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Query: UMLS:C0020440 (hypercapnia)
7,939 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Laparoscopic surgery is very popular among physicians and patients because this technique is associated with safety, shorter hospital stay, early return to normal activity, and cosmetic acceptance of the operative scar. Although the procedure involves minimal invasion and tissue damage, it has potentially serious complications, including cardiopulmonary effects that result mainly from hypercarbia and raised intraabdominal pressure caused by pneumoperitoneum. Absorbed carbon dioxide from the peritoneal cavity tends to cause acidosis. Leakage of the gas into tissue spaces may induce subcutaneous emphysema, pneumothorax, pneumomediastinum and pneumopericardium. Cardiac effects include arrhythmias, hypotension, cardiac arrest, gas embolism, pulmonary edema, and myocardial ischemia or infarction. Some of these effects, though rare, are serious and potentially fatal. Physicians should anticipate these problems in their patients undergoing laparoscopic procedures. This review discusses the technique of and physiologic considerations in laparoscopic surgery as well as its potential complications.
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PMID:Laparoscopic surgery and its potential for medical complications. 901 21

Arterial blood gases were studied prospectively using continuous intraarterial blood gas monitoring during thoracoscopic volume reduction surgery (VRS) in 24 patients with advanced diffuse pulmonary emphysema. Additionally, the early postoperative course (48 h) of arterial blood gases was studied retrospectively. Twenty-six operations were performed using a combination of thoracic epidural and general anesthesia with left-sided double-lumen intubation for one-lung ventilation (OLV). Arterial blood gases were determined awake, during two-lung ventilation prior to surgery, during OLV (extreme values), and after tracheal extubation. Additionally, the extremes during the whole procedure were determined: avoiding excessive peak inspiratory pressures (26.4 +/- 7.0 cm H2O), minimum PaO2 was 77 +/- 39 mm Hg (mean +/- SD), maximum PaCO2 65 +/- 14 mm Hg (P < 0.0001 versus preoperative values), and minimum pHa 7.22 +/- 0.08 (P < 0.0001). One tension pneumothorax occurred during OLV. Immediate postoperative extubation was performed in 25 of 26 cases, reintubation was necessary in two cases. One patient with coronary artery disease died 36 h after surgery. Hypercapnia (maximum PaCO2 49 +/- 8 mm Hg, minimum pHa 7.37 +/- 0.04, P < 0.01) was still observed 48 h after surgery. These results demonstrate that adequate oxygenation can be preserved during OLV for VRS, but CO2 elimination is impaired. However, intraoperative hypercapnia and immediate postoperative tracheal extubation are well tolerated.
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PMID:Video-assisted thoracoscopic volume reduction surgery in patients with diffuse pulmonary emphysema: gas exchange and anesthesiological management. 908 69

Chronic respiratory failure (CRF) is a major cause of morbidity and mortality. It is estimated that in France at least 60,000 patients exhibit severe CRF and that about 15,000 patients die each year from CRF. Chronic obstructive pulmonary disease (COPD) (chronic obstructive bronchitis, emphysema and their association) is by far the first cause of CRF (90% of the cases). The clinical picture of CRF depends on the causal disease, but exertional dyspnea is observed in almost all patients. Pulmonary function testing allows to assess whether the ventilatory defect is obstructive (COPD), restrictive or mixed. Severe CRF is usually defined by a Pa02 < 55 mmHg, in a stable state of the disease, with or without hypercapnia (PaC02 > 45 mmHg). The two major complications of CRF are acute exacerbations of the disease, with clinical and gasometric worsening, and pulmonary hypertension which may lead with time to right heart failure. Prognosis is poor in CRF since the 5 year survival rate is of 50% in COPD patients. Under long-term oxygen therapy (LTOT) the survival rate has been somewhat improved, being of 60-65% at 5 years. The best prognostic indices in CRF complicating COPD are the level of FEV1, Pa02, PaC02, the level of pulmonary artery mean pressure (PAP) and age. In COPD patients under LTOT the best prognostic indices are PAP and age.
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PMID:[Chronic respiratory insufficiency: evaluation, evolution, prognosis]. 981 2

According to the complexity of pathological change of pulmonary tuberculosis sequelae (TB seq), on which respiratory failure based shows the higher incidence of marked degree of hypoxemia and hypercapnia than that based on chronic pulmonary emphysema (CPE). In TB seq, pulmonary artery mean pressure is higher, nocturnal oxyhemoglobin desaturation is much lower than in CPE. Also hypoxemia on exercise is lower, and oxygen inhalation for this hypoxemia is more effective than in CPE. The most effective therapy is continuous oxygen therapy. Home oxygen therapy has improved the prognosis and quality of life (QOL) of patients with respiratory failure based on TB seq. Artificial positive pressure ventilation (TIPPV) with intubation or tracheotomy is carried out for patients with severe hypercapnia and respiratory acidosis. Recently, early application of nasal mask ventilation (NPPV) on patients with TB seq has prohibited acute exacerbation of chronic respiratory failure. And also for patients with severe hypercapnia, NPPV with BIPAP method is effective for their QOL. Comprehensive respiratory rehabilitation is also successfully applied for their management.
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PMID:[Respiratory failure based on pulmonary tuberculosis sequelae and its management]. 988 38

The breaking of the interalveolar septa represents, in the pathogenetic mechanism of emphysema, a final event, common to the different etiologic agents. This elementary injury causes a series of consequences, essentially of mechanic-structural type (intrapulmonary aerial spaces-confining parenchyma collapse, bronchial obstruction, dead space augmentation) on the thin and articulate bronchoalveolar architecture, whose final rearrangement determines, at least in part, the clinical picture. In short, the break of alveolar septa involves the formation of intraparenchymal aerial spaces with collapse of the confining lung; the compensatory mechanism to this situation, involves the hyperexpansion of the thoracic cage and flattening of the diaphragm, with the aim of allowing ventilation of the healthy residual parenchyma. Because of the finite capability of expansion of the thoracic cage and of the diaphragm in respect to the theoretical capability of the lung of large intraparenchymal aerial spaces formation, it is easy to imagine that emphysema can cause a serious functional respiratory deficit even before a significant quantity of pulmonary parenchyma is destroyed by the pathogenic process. It may then be hypothesized that a simple reduction of the volume of the lung, even sacrificing a part of "working" parenchyma, might allow the residual lung to come back to a normal ventilation, wholly ameliorating the respiratory exchanges. The clinically more remarkable consequence of lung volume reduction is the amelioration of ventilation mechanics with a decreased respiratory work due to the shift of the tidal volume toward values less proximal to the maximal expandability of the thoracic wall and of the diaphragm. On the other end, it is possible to anticipate an equally significant effect on bronchial obstruction, due to the more favorable matching of the compliance of the thoracic wall and that of the lung. LVRS has significant effect on the TV sharing ratio between emphysematous spaces and residual healthy parenchyma; the hyperexpansion of the residual lung in fact causes the distension of the emphysematous spaces, continuing in the natural compensatory mechanism of the emphysema. The decreased ventilation and thus re-breathing of the residual emphysematous spaces, together with the improved ventilation may ameliorate hypercapnia. Obviously no direct effects can be expected from LVRS on the conditions of the alveolar membrane and thus on gas diffusion capacity through it. The time duration of the amelioration achieved with the lung volume reduction is still to be demonstrated.
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PMID:[The surgical physiopathology of essential pulmonary emphysema and volume-reduction intervention]. 997 94

Laparoscopic surgical techniques are increasingly being applied to treat intraperitoneal abnormalities. These minimally invasive techniques potentially offer decreased operation time, decreased morbidity, and decreased length of hospitalization stays. These procedures, however are not without potential morbidity. Herein we describe two patients treated with laparoseopic cholecystectomy whose cases were complicated with subcutaneous emphysema and hyperearbia without pneumothorax. In each of these cases, carbon dioxide gas was used to induce pneumoperitoneum. In one of the cases, the hypercarbia was a late event occurring during the surgery, and in the second case, the first such description in the literature (to our knowledge), hypercarbia developed after termination of the induced pneumoperitoneum.
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PMID:Late onset of subcutaneous emphysema and hypercarbia following laparoscopic cholecystectomy. 1033 76

Lung volume reduction surgery for emphysema is evolving rapidly since its re-introduction in 1993. Lung transplantation remains a viable option for others with emphysema. The major difficulty facing surgeons lies in appropriate selection of patients for either procedure. The following paper represents an attempt by review of the literature and personal experience to describe some of the important features involved in patient selection. The current literature on patient selection for lung volume reduction surgery and transplantation for emphysema was reviewed, and the results within the University of Toronto Lung Volume Reduction Program were analyzed. The review suggests that the most reliable predictors of success are heterogeneous distribution of emphysematous change as reflected by the CAT scan and the quantitative ventilation perfusion scan with new emphasis being placed on the ventilation portion of the latter. Poor prognostic indicators are hypercarbia and pulmonary hypertension. It was felt that an algorithm could be established for determination of whether lung volume reduction or transplantation should be offered to patients for emphysema surgery. The algorithm is described.
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PMID:The preoperative selection of patients for emphysema surgery. 1053 48

In patients with reduced respiratory function, lung resection is associated with high risk because separate ventilation is generally needed for safe management. For patients with end-stage emphysema, intraoperative respiratory management is important and particularly difficult because neither incomplete oxygenation nor selective ventilation can be performed, so the operation may be interrupted. In this study, we assess the effectiveness of the percutaneous cardiopulmonary support (PCPS) system for lung volume reduction surgery in patients with severe hypercapnia (arterial carbon dioxide tension >50 mm Hg) and discuss the significance of PCPS for patients who are beyond the standard criteria for lung volume reduction surgery (LVRS). We studied 3 patients with severe hypercapnia due to emphysema who underwent volume reduction surgery. One patient was previously treated surgically for contralateral pneumothorax. All patients had a severe smoking history and were suspected to have fragile lungs. During the operation. PCPS provided sufficient support flow. Intraoperative management using PCPS was easy, and no severe complications were observed. One patient exhibited severe hemodynamic deterioration on postoperative Day 15. Other patients' PaCO2 improved postoperatively. One had a calcification of a femoral artery, but there was no trouble inserting a cannula. Bilateral or unilateral volume reduction surgery was performed under PCPS in patients with end-stage emphysema. We conclude that PCPS is an adjunct to LVRS, useful for intraoperative management of some patients with severe hypercapnea, and the LVRS indications can be extended.
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PMID:Significance of percutaneous cardiopulmonary bypass support for volume reduction surgery with severe hypercapnia. 1067 60

We report anesthetic experience of two patients for endoscopic removal of thyroid tumor by new surgical approach. A subplatysmal air pocket, which had been created by using a subcutaneous dissector, was maintained by insufflating carbon dioxide (CO2) at an insufflation pressure of 6 mmHg. In one patient, the arterial CO2 pressure increased from 29 mmHg to 44 mmHg, and in another patient from 31 mmHg to 36 mmHg. We did not experience any symptoms of sustained CO2 absorption such as severe hypercarbia, acidosis, and massive subcutaneous emphysema. The patients were discharged on the fifth and the fourth postoperative day with no complications. The advantages of this endoscopic surgery include little postoperative pain, quick recovery, and short hospital stay after operation. However, possible occurrence of intraoperative hypercarbia during endoscopic surgery must be considered, and continuous monitoring of ventilation by end-tidal CO2 or arterial CO2 pressure is mandatory.
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PMID:[Anesthetic management for endoscopic surgery in two patients with goiter]. 1099 86

Respiratory insufficiency appearing during chronic lung diseases leads to hypoxemia, hypercapnia, acidosis, right ventricular failure and secondary polyglobulia. These disturbances lead to respiratory encephalopathy which is characterized by the appearance of various types of neurological syndromes. We present here the case of a patient suffering from chronic spastic bronchitis accompanied by pulmonary emphysema, whose consciousness disturbances, a generalized epileptic seizure and hemiparesis were connected with his respiratory insufficiency intensifying during the basic disease. Removal of metabolic disturbances caused by respiratory insufficiency has a key role in preventing secondary neurological syndromes.
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PMID:[A case of hypoxic encephalopathy in the course of chronic spastic bronchitis and pulmonary emphysema]. 1110 77


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