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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 growing in popularity. As a result, laparoscopic procedures are being done on a broader and older patient population. These patients may have underlying cardiopulmonary disease that predisposes them to complications not seen in younger patients. Anesthesiologists should be aware of this possibility and of the problems inherent to the pneumoperitoneum necessary for laparoscopy. We present two cases involving elderly patients to illustrate cardiopulmonary complications that can occur during establishment or maintenance of the increased intra-abdominal pressures required for laparoscopic surgery. The first case describes a patient who developed bradycardia and asystole during insufflation for a laparoscopic hernia repair. The second case involves severe hypercarbia and a pneumothorax due to massive subcutaneous emphysema that developed during a laparoscopic colon resection.
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PMID:Cardiopulmonary complications during laparoscopy: two case reports. 748 67

The case of a healthy 59-yr-old man who underwent elective laparoscopic extraperitoneal inguinal hernia repair and general anaesthesia is presented. After one hour of surgery, a sudden increase in the FETCO2 from 5.0% to 9.4% in relation to a massive subcutaneous emphysema, but without any haemodynamic instability, was noticed. The acute rise of FETCO2 was the first sign of an abnormal event. Nevertheless, subcutaneous emphysema was diagnosed with chest wall examination and palpation. Subcutaneous emphysema and hypercarbia are potential complications of laparoscopic surgery, but are more likely to occur in extraperitoneal surgery, since insufflated CO2 can diffuse easily into the surrounding tissues. High insufflation pressures will increase chances of this occurring and was the most likely cause of this complication. This case encouraged us to make recommendations for the management of laparoscopic extraperitoneal surgery which included: monitoring of CO2 insufflation pressure, routine examination and palpation of chest wall, use of N2O with caution, adjusting ventilation to physiological FETCO2 and excluding other causes of subcutaneous emphysema and hypercarbia.
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PMID:Laparoscopic extraperitoneal inguinal hernia repair complicated by subcutaneous emphysema. 762 34

We report two cases of marked hypercapnia of more than 60 mm Hg (PaCO2) and extensive subcutaneous emphysema noted during laparoscopic cholecystectomy. The first case, a 55-year-old man was diagnosed as having cholecystolithiasis and had hypercapnia up to 83.5 mm Hg (PaCO2) during laparoscopic cholecystectomy. The patient resumed spontaneous respiration under controlled ventilation accompanied by persistent bigeminal pulse. Soon after deflation, CO2 returned to normal range, and extensive subcutaneous emphysema was detected in the recovery room. The second patient, a 53-year-old woman, had cholecystolithiasis and also underwent laparoscopic cholecystectomy. Both hypercapnia rising to 61.1 mm Hg (PaCO2) and extensive subcutaneous emphysema appeared just before completion of resection of the gallbladder. Mild hypercapnia during pneumoperitoneum of about 50 mm Hg (PaCO2) has been reported previously. As compared with cases in the literature, the present cases suggest that hypercapnia is due to extensive subcutaneous emphysema. The large absorption surface area in the subcutaneous tissue and the large difference in the partial pressure cause the extensive gaseous interchange of CO2 between subcutaneous tissue and blood perfusing into it at the moment between peritoneal cavity and blood perfused the peritoneum.
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PMID:Extensive subcutaneous emphysema and hypercapnia during laparoscopic cholecystectomy: two case reports. 763 43

Pulmonary emphysema and bronchiolar abnormalities are the most characteristic histological lesions in chronic obstructive pulmonary disease (COPD). Hypoxemia and hypercapnia are mainly due to ventilation-perfusion mismatching. Under stable clinical conditions, both intrapulmonary shunt and limitation of oxygen transport from the alveoli to the capillary do not play a critical role in the observed arterial oxygen pressure. During acute exacerbations, ventilation-perfusion inequality worsens, and some cases show mild to moderate shunting. Under these conditions extrapulmonary factors such as breathing pattern, cardiac output, and oxygen uptake have a crucial role in influencing the arterial oxygen pressure.
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PMID:[Anatomo-pathologic lesions and gas exchange abnormalities in COPD]. 765 64

Human lung transplantation was successfully performed in the early eighties and is now an option for patients with endstage lung disease, which is associated with poor survival. Most frequent indications for lung transplantation are emphysema, cystic fibrosis, fibrosing alveolitis, primary pulmonary hypertension and Eisenmenger's syndrome. Single lung transplantation (SLT) is most often performed in emphysema, fibrosing alveolitis and other diseases which are not associated with chronic infection of the lung. Double lung transplantation was recently replaced by the technique of sequential single lung or bilateral lung transplantation (BLT). Cardiopulmonary bypass can often be avoided and problems of the airway anastomosis are less frequent using BLT. Main indications for this procedure are cystic fibrosis, bronchiectasis and primary pulmonary hypertension (PPH). In PPH often only SLT is performed. Cor pulmonale is reversible following SLT or BLT even if the heart is not replaced. Combined heart-lung transplantation (HLT) is reserved for some cases of Eisenmenger's syndrome and few centers still prefer HLT in patients with cystic fibrosis. Patients are usually accepted for transplantation when they are considered to have life expectancy of 12 to 24 months. Quality of life and physical working capacity are severely decreased and patients suffer dyspnea NYHA grade III or IV. Most of the patients are hypoxic and need continuous oxygen therapy. Hypercapnia is also a negative predictive factor for survival without transplantation. In PPH cardiac index of less than 2 litres/m2 is associated with poor outcome. Not only absolute values for FEV1 and pO2 have to be considered in finding the best moment for assessment for transplantation but the clinical course of the disease during previous months and years also has to be taken into account. Contraindications to transplantation include acute infection, concomitant diseases of other organs, bronchial carcinoma and psychiatric disorders if noncompliance is likely. To achieve good results after lung transplantation, proper donor and recipient selection, experienced surgery and careful postoperative management are essential. Complications must be diagnosed early to provide effective treatment. Most complications occur within the first months after surgery. Early complications include primary organ failure, pleural bleeding, problems at the site of the airway anastomosis, infection and acute rejection. Acute rejection is common but can be treated successfully if diagnosed early.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Lung transplantation]. 778 72

Laparoscopic cholecystectomy is a relatively new surgical procedure which is enjoying ever-increasing popularity and presenting new anesthetic challenges. The advantages of shorter hospital stay and more rapid return to normal activities are combined with less pain associated with the small limited incisions and less postoperative ileus compared with the traditional open cholecystectomy. The efficacy of laparoscopic appendectomy and hemicolectomy has been recently evaluated. However, there have been no prospective randomized studies to date comparing laparoscopic with traditional laparotomy techniques. The physiological effects of prolonged pneumoperitoneum and the longer duration of surgery with the laparoscopic techniques are of concern. The application of laparoscopic inguinal hernia repair may be limited because, unlike traditional surgical hepair, general anesthesia is required and concerns have been expressed about the duration of surgery and the possibility of hernia recurrence. Notwithstanding case reports and series describing successful diaphragmatic and hiatus hernia repair using a laparoscopic surgical technique, the frequently encountered complications of cervical surgical emphysema, pneumothorax, and pneumomediastinum, attributed to passage of insufflating gas through weak points or defects in the diaphragm, must be of major concern. Anesthesiologists must maintain a high index of suspicion for these potential complication and must undertake appropriate monitoring. If there is clinical evidence of a tension pneumothorax, immediate chest tube decompression is indicated. Intraoperative complications of laparoscopic surgery are mostly due to traumatic injuries sustained during blind trocar insertion and physiological changes associated with patient positioning and pneumoperitoneum creation. The choice of anesthetic technique for upper abdominal laparoscopic procedures is most frequently limited to general anesthesia. Controlled ventilation avoids hypercarbia, and an anesthetic technique incorporating antiemetics and nonsteroidal anti-inflammatory agents has reduced postoperative nausea and vomiting following laparoscopic cholecystectomy. The use of nitrous oxide during laparoscopic procedures remains controversial. Laparoscopic cholecystectomy is a major advance in the management of patients with symptomatic gall-bladder disease. However, in the present era of cost containment, older and sicker patients may present for this procedure on the day of surgery without adequate preoperative evaluation. Anesthesiologists should thus be prepared to recommend deflation of the pneumoperitoneum and possibly conversion to an open procedure if hemodynamic, oxygenation, or ventilation difficulties arise during the procedure.
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PMID:Laparoscopic surgery--anesthetic implications. 783 96

Laparoscopic cholecystectomy with carbon dioxide pneumoperitoneum may result in hypercarbia and acidosis in patients with cardiorespiratory disease. The aim of the present study was to assess helium as an alternative to carbon dioxide for creating the pneumoperitoneum. Ventilation requirements and carbon dioxide levels were assessed at the beginning and end of laparoscopic cholecystectomy using helium (n = 30) and carbon dioxide (n = 30) pneumoperitoneum. Insufflation with helium did not result in an increase in ventilation requirement although, like carbon dioxide pneumoperitoneum, it was associated with a mean rise in peak airway pressure (of 7 cmH2O; P < 0.001). There was also a 3.2-kPa increase in the alveolar-arterial oxygen gradient with helium (P = 0.006). Carbon dioxide pneumoperitoneum was associated with a significant rise in arterial carbon dioxide levels, despite increasing ventilation. Four patients with helium pneumoperitoneum had surgical emphysema for 5 days. Helium may be a suitable alternative to carbon dioxide for creating pneumoperitoneum in patients with severe cardiorespiratory disease. However, because of its low water solubility helium has a lower safety margin than carbon dioxide in the rare event of gas embolism.
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PMID:Helium pneumoperitoneum for laparoscopic cholecystectomy: ventilatory and blood gas changes. 792 57

A 72-year old lady suffering from coronary heart disease was admitted with acute abdominal pain. Laparoscopy was performed and revealed perforation of a duodenal ulcer. The surgeon decided to suture the perforation via laparoscope. After an uncomplicated start he had to finish the laparoscopic procedure because of a massive hypercapnia and a developing subcutaneous emphysema. Laparotomy showed an iatrogenic perforation of the right diaphragm. A chest drain was inserted; after suturing of the perforated ulcer the abdomen was closed. The further hospital stay was uneventful. The possible causes for the increasing hypercapnia are discussed. We suggest close monitoring of patients during laparoscopy including capnometry and the anaesthesist should be aware of rare complications.
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PMID:[Capnothorax and subcutaneous emphysema in attempted laparoscopic suture of duodenal ulcer]. 794 6

An adequate analysis of the pathophysiology of the disease and of its ensuing type and degree of limitations is essential for evaluating the abilities for physical performance in patients with pulmonary diseases. Maximal exercise testing is an indispensable diagnostic tool in this respect. In light of moderate obstructive disease (FEV1 > approximately 60% pred), the exercise limitation comes from the cardio-circulatory system and/or peripheral muscle function. A rehabilitation program for these patients can be based on endurance training at high heart rate levels. Patients with a ventilatory limitation (FEV1 < 40%-60% pred.) show a failure of the respiratory pump, resulting in hypercapnia during exercise. Rehabilitation treatment will contain ergonomics, exercises for mobility and agility, breathing exercises with low-frequency breathing, relaxation exercises, and inspiratory muscle training. An oxygen-uptake limitation can be found in patients with a diffusion problem, severe ventilation-perfusion mismatch, or a reduced contact time between blood and alveolar gas. Such problems can often be seen in emphysema, and express themselves as isolated hypoxaemia during exercise. These patients benefit from a program consisting of ergonomics, exercises for mobilising the thoracic wall, low-frequency breathing, and exercising with additional oxygen. Many patients with chronic obstructive pulmonary disease (COPD) are limited for psychosocial reasons. The dyspnea is a negatively rewarding side effect of exercise in these patients. They tend to avoid all exertion, and thus get into a vicious circle of inactivity, low fitness, and unpleasant sensations during exercise. The inactivity often is also induced by the patient's family, since a 'patient-role' requires a quiet lifestyle.
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PMID:Exercise limitations in patients with pulmonary diseases. 800 21

We report on two patients with subcutaneous carbon dioxide (CO2) emphysema that developed during laparoscopic surgery with CO2 pneumoperitoneum (PP), in whom pulmonary elimination of CO2 (ECO2, Servo ventilator with integrated CO2 analyzer 930, Siemens) was continuously monitored. Patient 1 was a 61-year-old man with laparoscopic herniotomy. ECO2 immediately before PP was 120 ml/min x m2 and increased rapidly after 45 min PP to a maximum value of 340 ml/min x m2. At that time, minute ventilation had been increased from 7 to 11 l/min and PaCO2 had risen from 35 to 57 mm Hg. At the end of the procedure the patient showed excessive subcutaneous emphysema. Patient 2 was a 71-year-old woman in whom diagnostic laparoscopy was performed for staging of a pancreatic tumor. ECO2 immediately before PP was 140 ml/min x m2, increasing dramatically after 45 min PP to a maximum value of 529 ml/min x m2 (Fig. 1). At that time minute ventilation had been increased from 6.2 to 12.5 l/min and PaCO2 had risen from 40 to 77 mm Hg. PP was terminated and the patient was found to have extreme subcutaneous emphysema. She was mechanically ventilated for a further 40 min to normalize PaCO2 and ECO2. It seems reasonable to suppose that an increase in ECO2 by more than 100% of control during CO2-PP is an early sign of CO2 emphysema. In this situation hypercapnia is potentially life-threatening. Evidently, reabsorption of CO2 from loose connective tissue is far more rapid and effective than CO2 resorption from the peritoneal cavity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[CO2--emphysema in laparoscopic surgery. Changes in pulmonary CO2-elimination]. 809 57


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