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 170,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cardiopulmonary effects and tendencies to produce ventricular arrhythmias were evaluated in 13 dogs given a surgical plane of anesthesia by thiopental (IV) or a combination of thiopental and lidocaine (IV). Thiopental (22 mg/kg of body weight) was compared with a combination of thiopental (11 mg/kg) and lidocaine (8.8 mg/kg). Preanesthetic agents were not given. Both methods for IV anesthesia provided a smooth induction suitable for easy intubation. The thiopental/lidocaine combination had a shorter duration, produced no arrhythmias, and resulted in less cardiopulmonary depression than did thiopental alone. Bigeminy developed after intubation during 19 of 20 thiopental inductions as compared with that in 0 of 22 thiopental/lidocaine inductions. The bigeminies were preceded by systemic hypertension and tachycardia which developed as the trachea was being intubated. The increase in aortic pressure and heart rate was minimal after intubation during the thiopental/lidocaine inductions. Five minutes after administration of thiopental alone, increases in heart rate, aortic pressure, total peripheral vascular resistance, and left ventricular systolic and end-diastolic pressures were observed. When these increases in rate, preload, and afterload were considered in relation to a stabile maximum positive first derivative of left ventricular pressure, left ventricular contractility was considered to be decreased. Mild respiratory acidosis and hypoxemia were present at 5 and 10 minutes after thiopental induction. Because the combination of thiopental/lidocaine had less cardiopulmonary depressive effects and protected against arrhythmias, it would appear to be a good method for anesthetic induction of the patient with cardiopulmonary disease. In the patient with normal cardiopulmonary function, thiopental produces only a moderate and reversible depression.
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PMID:Cardiopulmonary effects of thiopental/lidocaine combination during anesthetic induction in the dog. 682 18

We hypothesized that nitric oxide (NO) inhalation in a model of meconium aspiration in newborn piglets would decrease pulmonary vascular resistance. Seven neonatal piglets were obtained at less than 48 hr of age and instrumented under fentanyl anesthesia. Inhaled NO (40 parts per million) was administered during normoxia and again after hypoxia was induced by reducing FiO2 to 0.13. During normoxia NO inhalation caused a fall in pulmonary artery pressure from a mean of 3.15 (SD 0.8) kPa to 2.84 (SD 0.7) kPa (P < 0.01). Hypoxia (mean arterial O2 saturation 35%) increased PA pressures to a mean of 5.4 (SD 1.6) kPa and NO administration during hypoxia decreased PA pressures to 3.6 (SD 1.2) kPa (P < 0.001). In order to determine the effects of NO in a model of meconium aspiration, 6 to 7 mL/kg of 20% human meconium in normal saline was instilled into the trachea. This procedure induced hypoxemia (mean SaO2 43.4%, SD 19), respiratory acidosis, (mean PaCO2 12.1 kPa, SD 0.5; mean pH 7.04, SD 0.03), and pulmonary arterial hypertension (mean pulmonary artery pressure 6.0 kPa, SD 1.3) despite ventilation with 90% oxygen. Inhaled NO was then administered in concentrations of 5, 10, 20, 30, 40, 60, and 80 parts per million in random order according to a Latin square design.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhaled nitric oxide improves oxygenation in piglets with meconium aspiration. 747 78

The objective of this study was to evaluate the physiologic consequences of a pneumoperitoneum (pneumo) to the midterm fetus in a pregnant sheep model. The performance of laparoscopic cholecystectomy (LC) during pregnancy is controversial. The primary concern regarding the safety of LC during pregnancy is the physiologic consequences of the CO2 pneumo to the fetus. Eight ewes with singlet pregnancies between 100 and 120 days of gestation were anesthetized and intubated. Carotid artery and internal jugular catheters were placed in the ewe and in the fetus. Two trocars were placed through the abdominal wall of the ewe and the abdomen was inflated with CO2 or N2O at 15 mmHg pressure for 90-120 min. Hemodynamic and blood gas data were obtained every 15 min before, during, and after the pneumo. In two ewes attempts were made to keep maternal Pco2 constant with hyperventilation. In two other animals the pneumo was increased stepwise in five mmHg increments to 25 mmHg. One fetus succumbed during the CO2 pneumo, but this animal appeared to be ill during the establishment of invasive monitoring. Fetal respiratory acidosis occurred, reproducibly, after establishment of CO2 pneumo but did not occur before insufflation or under N2O pneumo (P < 0.0001). Hemodynamic changes were minimal with all agents but it appeared that there a was greater prevalence of fetal tachycardia and hypertension during CO2 pneumo than during N2O pneumo. Alterations in ventilator settings based on maternal capnography resulted in late and incomplete correction of respiratory acidosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Carbon dioxide pneumoperitoneum induces fetal acidosis in a pregnant ewe model. 759 97

During the last 4 years, fifty-seven patients of acute severe asthma (ASA) were admitted to intensive care unit (ICU). Twenty-three patients required mechanical ventilation (MV) on 25 occasions. Indications to intubate were persistent hypoxia (PaO2 < or = 55 mm Hg) or hypercapnia with respiratory acidosis (64%), abnormal mentation (24%) and respiratory arrest (12%). All the patients were monitored for clinical features, arterial blood gases (ABG) and peak airway pressure (PAP). During MV, there was one case of pneumothorax (4%), seven (28%) cases of transient hypertension and one (4%) patient died. Mean duration of MV was 3 days and the outcome was favourable. Therefore, resorting to aggressive treatment early in the course of disease proves life saving in acute severe asthma.
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PMID:Role of mechanical ventilation in acute severe asthma. 803 18

In physiological conditions, the regulation of acid-base balance in brain maintains a noteworthy stability of cerebral pH. During systemic metabolic acid-base imbalances cerebral pH is well controlled as the blood/brain barrier is slowly and poorly permeable to electrolytes (HCO3- and H+). Cerebral pH is regulated by a modulation of the respiratory drive, triggered by the early alterations of interstitial fluid pH, close to medullary chemoreceptors. As blood/brain barrier is highly permeable to Co2, CSF pH is corrected in a few hours, even in case of severe metabolic acidosis and alkalosis. Conversely, during ventilatory acidosis and alkalosis the cerebral pH varies in the same direction and in the same range than blood pH. Therefore, the brain is better protected against metabolic than ventilatory acid-base imbalances. Ventilatory acidosis and alkalosis are able to impair cerebral blood flow and brain activity through interstitial pH alterations. During respiratory acidosis, [HCO3-] increases in extracellular fluids to control cerebral pH by two main ways: a carbonic anhydrase activation at the blood/brain and blood/CSF barriers level and an increase in chloride shift in glial cells (HCO3- exchanged for Cl-). During respiratory alkalosis, [HCO3-] decreases in extracellular fluids by the opposite changes in HCO3- transport and by an increase in lactic acid synthesis by cerebral cells. The treatment of metabolic acidosis with bicarbonates may induce a cerebral acidosis and worsen a cerebral oedema during ketoacidosis. Moderate hypocapnia carried out to treat intracranial hypertension is mainly effective when cerebral blood flow is high and vascular CO2 reactivity maintained. Hypocapnia may restore an altered cerebral blood flow autoregulation. Instrumental hypocapnia requires a control of cerebral perfusion pressure and cerebral arteriovenous difference for oxygen, to select patients for whom this kind of treatment may be of benefit, to choose the optimal level of hypocapnia and to avoid any deleterious effect. If hypocapnia is maintained over several days, an adaptation of CSF pH may limit the therapeutic effect on the cerebral blood flow and the intracranial pressure.
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PMID:[Acid-base equilibrium and the brain]. 809 67

Intracellular pH (pHi) and developed pressure during hypercapnic acidosis were studied in the spontaneously hypertensive rat (SHR) heart and Wistar-Kyoto controls. Developed pressure was determined using a modified Langendorff isovolumic perfusion technique and 31P magnetic resonance spectroscopy was used to determine pHi. In response to acidosis, both developed pressure and pHi first decreased and then partially recovered. In the SHR group, pHi during the early periods of acidosis was significantly higher than in the control group while there was no significant difference in the steady-state pHi. The addition of 5-(N,N)-hexamethylene-amiloride (HMA), a specific inhibitor of Na(+)-H+ exchange, abolished these difference. Furthermore, HMA was found to inhibit recovery in pHi and developed pressure during acidosis in both groups. These results demonstrate that Na(+)-H(+)-exchange in the rat heart plays a major role in pHi regulation and contributes to functional recovery during acidosis. In addition, Na(+)-H(+)-exchange activity, as previously found in other tissues in hypertension, is increased in the SHR heart.
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PMID:Altered Na(+)- H(+)- exchange activity in the spontaneously hypertensive perfused rat heart. 852 11

Sixty two samples of amniotic fluid, collected by ultrasound guided amniocentesis, were submitted to biochemical investigation including 31 samples from women with pregnancy complicated by hypertension (studied group) and 31 samples deriving from healthy pregnant women (control group with). The following parameters of acid-base balance were measured in amniotic fluids of both groups: pH, pCO2, base deficiency, standard HCO3 and total CO2. Corning device type 168 was used. Distinct metabolic-respiratory acidosis was present in amniotic fluids of studied group showing the decrease of a pH, pO2, standard HCO3 values and an increase of CO2 values and base deficiency. Authors believe in pregnancy complicated by hypertension biochemical environment of intrauterine fetal development with regard to acid-base balance is highly unfavourable.
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PMID:[Evaluation of fetal condition in pregnancy complicated by hypertension--biochemical assessment of amniotic fluid. III. Acid-base balance]. 928 53

We evaluated the hypothesis that venous congestion (increased venous volume), as reflected by venous hypertension (increased venous pressure), can arise when the right ventricle is unable to elevate the pulmonary arterial pressure sufficiently to propel the cardiac output through an anatomically inadequate or inappropriately constricted pulmonary vasculature. Changes in venous pressure were evaluated in clinically healthy broilers during modest increases in pulmonary vascular resistance induced by inhalation of 5% CO2 and during large increases in pulmonary vascular resistance accomplished by acutely tightening a snare around one pulmonary artery. Inhalation of 5% CO2 induced a pronounced respiratory acidosis, as reflected by increases the partial pressure of CO2 and the hydrogen ion concentration in arterial blood. Inhalation of 5% CO2 also increased pulmonary arterial pressure by approximately 3 mm Hg and increased venous pressure by approximately 1 mm Hg when compared with the pre-inhalation venous pressure. Tightening the pulmonary artery snare increased the pulmonary arterial pressure by approximately 10 mm Hg, and this degree of pulmonary hypertension was sustained until the snare was released. When compared with the pre- and post-snare intervals, tightening of the pulmonary artery snare induced a sustained increase in venous pressure of > or = 1 mm Hg. Veins have highly compliant walls that permit an approximate doubling in volume with only small (4 to 6 mm Hg) increases in central venous pressure. Presumably the apparently modest 1 mm Hg increase in venous pressure measured after CO2 inhalation or unilateral pulmonary artery occlusion reflects a large increase in venous volume and, thus, substantial venous congestion. These observations support the hypothesis that increases in pulmonary vascular resistance can initiate increases in venous pressure by challenging the capacity of the right ventricle to propel all of the returning venous blood through the lungs. Central venous congestion predisposes broilers to the onset of cirrhosis and ascites by impeding the outflow of hepatic venous blood and increasing the hydrostatic pressure within hepatic sinusoids.
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PMID:Venous blood pressure in broilers during acute inhalation of five percent carbon dioxide or unilateral pulmonary artery occlusion. 1053 94

In this article, we describe a case of a subarachnoid hemorrhage (SAH) in an acute severe asthma patient following mechanical hypoventilation. A 49-year-old man was admitted to an Intensive Care Unit with an acute exacerbation of asthma. After 3 days of mechanical ventilation (hypercapnia and normoxaemia), it was noted that his right pupil was fixed, dilated, and unreactive to light. Computed tomography (CT) scan showed localized SAH within the basilar cisterns and diffuse cerebral swelling. On the fourth day, a new CT scan showed hemorrhage resorption and a cerebral swelling decrease. In the following days, the patient's condition continued improving with no detectable neurological deficits. A review of similar published reports showed that all patients performed respiratory acidosis, normoxaemia, and hypercapnia. The most frequent neurological sign was mydriasis, and all subjects showed cerebral edema. Since normoxaemic hypercapnia has been associated with absence, or less cerebral edema, we considered additional factors to explain cerebral edema and intracranial hypertension causes. Thus, intrathoracic pressures due to patient's efforts by forcibly exhaling, or during mechanical ventilation, would further increase intracranial pressure by limiting cerebral venous drainage. This case emphasizes the fact that patients with acute severe asthma who have developed profoundly hypercarbic without hypoxia before or during mechanical ventilation, may have raised critical intracranial pressure.
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PMID:Subarachnoid hemorrhage following permissive hypercapnia in a patient with severe acute asthma. 1059 94

The anaesthetic and cardiopulmonary effects of combinations of medetomidine (Me), midazolam (Mi) and butorphanol (Bu) were evaluated in dogs. The characterization of anaesthetic effects was assessed using a scoring system. The combinations tested were 20 or 40 micrograms/kg Me and 0.5 mg/kg Mi (20Me-Mi or 40Me-Mi) followed by either an intravenous injection of physiological saline solution (PSS) or Bu (0.1 or 0.3 mg/kg). The mixture of Me and Mi was injected intramuscularly, followed 15 min later by an intravenous injection of Bu or PSS in all six groups. The combined Me-Mi induced deep sedation but not profound anaesthesia. The effect of the subsequent Bu administration was observed in the scores related to its analgesic effect. There were no significant differences between the two doses of Bu, following either 20Me-Mi or 40Me-Mi in the duration of anaesthesia, heart and respiratory rates, rectal temperature, and anaesthetic and analgesic scores except for palpebral reflex, and interdigital web clamping scores. Therefore, we concluded that the addition of 0.1 mg/kg Bu to Me-Mi elicits adequate anaesthesia with adequate analgesic effect, and side-effects such as bradycardia, hypertension, and slight respiratory acidosis in some dogs.
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PMID:Anaesthetic and cardiopulmonary effects of balanced anaesthesia with medetomidine-midazolam and butorphanol in dogs. 1107 62


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