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Query: UMLS:C0036690 (sepsis)
 59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Optimally, oxygen delivery (DO2) should be sufficient to provide for adequate oxygen consumption (VO2) while avoiding O2 toxicity. Physiologically a critical level of DO2 has been described, below which decreases in oxygen supply begin to impair VO2, leading to venous hypercarbia and tissue acidosis. We predicted that this critical level would be influenced by factors such as underlying disease state and oxygen needs. Newborn piglets were exposed either to hypoxia (n = 6) or to group-B beta-hemolytic streptococcal sepsis (n = 6). Hemodynamic parameters were measured; DO2 and VO2 were calculated and compared within and between the groups. 'Critical DO2' was defined as the point at which decreases in DO2 began to produce concomitant decreases in VO2. This was observed at 9 ml/kg/min in hypoxic vs. 21 ml/kg/min in septic piglets. The 'critical Vsat' was defined as the venous O2 saturation beyond which tissue acidosis, as defined by base excess, developed. 'Critical VsatS' were 17% for hypoxic vs. 21% for septic animals. In summary, septic newborn piglets had higher critical DO2 and critical Vsat than hypoxic piglets, implying that they became oxygen supply dependent and developed tissue acidosis at higher levels of DO2 and Vsat, respectively.
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PMID:Influence of disease state on oxygen transport in newborn piglets. 799 46

Many sick neonatal foals have respiratory failure secondary to perinatal hypoxia, sepsis, or pneumonia. These foals require ventilatory support to prevent respiratory embarrassment and other complications associated with chronic hypoxia and hypercapnia. This article discusses practical aspects of ventilatory therapy, such as choosing a candidate for mechanical ventilation, choosing the proper ventilatory mode, placing a foal on a ventilator, maintaining a foal on mechanical ventilation, and weaning from mechanical ventilation. This article details some of the techniques that have been developed based on experiences with mechanical ventilation of neonatal foals and encourages other clinicians to consider ventilatory therapy as a feasible option.
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PMID:Ventilatory support of the neonatal foal. 803 30

A 9-year retrospective review of 1,242 admissions to a tertiary burn center identified 137 patients who were intubated and ventilated for a critical airway or pulmonary problem. These patients varied in age from 2 months to 18 years with an average total body surface area (TBSA) burn of 55%. We evaluated this group for evidence of respiratory failure (ARF) as defined by the respiratory failure index (RFI) (PaO2/FIO2 < or = 300). While only 23% of admissions to the burn center were related to flame burns, these injuries accounted for 82% of children who had ARF. Forty-two percent of these intubated children had abnormalities on their admission chest x-ray and 61% of this cohort developed evidence of ARF as defined by the RFI. The development of sepsis along with ARF regardless of TBSA involvement doubles the mortality of ARF alone. Early burn wound excision and grafting is critically important to prevent the late complication of sepsis. We carefully monitor ventilator settings to insure low peak inspiratory pressures, allowing relative hypercapnia and avoiding hyperoxia. Despite an increased number of admissions and critically injured children, we have not seen an increase in morbidity and have had a 53% reduction in mortality in the last 2 years with these techniques. We believe this management offers the best outcome for the pediatric burn victim and would recommend this strategy to other centers dealing with these severely injured children.
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PMID:Mortality and respiratory failure in a pediatric burn population. 826 96

This paper reviews cardiac dysrhythmias occurring in the perioperative period. Electrocardiography was the first application of electronic monitoring to anesthesia care. The detection of dysrhythmias remains the most important use of this technology today. While the description of dysrhythmias dates back to the early 1900's, the first large series was reported in 1936. Early descriptions of the kinds seen and the predisposing factors have changed little in the past 50 years. Several factors tend to emerge when one evaluates perioperative dysrhythmias. These are the anesthetic given, the site of surgery, abnormalities of blood gases or electrolytes, tracheal intubation, reflexes such as vagal slowing and the oculocardiac reflex, stimulation of the central nervous system the presence of pre-existing heart disease, and the use of intracardiac devices. In the evaluation of cardiac dysrhythmias several facts need to be determined. The most important is to determine if there is an underlying complication of anesthesia and surgery which may explain the dysrhythmia. In addition, one needs to evaluate the heart rate, the regularity, the number of P waves per QRS, and the configurations of the QRS. The anesthesiologist needs to determine whether the rhythm is dangerous to the patient and whether it requires treatment. The two major abnormalities of sinus rhythm are sinus bradycardia and the sinus tachycardia. Sinus bradycardia can be due to hypoxia, vagal stimulation, drug effects, a high sympathetic block or an acute myocardial infarction. Sinus tachycardia can be due pain, light anesthesia, hypovolemia, sepsis, hypoxia, hypercapnia and drug effects. The major atrial dysrhythmias are paroxysmal atrial tachycardia, atrial fibrillation and atrial flutter. Each require treatment if perfusion is impaired or if the heart rate is persistently elevated. The new agents esmolol and adenosine are particularly useful in managing atrial dysrhythmias. The major ventricular dysrhythmias are ventricular premature contractions, ventricular tachycardia and ventricular fibrillation. The later two demand emergency management with DC cardioversion when perfusion is impaired. The major abnormality of conduction is complete heart block which usually requires emergency treatment in the perioperative period. Prompt evaluation and management of perioperative dysrhythmias reduce anesthetic morbidity and mortality.
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PMID:Management of perioperative dysrhythmias. 828 46

Ischemia has traditionally been viewed as arising only from abnormalities of oxygen dynamics, namely the cellular hypoxia resulting from the imbalances between oxygen supply, consumption, and demand. Recently, it has become clear that such a view is too restrictive. Hypoperfusion may be caused by both anatomic and functional impediments to either inflow or to outflow from an organ. Furthermore, the pathophysiologic consequences are likely to involve not only cellular hypoxia, but also a restricted supply of nutrients and other important molecules and an abnormal elimination of physiologic wastes such as carbon dioxide. Hence the recommendation that ischemia be defined as a dual defect of oxygen deficit and carbon dioxide excess. AMI is, therefore, a severe anatomic or functional impediment to the splanchnic circulation, resulting in a dual defect of intestinal hypoxia and cellular hypercarbia. Although the functional and structural consequences of cellular hypoxia are well known, the pathophysiology of cellular hypercarbia has only begun to be explored. AMI syndromes include three related processes: occlusive mesenteric ischemia, nonocclusive ischemia, and sepsis-induced SI. Leakage of bacteria or bacterial toxins into the circulation during mesenteric ischemia forms the basis of the systemic components of this syndrome. Striving for an earlier diagnosis, treating the systemic (septic) consequences, and taking measures to promptly restore mucosal oxygen balance through aggressive pharmacologic and appropriate surgical intervention have significantly improved the prognosis. About 80% of patients with acute arterial embolism, 60% of those with nonocclusive ischemia, and only 20% of patients with arterial thrombosis are expected to live without significant residual nutritional deficits. The cause of death is usually sepsis and multisystem organ failure, and therefore, further reductions in mortality are likely to occur with the improved prevention and treatment of sepsis.
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PMID:Acute mesenteric ischemia: pathophysiology, diagnosis, and treatment. 847 15

The relationship between total bilirubin binding capacity (TBBC) and clinical status was investigated in order to assess the risk of bilirubin toxicity in 83 infants with jaundice in this study. Infants with respiratory distress, acidosis, hypoglycaemia, sepsis, asphyxia-anoxia and hypercarbia were accepted as ill and the remainders were well. Sephadex G-25 gel filtration method was used to determine TBBC. Serum albumin levels, TBBC and TBBC/albumin molar ratios were lower in ill premature and mature infants. Acidosis was the major risk factor for bilirubin toxicity in ill infants. Therefore, clinical status should be taken into consideration in the management of jaundiced infants.
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PMID:The influence of clinical status on total bilirubin binding capacity in newborn infants. 882 Jun 20

Impaired pulmonary gas exchange can result from lung parenchymal failure inducing oxygenation deficiency and fatigue of the respiratory muscles, which is characterized by hypercapnia or a combination of both mechanisms. Contractility of and coordination between the diaphragm and the thoracoabdominal respiratory muscles predominantly determine the efficiency of spontaneous breathing. Sepsis, cardiac failure, malnutrition or acute changes of the load conditions may induce fatigue of the respiratory muscles. Augmentation of spontaneous breathing is not only achieved by the application of different technical principles or devices; it also has to improve perfusion, metabolism, load conditions and contractility of the respiratory muscles. Intermittent mandatory ventilation (IMV) allows spontaneous breathing of the patient and augments alveolar ventilation by periodically applying positive airway pressure tidal volumes, which are generated by the respirator. Potential advantages include lower mean airway pressure (PAW), as compared with controlled mechanical ventilation, and improved haemodynamics. Suboptimal IMV systems may impose increased work and oxygen cost of breathing, fatigue of the respiratory muscles and CO2 retention. During pressure support ventilation (PSV), inspiratory alterations of PAW or gas flow (trigger) are detected by the respirator, which delivers a gas flow to maintain PAW at a fixed value (usually 5-20 cm H2O) during inspiration. PSV may be combined with other modalities of respiratory therapy such as IMV or CPAP. Claimed advantages of PSV include decreased effort of breathing, reduced systemic and respiratory muscle consumption of oxygen, prophylaxis of diaphragmatic fatigue and an improved extubation rate after prolonged periods of mechanical ventilation. Minimum alveolar ventilation is not guaranteed during PSV; thus, close observation of the patient is mandatory to avoid serious respiratory complications. Continuous positive airway pressure breathing (CPAP) maintains PAW above atmospheric pressure throughout the respiratory cycle, which may increase functional residual capacity and decrease the effort of breathing. CPAP has been conceptually designed for the augmentation of spontaneous breathing and requires the intact central and peripheral regulation of the respiratory system. Airway pressure release ventilation (APRV) improves alveolar ventilation by intermittent release of PAW, which is kept above atmospheric pressure by means of a high-flow CPAP system. The opening of an expiratory valve for 1-2 s induces a decreased PAW and lung volume, which increases rapidly to pre-exhalation values after closure of the valve due to the high gas flow within the circuit (90-100 1/min). APRV may improve haemodynamics and VA/Q distribution as compared with conventional mechanical ventilation. Biphasic positive airway pressure (BIPAP) is characterized by the combination of spontaneous breathing and time-regulated, pressure-controlled mechanical ventilation. During the respiratory cycle the ventilator generates two alternating CPAP levels, which can be modified with regard to time and pressure. As with APRV, alveolar ventilation is maintained even if the spontaneous breathing efforts of the patient cease, which improves the safety of both modes of respiratory therapy. The contribution of spontaneous breathing to total minute ventilation may be important, since a decreased shunt and improved VA/Q relationship have been observed in experimental non-cardiogenic lung oedema. These data give support to the concept that spontaneous breathing should be maintained and augmented in the setting of acute respiratory failure.
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PMID:[Augmented spontaneous breathing]. 896 3

We describe a patient with combined meningococcal septicemia and meningitis, cerebral edema and acute respiratory distress syndrome, in whom we balanced the conflicting carbon dioxide strategies for optimal pulmonary and neurological management using jugular oxygen saturation (SjvO2) monitoring to identify the upper limit of "tolerable" hypercapnia. Our observations suggest that significant acidosis was not well tolerated; however, cautious induction of pH down to 7.32 and an arterial carbon dioxide tension (PaCO2) < 5.9 kPa was tolerated acutely without significant cerebral hyperemia. Moreover, with the development of metabolic compensation and normal pH, higher levels of PaCO2 could be permitted. In similar cerebro-pulmonary circumstances we suggest that these findings warrant consideration. Alternatively, invasive monitoring of SjvO2 could be undertaken so that patient-specific criteria for permissive hypercapnia can be determined.
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PMID:Combined lung injury, meningitis and cerebral edema: how permissive can hypercapnia be? 1005 Oct 94

An 81-year-old woman with unintentional salicylate intoxication presented with features of sepsis, abdominal pain, and tenderness. Laparotomy was performed to rule out acute cholecystitis. Anesthesia was complicated by severe hypercarbia despite hyperventilation, and progressive cardiovascular and neurologic deterioration postoperatively. The adverse neurologic, respiratory, and hepatic effects of abdominal surgery and general anesthesia probably potentiated salicylate toxicity and increased patient morbidity. Anesthesiologists should be aware of the protean manifestations of salicylate poisoning and consider it as a cause of "medical abdomen."
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PMID:Anesthesia in a patient with undiagnosed salicylate poisoning presenting as intraabdominal sepsis. 1043 24

Acute respiratory distress syndrome (ARDS) is an acute form of severe alveolar-capillary injury that evolves after a direct or indirect lung insult. It begins as noncardiogenic pulmonary edema and develops into a neutrophilic alveolitis, and, later, pulmonary fibrosis. Mortality remains high among children with ARDS, particularly when serious underlying conditions co-exist, sepsis occurs, and when there is multi-organ failure. Lung function improves with time among survivors, but pulmonary fibrosis may persist. Advances in the care of children with ARDS include the use of lung-protective ventilator strategies, permissive hypercapnia, inhaled nitric oxide, high-frequency ventilation, and extra-corporeal life support. These approaches reduce ventilator-associated lung injury and may improve survival when used in combination with one another. Interventions that reduce alveolar inflammation, enhance alveolar fluid removal, and reduce pulmonary fibrosis will further improve survival and recovery from ARDS in the future.
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PMID:Current concepts in adult respiratory distress syndrome in children. 1138 62


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