UMLS:C0018799 - FACTA Search

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Query: UMLS:C0018799 (heart disease)
34,133 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

There are obviously several causes of myocardial dysfunction but energy deficiency of the myocytes may play a significant role and probably is a common mechanism during the progression of myocardial failure. Theoretically, a poor utilization efficiency of oxygen may be due to exhaustion of the myocardial stores of bioenergetics. In this report the authors review their biochemical results from measurements of coenzyme Q10 (CoQ10) levels in blood and human endomyocardial biopsies using an HPLC method from patients with suspected myocardial disease (n = 45). The levels of CoQ10, which has a key role in the respiratory chain and the synthesis of ATP, was found to be significantly decreased in various groups of patients with myocardial failure (dilated and restrictive cardiomyopathy and alcoholic heart disease) as compared to "normal" myocardium (0.42 +/- 0.04 micrograms/mg dry weight). The deficiency of CoQ10 was more pronounced with increasing symptoms; e.g. patients with dilated cardiomyopathy in NYHA Classes III and IV had lower tissue CoQ10 content than those of Classes I and II (0.28 +/- 0.04 vs. 0.37 +/- 0.06 micrograms/mg, p less than 0.001). Nearly two thirds of a series of 40 patients in severe heart failure (Classes III and IV) treated with CoQ10, 100 mg daily, in an open, controlled design showed subjective and objective improvement. Clinical responders were 69% and 43% of patients with cardiomyopathy and ischaemic heart disease, respectively. The results suggest that CoQ10 is a novel and effective breakthrough in heart-failure therapy and it appears safe, as no adverse reactions were registered. The through in heart-failure therapy and it appears safe, as no adverse reactions were registered.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Coenzyme Q10: clinical benefits with biochemical correlates suggesting a scientific breakthrough in the management of chronic heart failure. 227 93

Coenzyme Q10 (CoQ10) has already been favorably evaluated in the clinical treatment of heart disease. In the otolaryngological field, it has been reported that CoQ10 is effective in promoting recovery from acute sudden deafness. However, the pharmakinetics of CoQ10 in the inner ear is not yet clarified. The present study focuses upon the pharmacokinetics of CoQ10 using guinea pigs with acute sensorineural hearing loss artificially induced by hypoxia conditions. The respiration of the animals was controlled in an artificial respirator while the ABR, ECG and blood pressure were monitored. Repeated hypoxia caused a gradual disappearance of the ABR. After the experiments, the animals were sacrificed and brain and inner ear were examined by histological and histochemical methods as well as by SEM and TEM. The results indicated that CoQ10 is effective in promoting recovery from damage in auditory hairs as well as preventing respiratory metabolic impairment of hair cell due to hypoxia.
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PMID:Pharmacokinetics of coenzyme Q10 in recovery of acute sensorineural hearing loss due to hypoxia. 324 40

An investigation was undertaken to evaluate the antiarrhythmic effect of CoQ10 on VPBs using the Holter ECG, in 27 patients with no clinical findings of organic cardiopathies. As a result, the effect of CoQ10 on VPBs was considered beneficial in 6 (22%) of 27 cases, consisting of 1 patient with hypertension and 5 patients with DM. Even in the remaining 2 patients with DM, the frequency of VPBs was reduced by 50% or more during treatment with CoQ10. The mean reduction of VPBs frequency in the 5 responders plus these 2 patients with DM was 85.7%. These findings suggest that CoQ10 exhibits an effective antiarrhythmic action not merely on organic heart disease but also on VPBs supervening on DM.
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PMID:Clinical study of cardiac arrhythmias using a 24-hour continuous electrocardiographic recorder (5th report)--antiarrhythmic action of coenzyme Q10 in diabetics. 668 May 22

A defective myocardial energy supply--due to lack of substrates and/or essential cofactors and a poor utilization efficiency of oxygen--may be a common final pathway in the progression of myocardial diseases of various etiologies. The vitamin-like essential substance coenzyme Q10, or ubiquinone, is a natural antioxidant and has a key role in oxidative phosphorylation. A biochemical rationale for using coenzyme Q10 as a therapy in heart disease was established years ago by Folkers and associates; however, this has been further strengthened by investigations of viable myocardial tissue from the author's series of 45 patients with various cardiomyopathies. Myocardial tissue levels of coenzyme Q10 determined by high-performance lipid chromatography were found to be significantly lower in patients with more advanced heart failure compared with those in the milder stages of heart failure. Furthermore, the myocardial tissue coenzyme Q10 deficiency might be restored significantly by oral supplementation in selected cases. In the author's open clinical protocol study with coenzyme Q10 therapy (100 mg daily) nearly two-thirds of patients revealed clinical improvement, most pronounced in those with dilated cardiomyopathy. Double-blind placebo-controlled trials have definitely confirmed that coenzyme Q10 has a place as adjunctive treatment in heart failure with beneficial effects on the clinical outcome, the patients' physical activity, and their quality of life. The positive results have been above and beyond the clinical status obtained from treatment with traditional principles--including angiotensin-converting enzyme inhibitors.
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PMID:Perspectives on therapy of cardiovascular diseases with coenzyme Q10 (ubiquinone). 824 94

Improved cardiovascular morbidity and mortality have been observed in several clinical studies of dietary supplementation with coenzyme Q10 (CoQ10). We elucidated the effect of CoQ10 on certain hemostatic parameters that may influence the progression of heart disease. Twelve Yorkshire swine were randomized to receive diet supplementation with either CoQ10 or placebo for 20 days. Blood samples were obtained at baseline and at the end of the feeding period. At the end of the protocol, there were no significant differences in hemostatic parameters in the placebo group. A significant increase in total serum CoQ10 level (from 0.39 +/- 0.06 to 0.96 +/- 0.04 microgram/ml, p < 0.001) was noted after the feeding period in the CoQ10-supplemented group. We observed significant inhibition of ADP-induced platelet aggregation (-9.9%) and a decrease in plasma fibronectin (-20.2%), thromboxane B2 (TXB2, -20.6%), prostacyclin (-23.2%), and endothelin-1 (ET-1, -17.9%) level. There were no changes in the plasma concentrations of the natural antithrombotics [antithrombin-III (AT-III), protein S, and protein C] after CoQ10 supplementation. CoQ10 supplementation in a dose of 200 mg daily is associated with mild antiaggregatory changes in the hemostatic profile. Clinical beneficial effects of CoQ10 may be related in part to a diminished incidence of thrombotic complications.
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PMID:Hemostatic changes after dietary coenzyme Q10 supplementation in swine. 885 71

Serum coenzyme Q10 (CoQ10: 2-(3,7,11,15,19,23,27,31,35,39-decamethyl-2,6,10,14,18,22,26,30,34 ,38 -tetracontadecaenyl)-5,6-dimethoxy-3-methyl-1,4-benzoquinone, CAS 303-98-0) and cholesterol levels were measured to assess the effect of cholesterol-lowering therapy in patients with non-insulin-dependent diabetes mellitus (NIDDM). Twenty healthy volunteers, 97 NIDDM patients and 2 patients with familial hypercholesterolemia were studied. None had overt heart failure or any other heart disease. Mean serum CoQ10 concentrations were significantly (p < 0.01) lower in diabetic patients with normal serum cholesterol concentrations, either with or without administration of 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors (HMG-CoA RIs) including simvastatin (normal: 0.91 +/- 0.26 (mean +/- SD) mumol 1(-1); diabetic with HMG-CoA RI: 0.63 +/- 0.19; diabetic without HMG-CoA RI: 0.66 +/- 0.21). CoQ10 concentrations were higher (1.37 +/- 0.48, p < 0.001) in diabetic patients with hypercholesterolemia. Simvastatin or low density lipoprotein apheresis decreased serum CoQ10 concentrations along with decreasing serum cholesterol. Oral CoQ10 supplementation in diabetic patients receiving HMG-CoA RI significantly (p < 0.001) increased serum CoQ10 from 0.81 +/- 0.24 to 1.47 +/- 0.44 mumol 1(-1), without affecting cholesterol levels. It significantly (p < 0.03) decreased cardiothoracic ratios from 51.4 +/- 5.1 to 49.2 +/- 4.7%. In conclusion, serum CoQ10 levels in NIDDM patients are decreased and may be associated with subclinical diabetic cardiomyopathy reversible by CoQ10 supplementation.
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PMID:Effect of treatment with 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors on serum coenzyme Q10 in diabetic patients. 1033 51

The generation of reactive oxygen species (ROS) is associated with life in aerobic conditions. ROS are thought to be implicated in the pathogenesis of various human diseases since they are capable of damaging biological macromolecules such as DNA, carbohydrates and proteins. The organism maintains defense against ROS, including enzymes and low molecular-weight antioxidants. An important source of antioxidants is diet which contains numerous compounds exhibiting antioxidant activity. A shortage of antioxidants in the diet might promote coronary heart disease through accumulation of oxidized LDL in macrophages. However, antioxidants may also influence endothelial functions, smooth muscle cell proliferation, thrombosis and plaque rupture. Consumption of fruits and vegetables, olive oil, red wine and tea is inversely correlated with heart disease rates. These foods are particularly rich in natural antioxidant nutrients, including ascorbate (vitamin C), the tocopherols (vitamin E) and carotenoids. More than 600 naturally occurring carotenoids have been identified. These compounds are plant pigments that provide the bright color of various fruits and vegetables; lycopene, which gives tomatoes their red color, is under active research. Flavonoids are > 4,000 naturally occurring substances which provide color, texture and taste for plant foods. As free radical scavengers, flavonoids inhibit lipid peroxidation, promote vascular relaxation and help prevent atherosclerosis. A sufficient supply with antioxidants from diet might help prevent or delay the occurrence of pathological changes associated with oxidative stress. When diet fails to meet the antioxidant requirement, dietary supplements might be indicated. The recently coined term nutriceuticals describes a variety of nonprescription products that are used to enhance health. The best known are vitamin E, vitamin C, carotenoids, coenzyme Q10, flavonoids and the amino acid L-arginine. Rigorous clinical trials, particularly among high-risk groups, are needed before they can be recommended routinely to patients.
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PMID:Dietary antioxidants for cardiovascular prevention. 1081 86

A number of diseases affecting the heart are prevalent in canines. Acquired diseases, those which develop over the course of an animal's lifetime (rather than congenital defects present at birth), have recently been the subject of several studies to determine the efficacy of dietary supplementation on symptom presentation, disease severity, and mortality rates. Specifically, coenzyme Q10 (CoQ10), vitamin E (as alpha-tocopherol), L-carnitine, taurine, and fish oil (omega-3 fatty acids) have all been evaluated in the prevention and treatment of many types of heart disease in dogs. Other supplements with preliminary evidence, meriting further investigation, include magnesium, Crataegus, and the B vitamins. Both clinical observation and interventional trials with various breeds have provided clear evidence for the benefit of numerous supplements on canine heart disease. Appropriate levels of certain dietary nutrients have been shown to increase life span, improve life quality, reduce symptoms and physical evidence of disease, and decrease mortality rates in these animals.
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PMID:Nutritional therapy in the treatment of heart disease in dogs. 1159 Nov 72

Ubiquinones (coenzyme Qs (CoQ)) are essential for oxidative phosphorylation in yeasts and humans, although the isomers present in each are different. The human coenzyme Q, CoQ10, is administered orally for the treatment of heart disease and other disorders. Some patients, however, require much higher doses than others to attain a therapeutic CoQ10 blood level. We propose that one possible explanation for this variability is Candida colonization of the GI tract. Many common medical treatments including antibiotics and anti-hyperchlorhydric agents increase the risk of GI tract Candida colonization. Subsequent uptake and utilization of supplemental CoQ10 by the yeast could diminish availability for the human subject. Data from one patient and an in vitro pilot study using two pathogenic strains of C. albicans support this hypothesis. If C. albicans in the GI tract can hinder availability and interfere with therapeutic effects of CoQ10, it could be of clinical significance for large numbers of patients.
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PMID:Does gastrointestinal Candida albicans prevent ubiquinone absorption? 1173 12

Coenzyme Q10 (CoQ10) is synthesized by the human body and found in certain foods. Daily supplementation of CoQ10 could protect against heart disease but the bioavailability of CoQ10 supplements depends on the formulation taken. We compared the bioavailability and antioxidant properties of two commercial CoQ10 formulations, a commercial grade CoQ10 powder (commercial grade CoQ) and a new BT-CoQ10 BIO-TRANSFORMED (BT-CoQ10) obtained by fermentation of a soy-based, CoQ10-rich media with baker's yeast. Eleven healthy individuals participated in a randomized two-way crossover trial, with a 3-week washout period. Capsules containing 300 mg of either BT-CoQ10 or commercial grade CoQ10 were given daily for 1 week and multiple blood samples were taken for CoQ10, glutathione and glutathione peroxidase (GPx) determination. In 3 subjects, baseline plasma CoQ10 levels were lower prior to BT than prior to commercial grade CoQ treatment. In the remaining participants, ingestion of BT vs. commercial grade CoQ significantly increased maximum plasma CoQ10 concentration (+126%, p = 0.04) and tended to increase CoQ10 area under the curve from 0 to 24 h (+160%, p = 0.07). One week of treatment with each formulation increased plasma CoQ10 but did not alter plasma glutathione or GPx activity. The enhanced bioavailability of the BT product might be due to its predominantly reduced, hydrophilic membrane-complex form.
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PMID:Relative bioavailability and antioxidant potential of two coenzyme q10 preparations. 1262 83

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