Intensive care medicine
-
Intensive care medicine · Jan 1988
Comparative StudyToe temperature versus transcutaneous oxygen tension monitoring during acute circulatory failure.
Measurements of toe temperature and transcutaneous PO2 (PtcO2) have been both suggested for non-invasive assessment of peripheral blood flow in acute circulatory failure. The underlying principle of the two methods is that cutaneous vasoconstriction occurs early when tissue perfusion is altered. In 15 patients, we compared the two measurements during cardiogenic shock (27 measurements) or septic shock (29 measurements). ⋯ Since measurement of PtcO2 is technically more complicated, correlates less well with standard hemodynamic parameters and later reflects cardiovascular improvement, it has no advantage over measurement of toe temperature in circulatory shock. In cardiogenic shock, measurements of toe temperature can reliably track cardiac output changes. In septic states, however, non-invasive assessment of skin perfusion is of limited interest.
-
Intensive care medicine · Jan 1988
Comparative StudyTotal inspiratory work with modern demand valve devices compared to continuous flow CPAP.
The inspiratory work exerted by an electromechanical lung model in drawing a 500 ml breath, was assessed by planimetry of pressure/volume loops for six commercial demand valve CPAP devices (Servo B and C from Siemens, EV-A and UV-2 from Dräger, the Puritan Bennett 7200 and the Engström ERICA) and compared to the loading of a conventional high flow CPAP system. The effect of trigger sensitivity and inspiratory pressure support on inspiratory work was also investigated in some cases. The lung model allowed for calibrated changes in compliance and airway resistance. ⋯ Halving compliance doubled the work and exchanging a 7 for a 9 mm i.d. endotracheal tube in the circuit increased work by about 3% regardless of machine. Decreasing trigger sensitivity from 0 to 2 cm H2O for the Servo B increased work by up to 24%. Using 5 cm H2O of inspiratory pressure support decreased work for all machines up to 36% maximally.(ABSTRACT TRUNCATED AT 250 WORDS)
-
Intensive care medicine · Jan 1988
Case ReportsExtracorporeal lung assist for patient with hypercapnia due to status asthmaticus.
A 62-year-old female was brought to our emergency room in status asthmatics. She needed mechanical ventilation because of hypercapnia. However, effective mechanical ventilation was difficult because of severe airflow obstruction. Instead of conventional mechanical ventilation, we used extracorporeal lung assist (ECLA) to prevent barotrauma and lung tissue damage, and to reduce the doses of sedatives and muscle relaxants needed.
-
Intensive care medicine · Jan 1988
Extracorporeal CO2-removal with a heparin coated artificial lung.
Treatment of severe acute respiratory failure with extracorporeal gas exchange necessitating near complete systemic anticoagulation requires a delicate balance to be maintained between disseminated intravascular coagulation and hemorrhagic complications. The present study describes our first experience using a heparin coated extracorporeal artificial lung and circuitry during clinical extracorporeal CO2 removal. ⋯ Scanning electron microscopy of the heparin coated hollow fiber gas exchanger demonstrated only minor deposits on the surface. Use of a heparin coated artificial lung may enhance the margin of safety of extracorporeal gas exchange and ultimately broaden its indications.
-
Intensive care medicine · Jan 1988
Case ReportsPulmonary edema due to partial upper airway obstruction in a child.
The case of an 8-year-old boy is reported, who developed acute pulmonary edema associated with acute subglottic swelling and subsequent partial upper airway obstruction after extubation and recovery from anaesthesia. The main factors responsible for the formation of pulmonary edema presumably are a large subatmospheric transpulmonary pressure gradient and hypoxia leading to translocation of circulating blood volume into the pulmonary vasculature and fluid shift across the alveolar-capillary membrane. Application of oxygen and CPAP or PEEP plus diuretic therapy will promote rapid clearance of the pulmonary edema.