The AVL-mode: a safe closed loop algorithm for ventilation during total intravenous anesthesia.

The Adaptive Lung Ventilation Controller (ALV-Controller) represents a new approach to closed loop control of ventilation. It is based on a pressure controlled ventilation mode. Adaptive lung ventilation signifies automatic breath by breath adaptation of breathing patterns to the lung mechanics of an individual patient.

An adaptive lung ventilation controller.

Closed loop control of ventilation is traditionally based on end-tidal or mean expired CO2. The controlled variables are the respiratory rate RR and the tidal volume VT. Neither patient size or lung mechanics were considered in previous approaches.

[Modern forms of artificial respiration].

Mechanical ventilation has become a widely used technique in anaesthesiology and intensive care medicine. Difficulties arise with patients who suffer from acute or chronic pulmonary disease. Lung models are used to simulate the behaviour of healthy and diseased lungs and to optimize breathing patterns.

[Modification of oxygen consumption following major abdominal surgery by epidural anesthesia].

In the postoperative period patients are at risk of excessive oxygen consumption (VO2). However, patients suffering from cardiovascular disease may be unable to increase their oxygen transport capacity sufficiently and may be especially vulnerable to tissue hypoxia as part of the reaction to intraoperative stress. During the last 10 years conflicting results concerning the benefits of a combined epidural and light general anaesthesia have been published.

[Registration and analysis of airway pressure and gas flow in ventilated patients. The "Hyper-DAQ Respiration Mechanics Recorder"].

Respiratory data monitored in ventilated patients commonly consists of monitoring some inspiratory and expiratory pressures and volumes. For a more sophisticated analysis of respiratory mechanics in ventilated patients, a combined hardware and software system is presented that allows for continuous monitoring of airway pressure and gas flow. Gas flow is measured using a pneumotach.

[Propofol for sedation during postoperative mechanical ventilation. A comparative study with Lytic Mixture].

Propofol infusion was found to provide excellent sedation and rapid recovery in intensive care. The present study compared Propofol with lytic solution (lytic solution = mixture of 100 mg Pethidine, 50 mg Promethazine and 0.6 mg Dihydroergotamine) during 6 hours of postoperative artificial ventilation.