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Query: UMLS:C0085383 (hypocapnia)
1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of "hypocirculation" and "hypercirculation" of the lungs are small. Hypocirculation has an influence of the ventilation/perfusion ratio, and can thus contribute to hypocapnia. In the early stages, hypercirculation--in particular via a left-to-right shung, leads to an increase in diffusion capacity; after a course of many years, a "counter-situation" occurs. Progressive pulmonary hypertension, as is exemplified for mitral stenosis, leads to measurable restrictive and obstructive impairment of function, and possible to unspecific hyper-reaction, as also, over the long-term, to a diminishement in membrane diffusion capacity. Chronic left heart failure is characterised by interstitial oedema at the level of the alveolar and bronchial capillary beds. The results are measurable restrictions in the static volumes, and in particular of the obstruction parameters and the closing volume that involve the small airways. In the individual case, no statement as to the extent of left heart failure is possible. In the passive pulmonary hypertension phase, diffusion capacity increases; in the further course of the disease, with development of interstitial and alveolar oedema, it decreases again. In acute left heart failure, the persistance and/or extent of pulmonary oedema is not determined solely by the magnitude of the pulmonary venous pressure. Permeability oedema--brought about by mediators--would appear to be significant on the basis of animal experiments. Not infrequently, left cardiac failure leads to small pleural effusions which occur in combination with substantial atelectasia, the aetiology of which is unclear. Interpretation difficulties are caused by the clinical findings and function-analytical data obtained in patients with a combination of chronic lung disease and reducted volume storage capacity of the pulmonary circulation and of the left heart failure, a common situation in the elderly patient. Diminished pulmonary function parameters that fail to adequate respond to bronchodilators may be an expression of left ventricular failure.
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PMID:[The lung in heart diseases]. 219 2

We studied the effects of prolonged (6 hours) hypocapnia and the abrupt termination thereof on cerebral blood flow and metabolism in six paralyzed, sedated (but not anesthetized) newborn lambs. Thirty minutes after institution of hyperventilation to an arterial carbon dioxide pressure of 15 +/- 2 torr, hyperventilation, cerebral blood flow had returned to baseline. Abrupt termination of hyperventilation after 6 hours resulted in a 110 +/- 71% increase in cerebral blood flow over baseline after 30 minutes of normocapnia. This cerebral hyperemia persisted for at least 90 minutes after hyperventilation was discontinued. Cerebral oxygen consumption did not change throughout the study. The posthypocapnia hyperemia noted in these animals after abrupt normalization of arterial carbon dioxide pressure may contribute to the increased risk of intracranial hemorrhage in newborn infants who are treated similarly in the management of pulmonary hypertension.
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PMID:Cerebral blood flow and metabolism during and after prolonged hypocapnia in newborn lambs. 250 13

Mechanically induced hyperventilation is used in the treatment of newborn infants with persistent pulmonary hypertension syndrome to induce respiratory alkalosis, which may attenuate their pulmonary vasoconstriction. Whether this treatment is effective because of the increase in arterial pH or the decrease in Paco2 was investigated in nine sedated, mechanically ventilated newborn lambs with hypoxia-induced pulmonary vasoconstriction. We found that respiratory alkalosis and metabolic alkalosis were equally effective in attenuating hypoxia-induced pulmonary vasoconstriction, but that hypocapnia (low Paco2 with a normal arterial pH) was ineffective. These results indicate that increased arterial pH, not decreased Paco2, attenuates hypoxia-induced pulmonary vasoconstriction in newborn lambs and possibly the pulmonary vasoconstriction in newborn infants with persistent pulmonary hypertension syndrome.
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PMID:Increased arterial pH, not decreased PaCO2, attenuates hypoxia-induced pulmonary vasoconstriction in newborn lambs. 308 Jul 25

Respiratory alkalosis (hypocapnia) is used to treat persistent pulmonary hypertension in newborns. With the exception of the brain, there are no data on the effects of hypocapnia on organ blood flow in the neonate. Therefore, we examined the effects of 2 h of hypocapnia on blood pressure, oxygen consumption, cardiac output and organ blood flows in puppies. In six animals (group I), reducing the PaCO2 to 21.8 +/- 1.5 mm Hg (pH 7.62 +/- 0.04) caused an immediate and sustained reduction in cerebral blood flow (40%) and in myocardial blood flow (25%). There were no significant changes in arterial blood pressure, total body oxygen consumption, cardiac output, right and left ventricular rate-pressure product, or blood flow to the gut, liver, muscle, and kidneys. In four control animals (group II)(PaCO2 39.8 +/- 3.0, pH 7.38 +/- 0.04), there were no changes in any of the measured variables (arterial blood pressure, total body oxygen consumption, cardiac output, or blood flow to any organ, including brain and heart) during 2 h of normocarbic ventilation. We did not determine whether the reductions in cerebral and myocardial blood flows were detrimental. We suspect that they were not because the animals did not develop metabolic acidosis and they had normal cardiac outputs, and ventricular rate-pressure products throughout the study.
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PMID:The effect of hypocarbia on the cardiovascular system of puppies. 643 14

A woman with mixed connective tissue disease (MCTD) developed pulmonary hypertension after delivery of a child, but had little evidence of parenchymal lung disease. This 29-year-old woman had been given a diagnosis of MCTD when she was 19 years old. She was admitted to our department two days after delivery of a child, because of dyspnea on exertion. Acute thromboembolism was suspected because of: (1) chest roentgenogram showing cardiomegaly and enlargement of the left main pulmonary artery, (2) a lung perfusion scan showing a segmental defect in the left S6 and S8 areas, (3) laboratory studies showing abnormally high WBC, LDH, FDP, and D-D dimer, and (4) arterial blood gas analyses showing mild hypoxemia and hypocapnia. Thrombolytic therapy with heparin and urokinase was begun, and was followed by a loop diurtic and anticoagulation with warfarin. One month after admission, cardiac enlargement and the A-aDO2 were found to have decreased. At that time, cardiac catheterization was done and revealed pulmonary hypertension (mean PA pressure: 45 mmHg) and low cardiac output with no detectable thrombosis in the left pulmonary artery. The patient was subsequently treated with a calcium antagonist and a prostacyclin derivative, and her condition was stable for 5 months. Then her exercise tolerance gradually decreased due to shortness of breath, and cardiomegaly gradually increased over the next 3 months. Eight months after delivery of the child, the patient died of right heart failure. In clinically stable patients with MCTD, delivery of a child may lead to pulmonary thromboembolism and pulmonary hypertension.
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PMID:[Puerperal secondary pulmonary hypertension in a patient with mixed connective tissue disease]. 747 71

Since dyspnoea on exertion is very often the first symptom of precapillary pulmonary hypertension (PPH), either from chronic thromboembolic pulmonary hypertension (CTEPH) or from idiopathic pulmonary hypertension (IPH), these patients are often first examined in a pulmonary function laboratory. We carried out a retrospective study (1987-1992) on pulmonary function in 34 patients diagnosed to have PPH by means of specific diagnostic tools, out of 5,467 patients first attending our laboratory. Nine suffered from IPH, 10 from CTEPH and 15 from Eisenmenger physiology. This last group differed from the others, since its diagnosis had been known for a long time and the stage of the disease was more advanced, when pulmonary function tests were performed in our laboratory (with a view to transplantation). Respiratory function, blood gases and arterial oxyhaemoglobin saturation (HbSaO2) during exercise (Bruce protocol), diffusing capacity of the lungs for carbon monoxide (DLCO), shunt fraction (QS%) (approximation obtained from arterial oxygen tension (PaO2) after 100% oxygen breathing) had been evaluated. In the first two groups, in contrast to other reports, we could observe no obstructive defect. Only 20% of the subjects had restrictive defects, however mild. The typical functional picture of these patients revealed normal lung volumes, normal or slightly reduced DLCO, mild hypoxaemia with hypocapnia, severe HbSaO2 drops during exercise, and pathological QS%. We conclude that every time a patient presents with breathlessness at rest or on exercise, a normal chest X-ray and respiratory function tests, pulmonary hypertension must be suspected and subject to specific and invasive tests. More severe functional impairment was observed in the PPH from the Eisenmenger disorder. This might be due to a more advanced stage of this type of hypertension at the time of our observation and/or to the different mechanisms of the diseases themselves.
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PMID:Respiratory function in precapillary pulmonary hypertension. 836 83

Twenty-five patients with acute pulmonary embolism without other pulmonary or heart diseases were analyzed for pulmonary hypertension. Doppler echocardiography was used to determine the systolic pressure of the pulmonary artery (PAPs) from the maximal velocity of the tricuspid regurgitation using corrected Bernoulli's formula (PAPs = 1.23 x 4 Vmax2 - 0.09). Pulmonary hypertension was found in 84% (21/25) of the patients with acute pulmonary embolism. PAPs values ranged between 34 and 90 mmHg (X = 54 +/- 7.5 mmHg) and hypocapnia with carbon dioxide partial pressure, PaCO2, ranged from 26 to 34 mmHg (X = 30 +/- 2 mmHg). PAPs showed a significant negative correlation with oxygen partial pressure (r = -0.87, P < 0.01). According to the findings of lung scintigraphy, all patients with pulmonary hypertension had submassive pulmonary embolism with perfusion abnormalities in two segments (X = 5 +/- 2 segments). It is concluded that pulmonary hypertension may be expected in more than 80% of the patients with submassive acute pulmonary embolism, and hypoxemia and hypocapnia. Doppler echocardiography is a noninvasive method useful in the diagnosis and follow-up of pulmonary hypertension in patients with acute pulmonary embolism.
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PMID:[Pulmonary hypertension in acute pulmonary embolism]. 864 78

In kyphoscoliosis restrictive ventilatory defect occurs. In idiopathic scoliosis vital capacity failure is significantly correlated with Cobb angle, vertebral rotation, and thoracic lordosis. Maximum voluntary ventilation is the most affected measurement. Forced expiratory volume in 1 second is reduced. Residual volume remains longtime normal. Hypoxemia due to decrease of diffusing capacity occurs, with initially reflex hyperventilation hypocapnia, and secondary hypercapnia. Pulmonary hypertension and cor pulmonale is related to hypoventilation and hypoxia. The lung situated on the concave side of the scoliosis curve shows a more functional derangement. Ventilatory pattern consists of low tidal volume and high respiratory rate with increase of ventilatory work. Scoliosis that appears in the earlier stage of the life has the worst respiratory prognosis (before 5 years of age) with impairement of lung and thoracic growth. To stimulate pulmonary and thoracic growth, intermittent ventilatory assistance by pressure preset ventilator should be performed as soon as possible and pursued up to 8 years of age, at least, more if necessity. In over 60 degrees angle idiopathic scoliosis, respiratory failure appears after 40 to 50 years of age. Non invasive ventilatory assistance with preset pressure ventilator by oral way in moderate cases and nocturnal nasal ventilation by volume ventilator or inspiratory assistance ventilator, in the most severe cases are efficient. In very severe and acute respiratory insufficiency (scoliosis over 90 degrees) ventilation by intubation then tractheostomy may be required. Earlier orthopedic management and surgical procedure to correct and stabilize spinal deformities is the best to prevent respiratory insufficiency. For scoliosis below 60 degrees, post operative pulmonary complications are very low, with no requirement of post operative ventilatory support. In very severe respiratory insufficiency treatment of respiratory failure precedes, and follows, orthotic treatment and surgical procedures; it shouldle pursued afterwards.
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PMID:[Respiratory problems in severe scoliosis]. 1043 94

Pulmonary embolism alters the distribution of ventilation/perfusion relationships, and increases pulmonary vascular resistance. These changes lead to hypoxemia and hypocapnia, and eventually, to right heart failure. The thin-walled and compliant right ventricle adapts to any increase in afterload by dilatation and decreased stroke volume, but this is largely prevented or delayed by the pulmonary circulation being a low resistance, recruitable and distensible circuit. Pulmonary embolism cannot be associated with a mean pulmonary artery pressure higher than 40 mmHg. More severe pulmonary hypertension indicates the presence of a hypertrophied right ventricle in the context of preexistent cardiac or pulmonary disease. Gas exchange is initially affected because of increased ventilation/perfusion ratios in embolized lung areas, and decreased ventilation/perfusion ratios in remaining non embolized lung areas. Both physiologic shunt and physiologic dead space increase accordingly, resulting in hypoxemia and hypocapnia. However, these changes are rapidly affected by an increase in ventilation, and by a "pneumoconstriction" which decreases physiologic dead space in embolized areas. In addition, a series of secondary alterations contribute to increase perfusion to lung units with low ventilation/perfusion ratios, thereby aggravating hypoxemia, while hypocapnia persists.
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PMID:[Physiopathology of pulmonary arterial hypertension and gas exchange in acute pulmonary embolism]. 1090 37

Hypercapnia has been shown in animal experiments to induce pulmonary hypertension. This study measured the sensitivity and time course of the human pulmonary vascular response to sustained (4 h) hypercapnia and hypocapnia. Twelve volunteers undertook three protocols: 1) 4-h euoxic (end-tidal Po(2) = 100 Torr) hypercapnia (end-tidal Pco(2) was 10 Torr above normal), followed by 2 h of recovery with euoxic eucapnia; 2) 4-h euoxic hypocapnia (end-tidal Pco(2) was 10 Torr below normal) followed by 2 h of recovery; and 3) 6-h air breathing (control). Pulmonary vascular resistance was assessed at 0.5- to 1-h intervals by using Doppler echocardiography via the maximum tricuspid pressure gradient during systole. Results show progressive changes in pressure gradient over 1-2 h after the onset or offset of the stimuli, and sensitivities of 0.6 to 1 Torr change in pressure gradient per Torr change in end-tidal Pco(2). The human pulmonary circulatory response to changes in Pco(2) has a slower time course and greater sensitivity than is commonly assumed. Vascular tone in the normal pulmonary circulation is substantial.
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PMID:Human pulmonary vascular response to 4 h of hypercapnia and hypocapnia measured using Doppler echocardiography. 1248 66


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