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

Minute ventilation (VE), tidal volume (VT), carbon dioxide elimination (VCO2), and end-tidal (PETCO2) and arterial CO2 tensions (PaCO2) were measured in 39 anesthetized infants and children with body weights ranging from 3.1 to 31 kg. Eighteen children had normal cardiopulmonary function, seven had acyanotic congenital heart disease, and 11 had cyanotic congenital heart disease. One child had left heart failure and pulmonary congestion, and two had severe parenchymal lung disease. To evaluate differences between pulmonary gas exchange calculated from PaCO2 versus PETCO2, dead space volume (VD) and alveolar ventilation (VA) based on a PaCO2 (VDa, VAa) as well as on PETCO2 (VDET, VAET) were performed, and correlations between PaCO2-PETCO2, VDa/VT-VDET/VT, and VAa-VAET were carried out. It was demonstrated that in normal children, as well as in those with acyanotic congenital heart disease, PETCO2 correlated closely with PaCO2 (r = 0.94, 0.98, respectively). In children with cyanotic congenital heart disease, however, correlation between PETCO2 and PaCO2 was relatively poor (r = 0.61). Mean values for PaCO2 were significantly higher than PETCO2 in the cyanotic children (P less than 0.01), resulting in significant underestimation of physiologic dead space (P less than 0.05) and significant overestimation of alveolar ventilation (P less than 0.01). In three patients with pulmonary disease, large differences between PaCO2 and PETCO2 were comparable with those observed in the children with cyanotic congenital heart disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Relationship between invasive and noninvasive measurements of gas exchange in anesthetized infants and children. 310 50

Noninvasive quantification of regional myocardial metabolism would be highly desirable to evaluate pathogenetic mechanisms of heart disease and their response to therapy. It was previously demonstrated that the metabolism of radiolabeled acetate, a readily utilized myocardial substrate predominantly metabolized to carbon dioxide (CO2) by way of the tricarboxylic acid cycle, provides a good index of oxidative metabolism in isolated perfused rabbit hearts because of tight coupling between the tricarboxylic acid cycle and oxidative phosphorylation. In the present study, in a prelude to human studies, the relation between myocardial clearance of carbon-11 (11C)-labeled acetate and myocardial oxygen consumption was characterized in eight intact dogs using positron emission tomography. Anesthetized dogs were studied during baseline conditions and again during either high or low work states induced pharmacologically. High myocardial extraction and rapid blood clearance of tracer yielded myocardial images of excellent quality. The turnover (clearance) of 11C radioactivity from the myocardium was biexponential with the mean half-time of the dominant rapid phase averaging 5.4 +/- 2.2, 2.8 +/- 1.3 and 11.1 +/- 1.3 min in control, high and low work load studies, respectively. No significant difference was found between the rate of clearance of 11C radioactivity from the myocardium measured noninvasively with positron emission tomography and the myocardial efflux of 11CO2 measured directly from the coronary sinus. The rate of clearance of the 11C radioactivity from the heart correlated closely with myocardial oxygen consumption (r = 0.90, p less than 0.001) as well as with the rate-pressure product (r = 0.95, p less than 0.001). Hence, the rate of oxidation of 11C-acetate can be determined noninvasively with positron emission tomography, providing a quantitative index of oxidative metabolism under diverse conditions.
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PMID:Noninvasive assessment of canine myocardial oxidative metabolism with carbon-11 acetate and positron emission tomography. 326 28

During exercise, the oxygen consumption above which aerobic energy production is supplemented by anaerobic mechanisms, causing a sustained increase in lactate and metabolic acidosis, is termed the anaerobic threshold (AT). The oxygen consumption at the AT depends on factors that affect oxygen delivery to the tissues. It is increased when oxygen flow is enhanced and decreased when oxygen flow is diminished. Its value is quite low in patients with heart disease. The AT is an important functional demarcation since the physiological responses to exercise are different above the AT compared to below the AT. Above the AT, in addition to the development of metabolic acidosis, exercise endurance is reduced, VO2 kinetics are slowed so that a steady state is delayed, and VE increases disproportionately to the metabolic requirement and a progressive tachypnea develops. The AT can be measured directly from the lactate concentration with precise threshold detection from a log-log transformation of lactate and VO2. This threshold also defines the VO2 above which the lactate/pyruvate ratio increases. As bicarbonate changes reciprocally with lactate, its measurement can also be used to estimate the lactate threshold. But most convenient are gas exchange measurements made during exercise testing which can be used to noninvasively detect the lactate or anaerobic threshold. These methods are based on the physical-chemical event of buffering lactic acid with bicarbonate, and the increased CO2 output which occurs in association with the acute development of a metabolic acidosis.
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PMID:The anaerobic threshold: definition, physiological significance and identification. 355 13

Favorable early results have been reported utilizing transthoracic diaphragmatic plication in symptomatic children with phrenic nerve injury. However, little has been published about the late functional results of this technique. Since 1976, 10 of 3,000 patients operated on for congenital heart disease have sustained phrenic nerve injury with subsequent respiratory embarrassment. An additional patient sustained phrenic nerve injury as a result of birth trauma. The diagnosis was confirmed by paradoxical diaphragmatic motion on fluoroscopy. All but 2 patients were less than 5 months old at the time of diaphragmatic plication, and the average weight was 5.4 kg. The indication for diaphragmatic plication was inability to wean from the ventilator in 8 of the 11 patients and persistent postoperative tachypnea, stridor, and CO2 retention in the remaining 3 patients. A more aggressive approach to diagnosis and operative treatment since 1980 has resulted in a substantially shorter duration of endotracheal intubation and a shorter stay in the intensive care unit. Diaphragmatic fluoroscopy 1 to 7 years postoperatively has demonstrated return of normal function in 6 of 6 patients studied.
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PMID:Long-term fate of the diaphragm surgically plicated during infancy and early childhood. 360 60

To validate the CO2-rebreathing method ( Defare 's method) for estimating cardiac output in children and young adults, measurements were compared to thermodilution ( TDCO ) cardiac output in 16 subjects (age 7-19 yr) with congenital heart disease. Data were collected at rest (N = 11) and during 4-min stages of supine bicycle exercise (N = 13). Estimated arterial-venous (-v-a)CO2 content differences related linearly to the measured CO2 content difference (Y = 0. 29X + 2.47, r = 0.65, P less than 0.001). With this (v-a)CO2 difference correction for all patients (N = 16), the correlation between CO2-rebreathing cardiac output and the TDCO was r = 0.87 (SEE = +/- 1.8 l X min-1). The correlation was higher for exercise (r = 0.81) than for rest (r = 0.65). We conclude that the CO2-rebreathing method, with a (v-a)CO2 content difference adjustment, is a simple, noninvasive technique providing estimates of cardiac output in children and young adults with congenital heart disease. Individual estimates should be treated with caution, especially when used for clinical evaluations.
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PMID:Validity of CO2-rebreathing cardiac output during rest and exercise in young adults. 643 Dec 21

The normoxic ventilatory drive contributes to the normal level of ventilation, and the hypoxic ventilatory drive contributes to the maintenance of adequate gas exchange in the presence of ventilation/blood flow maldistribution and increased mechanical load to breathing. This respiratory drive arises principally from stimuli at the carotid chemoreceptors. The reflex cardiovascular responses to hypoxia also contribute to the delivery of O2 to vital organs, and their efficacy depends on the integrity of the respiratory response and the autonomic nervous system as well as the function of the vascular system. Prolonged exposure to hypoxemia from altitude, cyanotic congenital heart disease, and chronic pulmonary disease impair the ventilatory response to hypoxia. In addition, the respiratory and cardiovascular responses to hypoxemia are impaired by familial or acquired abnormalities of the autonomic effector system. There is growing evidence that impaired respiratory response to hypoxemia is a major factor in recurrent respiratory failure in obesity, obstructive pulmonary disease, idiopathic or familial "hypoventilation," and contributes to disturbances in oxygenation during sleep [152, 189, 192, 202]. Although the ventilatory response to hypoxemia was traditionally thought to be resistant to the effects of inhalational anesthetics, barbiturates, and narcotics, there is abundant evidence that in fact the ventilatory response to hypoxia is more sensitive to depression by drugs than the ventilatory response to CO2. In addition, the hemodynamic responses to hypoxia are modified by anesthesia and anesthetic techniques. The clinical implications of these observations are wide. The ventilatory and cardiovascular response to hypoxemia will be altered, and usually depressed by age, disease processes, premedicant and anesthetic drugs, and autonomic blocking drugs. The cardiovascular responses will be modified indirectly by altered ventilatory control due to neuromuscular blocking drugs and controlled ventilation. Thus, not only will the responses to hypoxemia be depressed by anesthesia but the early clinical hemodynamic signs will be modified or absent, or indeed the cardiovascular response will further impair oxygen delivery. Furthermore, it is not only anesthetic doses that impair the reflex respiratory responses, but also subanesthetic doses of inhalational anesthetics and premedicant doses of barbiturates and narcotics. Hence the patient in the perioperative period continues to have impaired respiratory response to hypoxemia. As anesthetic and surgical care extends to older patients, patients with systemic disease, and recipients of cardiovascular peripheral and central drugs, the clinical implications of the impairment of ventilatory and cardiovascular responses to hypoxia, and the maintenance of organ and system function, escalate. Only a few hesitant steps have been taken into this vast arena of clinical and experimental research.
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PMID:Respiratory and cardiovascular responses to hypoxemia and the effects of anesthesia. 702 55

A dependence is studied between changes in the HCO3- and CO2 levels, the content of pyruvate and lactate in blood and the manifestation of disturbances of external respiration in pregnant women suffering from the rheumatic and congenital heart disease. Changes in the carbonic acid level in the blood of pregnant women with pathology of the cardiovascular system correlate reliably, with the frequency and gravity of complications in the course of pregnancy, labour, the state of the fetus and newborn. Some modern methods are considered for regulating acid-base balance, their brief critical analysis is presented with the view of using them in the obstetric practice. Possibility of carbostimulin application in hypoxic states of the mother, fetus and newborn is discussed.
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PMID:[State of blood acid-base balance of the normal pregnant woman, fetus and newborn and with hypoxia and certain aspects of its regulation]. 738 72

The authors examine the prophylaxis of infections caused by cholelithiasis in kidney and heart transplant candidates as a new indication for videolaparoscopic cholecystectomy (VLC). The study included 6 patients in dialysis for chronic renal insufficiency and one patient suffering from cyanogenic congenital cardiopathy with asymptomatic gallbladder calculosis. The results obtained show that there are no substantial differences compared to patients without associated pathologies and justifies the inclusion of "prophylactic" VLC in preparatory treatment protocols for kidney and heart transplant in patients suffering from cholelithiasis. The authors emphasise the necessary technical measures to prevent hemorrhage, intraoperative loss of CO2 and postoperative laparoceles.
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PMID:["Prophylactic" video-laparoscopic cholecystectomy]. 780 76

Hyperoxia is a risk factor for retinopathy of prematurity (ROP), a blinding disease in infants. However, ROP develops in human infants without raised arterial oxygen levels, such as in cyanotic congenital heart disease. In these infants raised pCO2 may be a risk factor. We investigated the effect of inspired CO2 on oxygen induced retinopathy in the rat. 56 newborn Sprague-Dawley rats were exposed to high cyclical O2 for seven days. In a control group, 27 rats were exposed to negligible CO2 by the use of soda lime. In the high CO2 group, 29 rats were exposed to elevated CO2 by omitting soda lime from their chambers. Rats in both groups had a recovery period of three days in room air following cyclical O2 exposure. On the eleventh day all rats were sacrificed after intracardiac injections of fluorescein under deep anesthesia and the retinae were dissected and flat mounted for fluorescent microscopy. The ratio of vascularized:total retinal area was calculated using computer assisted image analysis. In the high CO2 group 62% +/- 7% SD of the retina was vascularized vs. 81% +/- 7% in low CO2 group (p < 0.001). Elevated inspired CO2 results in pronounced retardation of retinal vascular development in neonatal rats exposed to fluctuating raised oxygen.
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PMID:The effect of raised inspired carbon dioxide on developing rat retinal vasculature exposed to elevated oxygen. 784 26

This paper explains the physiological and biochemical basis of the anaerobic threshold (AT), achieved during physical exercise. The lactate concentration is approximately the same at rest in relatively fit adults, in normal sedentary subjects in adult patients with heart disease. But during exercise, the increase of lactate is inversely related to the physical fitness of the individual. During incremental work, the lactate concentration increases initially very little until a distinct metabolic rate (VO2 AT) is reached at which lactate starts to increase steeply (anaerobic threshold/AT; VO2 AT). Above the anaerobic threshold, accelerated glycolysis increases muscle lactic acidosis. This acidosis is buffered primarily by bicarbonate. The bicarbonate-derived CO2 causes an increased alveolar CO2 output relative to O2 uptake. Oxygen uptake is increased virtually linearly with work rate in healthy subjects with a slope of approximately 10 ml O2/min/Watt. VCO2 starts to increase more steeply in the mid-work-rate range after an initial linear behavior. This steepening is caused by an increased CO2 production from the HCO3-buffering of lactic acid for the range of work rates above the AT. Below the AT, the slope of increase in VCO2 is 1 or slightly less, averaging 0.95. Above the AT, it is greater than 1. The submaximal exercise protocol for the determination of AT includes a period of 2-3 min of unloaded cycling, a ramp program with x Watt increase/minute and a recovery period of 2 min. X is the rate of work rate increase per min, so that the incremental period of the exercise test lasts 8-10 min, stressing the patient for only a short time. The anaerobic threshold can be determined during the ramp program using the following four parameters: 1) steeper increase of VCO2 as compared to VO2 (V-slope-method); 2) respiratory exchange ratio = 0.95; 3) PETO2 increase; 4) VE/VO2 increase. The V-slope-method can be successfully applied, not only in healthy volunteers, but also in patients suffering from cardiac and/or pulmonary (breathing abnormalities) diseases. The so far published data show that the anaerobic threshold in healthy people and patients is a highly reproducible, accurately measurable, securely achievable parameter for the non-invasive evaluation of the individual cardiopulmonary exercise capacity.
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PMID:Determination of the anaerobic threshold by gas exchange: biochemical considerations, methodology and physiological effects. 794 54


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