Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0018801 (heart failure)
 72,216 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study examined the effects of aging and chronic congestive heart failure on plasma corticosterone and cortisol levels in hamsters. It also assessed the effects of aging and heart failure on glucocorticoid responses to acute and chronic stress. Aging in healthy hamsters increased plasma cortisol levels, decreased corticosterone levels, and did not change total glucocorticoid levels. A similar pattern occurred as cardiomyopathic (CM) hamsters aged, until they developed severe heart failure. Plasma cortisol levels fell in CM hamsters with severe heart failure, and corticosterone levels remained low, so total glucocorticoid levels fell. Adrenocortical function similarly declined in very old healthy hamsters near the ends of their lives. Adrenocortical responses to acute and chronic stress were diminished in old healthy hamsters, and heart failure in CM hamsters also reduced the glucocorticoid responses to chronic stress. However, heart failure greatly enhanced the cortisol and total glucocorticoid responses to acute stress, but not that of corticosterone. These data suggest a number of conclusions. First, aging clearly changes the the ratio of corticosterone to cortisol in hamster plasma without changing total glucocorticoid levels and blunts adrenocortical responses to acute and chronic stress. Second, ill health, in the form of severe heart failure in CM hamsters and very old age in health hamsters, decreases adrenocortical function. At the same time, heart failure greatly enhances cortisol responses to acute stress. These results indicate that aging and chronic disease in hamsters have many similar effects on adrenocortical function, but that disease alone sensitizes them to the effects of acute stress.
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PMID:Interactions among the effects of aging, chronic disease, and stress on adrenocortical function in Syrian hamsters. 229 77

Emotional stress has been considered responsible for life-threatening ventricular arrhythmias but acute stress-induced heart failure has not been reported in man. Two patients with recent uncomplicated myocardial infarction presenting acute pulmonary edema immediately after psychologic stress testing are the object of this report. Four stressors, mental arithmetic, 30 emotionally involving questions (Sacks' test modified), an image quiz (Raven's matrices) and white noise were administered during hemodynamic monitoring (Swan-Ganz catheter) in a 3-min stress-5-min recovery sequence. Response to the stressors was not unusual; greatest cardiovascular response occurred during mental arithmetic, least during noise and intermediate patterns were induced by the other stressors. Heart rate and systemic blood pressure, markers of autonomic activation, increased moderately. Neither ventricular arrhythmias nor ischemic electrocardiographic changes were observed during or after stress testing. Complete recovery followed each stress-induced cardiovascular response. About 10 min after completing stress testing, acute pulmonary edema occurred in both patients neither of whom had presented other episodes of acute pulmonary edema, suggesting that psychologic stress may induce pump dysfunction in patients with latent heart failure.
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PMID:Acute pulmonary edema provoked by psychologic stress. Report of two cases. 359 12

sulfoconjugated dopamine constitutes the major portion of circulating or excreted dopamine, but its physiologic significance is still unknown. To test whether conjugated dopamine serves as a source of free dopamine in response to acute stress, plasma concentrations of free and conjugated dopamine were measured during an acute exacerbation of heart failure. The plasma concentration of conjugated dopamine decreased significantly during the acute phase of heart failure, whereas that of free dopamine increased. The plasma concentration of free dopamine decreased, whereas the concentration of conjugated dopamine increased as heart failure improved. An infusion of dopamine increased the plasma concentration of conjugated dopamine, suggesting that at least part of the excess active dopamine was detoxified through conjugation. The results of these tests with both conjugated and free dopamine are interconvertible and indicate that conjugated dopamine can serve as a reservoir of active dopamine.
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PMID:Pathophysiologic significance of free and conjugated dopamines in congestive heart failure. 812 10

Insomnia may be periodic and transient, as caused by situational stress, or persistent, as caused by a chronic sleep disorder. Physicians can gain much information concerning the type, probable cause, onset, and duration of insomnia through history taking. A sleep diary may reveal helpful information, and input from the patient's sleeping partner can also be valuable. Complicating disorders, such as heart failure, prostatism, or depression, should be sought and specific treatment prescribed. Chemical dependency, too, requires appropriate treatment. These measures, institution of good sleep-hygiene practices, and behavior modification may resolve sleeplessness. The primary indication for use of hypnotic agents is transient sleep disruption caused by acute stress. When an agent is chosen, onset of action, metabolism, and side effects should be considered, especially in elderly patients. Addictive agents should not be given to patients with substance abuse problems. If insomnia persists, evaluation at a sleep-disorder center is recommended to facilitate design of an appropriate therapeutic regimen.
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PMID:Treatment of insomnia. Getting to the root of sleeping problems. 891 33

Metabolic differences between cardiomyopathic hamsters (CMHs), as they progress through various physiologic phases before reaching end-stage heart failure (HF), and healthy hamsters (HHs) are often difficult to demonstrate. We suggest that metabolic differences, magnified by application of chronic stress (S: cold immobilization 2 hr/day for 5 days) followed by acute stress (AS: 55 min global ischemia /30 min reperfusion), can be used to characterize different stages in this cardiomyopathic process. High performance liquid chromatography (HPLC) and 31P NMR methods were used to monitor the effects of acute stress applied to nonstressed (NS) and previously stressed CMHs (NS-2.5-month NS-5-month; S-2.5-month, S-5-month) and HHs (NS-HH, S-HH). Cardiac tissue extracts from nonstressed and stressed hamsters were analyzed for ATP and PCr at baseline and after completion of ischemia/reperfusion (AS) using HPLC. In nonstressed hamsters, ATP and PCr were 12% lower in CMHs (both NS-2.5- and NS-5-month) than in NS-HHs. After exposure to stress, ATP was 26% lower in CMHs (S-2.5- and S-5-month) compared to S-HHs, whereas there were minimal differences in PCr between the groups. 31P NMR monitoring of metabolism in the perfused beating heart during application of acute stress produced similar changes (%) in ATP and PCr in all groups (NS and S), whereas Pi increase was less in NS-5-month (118%) compared to NS-2.5-month (179%) and NS-HHs (306.8%), P < 0.05; and in S-5-month (148%) compared to S-2.5-month (216%) and S-HHs (222%). The changes in myocardial pH were inversely related to changes in Pi: NS-5-month (-13.5%); NS-2.5-month (-9.7%); NS-HH (-17.7%). pH changes in stressed cardiomyopathic hamsters were similar to those of S-HHs. The postischemic recovery of ATP and Pi return closer to baseline values in cardiomyopathic hamsters (both NS and S) compared to healthy hamsters. The data suggest that cardiomyopathic hamsters have baseline metabolic abnormalities, and their responses to chronic cold immobilization stress, acute ischemia, and chronic cold immobilization stress plus acute ischemia are different from those in HHs. These responses may help to characterize specific stages of disease.
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PMID:Metabolic abnormalities and differential responses to stress associated with hamster cardiomyopathy. 975 Dec 22

Heart failure (HF) alters the regulation of basal sympathetic nerve discharge (SND); however, the effect of HF on SND responses to acute stress is not well established. In the present study, renal SND responses to hyperthermia were determined in chloralose-anesthetized HF rats and in sham controls. Whole body heating (colonic temperature increased from 38 to 41 degrees C) was used as an acute stressor because increased internal body temperature provides a potent stimulus to the sympathetic nervous system. Left ventricular end-diastolic pressure and the right ventricular wt-to-body wt ratio were increased (P < 0.05) in HF compared with sham rats. The following observations were made: 1) renal sympathoexcitatory responses to heating were significantly reduced in HF compared with sham rats, 2) renal blood flow remained unchanged from control levels during heating in HF rats but was significantly reduced in sham rats, and 3) renal SND responses to heating were significantly higher in HF rats with bilateral lesions of the hypothalamic paraventricular nucleus (PVN) compared with sham PVN-lesioned HF rats. These results demonstrate a marked attenuation in the responsiveness of renal SND to heating in HF rats and suggest that HF alters the organization of neural pathways mediating SND responses to heating.
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PMID:Renal sympathetic nerve regulation to heating is altered in rats with heart failure. 1135 47

1. The long-term level of arterial pressure is dependent on the relationship between arterial pressure and the urinary output of salt and water, which, in turn, is affected by a number of factors, including renal sympathetic nerve activity (RSNA). In the present brief review, we consider the mechanisms within the brain that can influence RSNA, focusing particularly on hypothalamic mechanisms. 2. The paraventricular nucleus (PVN) in the hypothalamus has major direct and indirect connections with the sympathetic outflow and there is now considerable evidence that tonic activation of the PVN sympathetic pathway contributes to the sustained increased level of RSNA that occurs in conditions such as heart failure and neurogenic hypertension. The tonic activity of PVN sympathetic neurons, in turn, depends upon the balance of excitatory and inhibitory inputs. A number of neurotransmitters and neuromodulators are involved in these tonic excitatory and inhibitory effects, including glutamate, GABA, angiotensin II and nitric oxide. 3. The dorsomedial hypothalamic nucleus (DMH) also exerts a powerful influence over sympathetic activity, including RSNA, via synapses with sympathetic nuclei in the medulla and, possibly, also other brainstem regions. The DMH sympathetic pathway is an important component of the phasic sympathoexcitatory responses associated with acute stress, but there is no evidence that it is an important component of the central pathways that produce long-term changes in arterial pressure. Nevertheless, it is possible that repeated episodic activation of this pathway could lead to vascular hypertrophy and, thus, sustained changes in vascular resistance and arterial pressure. 4. Recent studies have reactivated the old debate concerning the possible role of the baroreceptor reflex in the long-term regulation of sympathetic activity. Therefore, central resetting of the baroreceptor-sympathetic reflex may be an important component of the mechanisms causing sustained changes in RSNA. However, little is known about the cellular mechanisms that could cause such resetting.
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PMID:Long-term regulation of arterial blood pressure by hypothalamic nuclei: some critical questions. 1585 52

ATP-sensitive potassium (K(ATP)) channels are evolutionarily conserved plasma-membrane protein complexes, widely represented in tissue beds with high metabolic activity. There, they are formed through physical association of the inwardly rectifying potassium channel pore, most typically Kir6.2, and the regulatory sulfonylurea receptor subunit, an ATP-binding cassette protein. Energetic signals, received via tight integration with cellular metabolic pathways, are processed by the sulfonylurea receptor subunit that in turn gates the nucleotide sensitivity of the channel pore thereby controlling membrane potential dependent cellular functions. Recent findings, elicited from genetic disruption of channel proteins, have established in vivo the requirement of intact K(ATP) channels in the proper function of cardiac muscle under stress. In the heart, where K(ATP) channels were originally discovered, channel ablation compromises cardioprotection under ischemic insult. New data implicate the requirement of intact K(ATP) channels for the cardiac adaptive response to acute stress. K(ATP) channels have been further implicated in the adaptive cardiac response to chronic (patho)physiologic hemodynamic load, with K(ATP) channel deficiency affecting structural remodeling, rendering the heart vulnerable to calcium-dependent maladaptation and predisposing to heart failure. These findings are underscored by the identification in humans that defective K(ATP) channels induced by mutations in ABCC9, the gene encoding the cardiac sulfonylurea receptor subunit, confer susceptibility to dilated cardiomyopathy. Thus, in parallel with the developed understanding of the molecular identity and mode of action of K(ATP) channels since their discovery, there is now an expanded understanding of their critical significance in the cardiac stress response in health and disease.
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PMID:Cardiac KATP channels in health and disease. 1591 Aug 78

Low-birth-weight babies have an increased risk of cardiovascular disease (CVD) in later life. The authors hypothesize that fetal hypoxia alters the structure and function of the developing cardiovascular system resulting in CVD. They investigated the effects of chronic hypoxia on cardiac performance, hemodynamic control, and growth during the second half of embryonic chick development. Three stages of hemodynamic adaptations were identified in hypoxic chick embryos. At embryonic day 13 (E13), heart rate and blood pressure were higher in hypoxic embryos. At E17, this was followed by sympathetic hyperinnervation of peripheral arteries, resulting in increased vasoconstriction during a chemoreflex. This was accompanied by dilatation of the left ventricle and a 50% reduction in cardiac contractility. E19 hypoxic embryos had a 33% higher baseline vascular tone, but failed to maintain blood pressure during acute stress, indicating cardiac failure. Reduced body, heart, and liver weights followed the hemodynamic changes. Chronic hypoxia induces dilated cardiomyopathy and sympathetic hyperinnervation of the peripheral vasculature leading to aberrant fetal hemodynamics and fetal growth restriction. This study identifies that alterations in fetal hemodynamic regulation are in the causal pathway between disturbances in fetal environment, restricted fetal growth and CVD, and establishes fetal hypoxia as a novel risk factor for cardiovascular disease.
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PMID:Hypoxia disturbs fetal hemodynamics and growth. 1808 Aug 72

During post-natal maturation of the mammalian heart, proliferation of cardiomyocytes essentially ceases as cardiomyocytes withdraw from the cell cycle and develop blocks at the G0/G1 and G2/M transition phases of the cell cycle. As a result, the response of the myocardium to acute stress is limited to various forms of cardiomyocyte injury, which can be modified by preconditioning and reperfusion, whereas the response to chronic stress is dominated by cardiomyocyte hypertrophy and myocardial remodeling. Acute myocardial ischemia leads to injury and death of cardiomyocytes and nonmyocytic stromal cells by oncosis and apoptosis, and possibly by a hybrid form of cell death involving both pathways in the same ischemic cardiomyocytes. There is increasing evidence for a slow, ongoing turnover of cardiomyocytes in the normal heart involving death of cardiomyocytes and generation of new cardiomyocytes. This process appears to be accelerated and quantitatively increased as part of myocardial remodeling. Cardiomyocyte loss involves apoptosis, autophagy, and oncosis, which can occur simultaneously and involve different individual cardiomyocytes in the same heart undergoing remodeling. Mitotic figures in myocytic cells probably represent maturing progeny of stem cells in most cases. Mitosis of mature cardiomyocytes that have reentered the cell cycle appears to be a rare event. Thus, cardiomyocyte renewal likely is mediated primarily by endogenous cardiac stem cells and possibly by blood-born stem cells, but this biological phenomenon is limited in capacity. As a consequence, persistent stress leads to ongoing remodeling in which cardiomyocyte death exceeds cardiomyocyte renewal, resulting in progressive heart failure. Intense investigation currently is focused on cell-based therapies aimed at retarding cardiomyocyte death and promoting myocardial repair and possibly regeneration. Alteration of pathological remodeling holds promise for prevention and treatment of heart failure, which is currently a major cause of morbidity and mortality and a major public health problem. However, a deeper understanding of the fundamental biological processes is needed in order to make lasting advances in clinical therapeutics in the field.
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PMID:Cardiomyocyte death and renewal in the normal and diseased heart. 1840 42


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