was increased, and percent fibronecrosis was reduced vs. TO2-Untx. Myocyte length increased with TH treatment in both hamster strains. We conclude that 1) excess TH can induce heart failure in normal animals as observed in humans, 2) reversal of myosin heavy chain expression does not necessarily improve heart function, and 3) excess TH altered cellular remodeling but did not adversely affect chamber function or dimensions in TO2 hamsters.
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PMID:Effects of induced hyperthyroidism in normal and cardiomyopathic hamsters. 1597 57


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