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Query: UMLS:C0034065 (
pulmonary embolism
)
14,979
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fatty acid metabolism has been reported to be impaired earlier than myocardial blood flow in left ventricular hypertrophic myocardium, e.g., in hypertrophic cardiomyopathy or
hypertensive heart disease
. The purpose of this study was to determine whether impaired fatty acid metabolism also occurs in right ventricular (RV) hypertrophy. The subjects consisted of 6 patients with chronic obstructive pulmonary disease, 4 with primary pulmonary hypertension, 2 each with refractory pulmonary tuberculosis, tricuspid insufficiency,
pulmonary embolism
, 1 each with atrial septal defect, ventricular septal defect (Eisenmenger complex), Ebstein anomaly, and endocardial defect, and 7 healthy controls. SPECT imaging with Tl-201 (Tl) and I-123 beta-methyliodophenyl pentadecanoic acid (BMIPP), and Tc-99m RBC first pass and gated blood pool scintigraphy were performed. Based on Tl planar images, the subjects were classified into 3 groups: 7 patients with no RV visualization (Group A), 11 with moderate RV visualization (Group B) and 9 with marked RV visualization (Group C). As a semi-quantitative evaluation by Tl myocardial SPECT, 3 regions in 3 representative short axial images were divided into 9 segments, each of which was graded from 0 to +3, and their sum was calculated as the RV score. The right ventricular ejection fraction (RVEF) and the left ventricular ejection fraction were obtained by Tc-99m RBC cardiac scintigraphy. The groups with marked visualization of the right ventricle had lower RVEF (p < 0.01), and there was a good correlation between the RVEF and the RV score with both Tl and BMIPP (Tl: r = -0.79, BMIPP: r = -0.70). Although a good correlation was demonstrated between the RV score with Tl and BMIPP in Groups A and B (r = 0.86, p < 0.001), in Group C, in which there was marked RV T1 visualization, the RV score with BMIPP was significantly smaller than with Tl (BMIPP vs. Tl: 11.5 +/- 3.7 vs. 16.4 +/- 3.8, p < 0.01). These findings suggest that impaired fatty acid metabolism may exist in severely hypertrophic right ventricle due to RV overload.
...
PMID:Detection of impaired fatty acid metabolism in right ventricular hypertrophy: assessment by I-123 beta-methyl iodophenyl pentadecanoic acid (BMIPP) myocardial single-photon emission computed tomography. 931 Jan 69
Morbid obesity causes co-morbidity such as diabetes mellitus,
hypertensive heart disease
, sleep apnoea, degenerative bone diseases and increased incidence of malignancy. Life expectancy and quality of life are reduced significantly. Without adequate weight loss, treatment of co-morbidity remains symptomatic only. Surgical treatment of morbid obesity is the one therapy promising long-term success, since conservative procedures normally lead to recurrence of overweight. We performed laparoscopic gastric banding on 130 patients between 1.11.95 and 31.10.97. Mean overweight was 63 +/- 12.7 kg (SD), and mean BMI was 46.5 +/- 4.6 kg/m2. The average hospital stay was 5.5 +/- 1.5 days. 4 patients with postoperative
pulmonary embolism
were treated with oral anticoagulation. We performed 9 (6.9%) reoperations because of pouch dilatation or dorsal slipping with food intolerance in the first series of 70, and none in the second series of 60 patients. Median weight loss after 3 months was 14.7 +/- 4.2 kg, after six months 24.0 +/- 6.6 kg and after 12 months 33.2 +/- 8.5 kg, corresponding to excessive weight loss (EWL) of 55.9 +/- 14.8% in the first year. 14 (70%) of 20 patients with diabetes mellitus normalised and 6 patients with diabetes mellitus normalised and 6 patients showed improved blood sugar levels. All 36 patients with
hypertensive heart disease
had normalised blood pressure, 60% of them without further medical antihypertensive treatment after median EWL of 36%. Cholesterol levels normalised in 30 (57%) patients and improved in 20 (38%) after 6 months. Laparoscopic gastric banding is a suitable method for reducing weight in morbid obesity patients and provides a better quality of life in a group of patients who are carefully evaluated and followed. Reducing co-morbidity and improving ability to work have a positive economic impact on health care costs.
...
PMID:[Morbid obesity: 130 consecutive patients with laparoscopic gastric banding]. 975 89
Chest pain can arise from cardiovascular or noncardiovascular causes. Among the latter are the skin, the chest wall, intrathoracic structures, or subdiaphragmatic organs. The problem to attribute the chest discomfort to either the heart or extracardiac organs arises because the heart, pleura, aorta, and esophagus are all supplied by sensory fibers from the same spinal segments. In contrast to the diseases mentioned above, angina pectoris in sensu strictu is defined as chest pain or discomfort of cardiac origin that arises because of temporary imbalance between myocardial oxygen supply and demand. The metabolic oxygen requirements of the myocardium are essentially dictated by myocardial contraction since only a fraction of the consumed oxygen is needed by the quiescent heart. Therefore, the factors that primarily influence myocardial oxygen consumption include heart rate, the force of cardiac contraction, and myocardial wall tension, as determined by pressure (afterload), volume (preload), and wall thickness. Extracoronary diseases, e.g.
hypertensive heart disease
, aortic stenosis or cardiomyopathies, can influence these factors and induce angina pectoris (Figure 1). On the other hand, different diseases influencing the oxygen supply, e.g. anemia, can cause angina pectoris, too. In addition, the modulation of the coronary tone by mediators and cytokines can cause angina, coronary spasm being one example. The neurophysiological substrate of angina pectoris are ganglia which are present within the heart, particularly in epicardial fat. The sympathetic nervous system is the main conveyer of afferent pain fibers from the heart and pericardium, but many fibers may travel by the vagus and the phrenic nerves. Therefore, multiple thoracic structures may cause similar pain syndromes in the distressed patient. The blood supply of intrinsic cardiac ganglia arises primarily from branches of the proximal coronary arteries. Adenosine, among a number of substances, can modulate the activity generated by cardiac afferent nerve endings and intrinsic cardiac neurones. During myocardial ischemia adenosine is released in large quantities into the interstitial space. Given as an intravenous bolus to healthy volunteers or to patients with ischemic heart disease and angina pectoris, adenosine provokes angina pectoris-like pain, which is similar to habitual angina pectoris with regard to quality and location. But other mediators (e.g. bradykinin, histamine, prostaglandins, potassium, lactate) can be involved in the development of angina pectoris, too. As most emphasis should be given to the most serious causes first, the cardiologist has to consider ischemic cardiac disease in the differential diagnosis of nearly every case of acute chest pain. The differential diagnosis contains several causes of nonischemic cardiac chest pain. Dissecting aortic aneurysm may cause severe anterior chest pain that can be mistaken for myocardial infarction. Patients frequently will note the sudden onset of the pain rather than the relatively slower onset of ischemic pain. Furthermore, they feel as a tear and describe it as the most severe pain they have ever had. Pericarditis can be characterized as a sharp precordial knife-like pain that is often increased by lying down, breathing, swallowing, or any other thoracic motion. Radiation of pericardial pain is often relieved by sitting up or leaning forward. It may involve the shoulders, upper back, and neck because of the irritation of the diaphragmatic pleura. Acute
pulmonary embolism
is associated with severe chest pain. It may mimic acute myocardial infarction.
Pulmonary embolism
should be suspected when dyspnea or tachypnea seems to be disproportionate to the severity of the chest pain. Diffuse esophageal spasm is the extracardiac condition that is confused most often with ischemic cardiac chest pain. This pain presents as a deep thoracic pain that may be present over most of the thorax. It may extend down the anterome
...
PMID:[Angina pectoris in extracoronary diseases]. 1037 99
Peripartum cardiomyopathy (PPCM) is a potentially life-threatening condition typically presenting as heart failure with reduced ejection fraction (HFrEF) in the last month of pregnancy or in the months following delivery in women without another known cause of heart failure. This updated position statement summarizes the knowledge about pathophysiological mechanisms, risk factors, clinical presentation, diagnosis and management of PPCM. As shortness of breath, fatigue and leg oedema are common in the peripartum period, a high index of suspicion is required to not miss the diagnosis. Measurement of natriuretic peptides, electrocardiography and echocardiography are recommended to promptly diagnose or exclude heart failure/PPCM. Important differential diagnoses include
pulmonary embolism
, myocardial infarction,
hypertensive heart disease
during pregnancy, and pre-existing heart disease. A genetic contribution is present in up to 20% of PPCM, in particular titin truncating variant. PPCM is associated with high morbidity and mortality, but also with a high probability of partial and often full recovery. Use of guideline-directed pharmacological therapy for HFrEF is recommended in all patients respecting contraindications during pregnancy/lactation. The oxidative stress-mediated cleavage of the hormone prolactin into a cardiotoxic fragment has been identified as a driver of PPCM pathophysiology. Pharmacological blockade of prolactin release using bromocriptine as a disease-specific therapy in addition to standard therapy for heart failure treatment has shown promising results in two clinical trials. Thresholds for devices (implantable cardioverter-defibrillators, cardiac resynchronization therapy and implanted long-term ventricular assist devices) are higher in PPCM than in other conditions because of the high rate of recovery. The important role of education and counselling around contraception and future pregnancies is emphasised.
...
PMID:Pathophysiology, diagnosis and management of peripartum cardiomyopathy: a position statement from the Heart Failure Association of the European Society of Cardiology Study Group on peripartum cardiomyopathy. 3124 66
