Monitoring Pain - Surgical Pleth Index SPI
SPI represents the patient’s hemodynamic responses to surgical stimuli and analgesic medication under general anesthesia. SPI reflects the patient’s responses, which result from increased sympathetic activity as a reaction to painful (nociceptive) stimuli. SPI monitoring is based on the acquisition of the readily available plethysmographic pulse wave, which is processed with a unique algorithm. The calculation analyzes the photoplethysmographic amplitude and the photoplethysmographic pulse interval, and then combines these two parameters to create a single digit, the Surgical Pleth Index. The details of the SPI algorithm have been published in an article in the British Journal of Anaesthesia titled “Assessment of surgical stress during
general anaesthesia”.
Monitoring Hypnosis - Entropy measurements and monitoring
The GE Entropy Module is indicated for adult and pediatric patients older than 2 years within a hospital for monitoring the state of the brain by data acquisition of electroencephalograph (EEG) and frontal electromyograph (FEMG) signals. The spectral entropies, Response Entropy (RE) and State Entropy (SE), are processed EEG and FEMG variables. In adult patients, Response Entropy (RE) and State Entropy (SE) may be used as an aid in monitoring the effects of certain anesthetic agents, which may help the user to titrate anesthetic drugs according to the individual needs of adult patients. Furthermore in adults, the use of Entropy parameters may be associated with a reduction of anesthetic use and faster emergence from anesthesia. The Entropy measurement is to be used as an adjunct to other physiological parameters.
Monitoring muscle relaxation: NMT GE Carescape module
Neuromuscular transmission (NMT) is the transfer of an impulse between a nerve and a muscle in the neuromuscular junction. NMT can be blocked by neuromuscular blocking agents – drugs which cause transient muscle relaxation and prevent the patient from moving and breathing spontaneously. Muscle relaxation is used during general anesthesia to enable endotracheal intubation and to provide the surgeon with optimal working conditions. In critical care, muscle relaxation is used during mechanical ventilation to minimize the patient’s work of breathing and to improve oxygenation.
