31 resultados para Egon Schaden
em BORIS: Bern Open Repository and Information System - Berna - Suiça
Resumo:
Ein zentraler Aspekt im Hinblick auf die Qualität der Gesundheitssysteme ist die Patientensicherheit. Untersuchungen aus Europa und den USA zeigen, dass es bei ca. 5–10 % der Patienten im Krankenhaus zu einem unerwünschten Ereignis kommt, das zu einem Schaden bei dem Patienten führt. Etwa die Hälfte dieser Ereignisse wird als vermeidbar angesehen. Besonders dramatisch ist, dass ca. 0,1 % der in ein Krankenhaus aufgenommenen Patienten aufgrund vermeidbarer unerwünschter Ereignisse versterben. In Deutschland sind dies jährlich etwa 17.000 und in der Schweiz ca. 1.200 PatientInnen, die auf diese Weise ihr Leben verlieren. Es handelt sich hierbei nicht um dramatische Einzelfälle, sondern um ein Systemproblem. In diesem Abschnitt erläutern wir, welche Begriffe im Bereich der Patientensicherheit eine zentrale Rolle spielen und zeigen Maßnahmen auf, mittels derer Fortschritte erzielt werden können. Schweizerische Lernziele: GME 35, GME 37, GMA 15
Resumo:
OBJECT: Brain tissue acidosis is known to mediate neuronal death. Therefore the authors measured the main parameters of cerebral acid-base homeostasis, as well as their interrelations, shortly after severe traumatic brain injury (TBI) in humans. METHODS: Brain tissue pH, PCO2, PO2, and/or lactate were measured in 151 patients with severe head injuries, by using a Neurotrend sensor and/or a microdialysis probe. Monitoring was started as soon as possible after the injury and continued for up to 4 days. During the 1st day following the trauma, the brain tissue pH was significantly lower, compared with later time points, in patients who died or remained in a persistent vegetative state. Six hours after the injury, brain tissue PCO2 was significantly higher in patients with a poor outcome compared with patients with a good outcome. Furthermore, significant elevations in cerebral concentrations of lactate were found during the 1st day after the injury, compared with later time points. These increases in lactate were typically more pronounced in patients with a poor outcome. Similar biochemical changes were observed during later hypoxic events. CONCLUSIONS: Severe human TBI profoundly disturbs cerebral acid-base homeostasis. The observed pH changes persist for the first 24 hours after the trauma. Brain tissue acidosis is associated with increased tissue PCO2 and lactate concentration; these pathobiochemical changes are more severe in patients who remain in a persistent vegetative state or die. Furthermore, increased brain tissue PCO2 (> 60 mm Hg) appears to be a useful clinical indicator of critical cerebral ischemia, especially when accompanied by increased lactate concentrations.
Resumo:
OBJECT: Glycerol is considered to be a marker of cell membrane degradation and thus cellular lysis. Recently, it has become feasible to measure via microdialysis cerebral extracellular fluid (ECF) glycerol concentrations at the patient's bedside. Therefore the aim of this study was to investigate the ECF concentration and time course of glycerol after severe traumatic brain injury (TBI) and its relationship to patient outcome and other monitoring parameters. METHODS: As soon as possible after injury for up to 4 days, 76 severely head-injured patients were monitored using a microdialysis probe (cerebral glycerol) and a Neurotrend sensor (brain tissue PO2) in uninjured brain tissue confirmed by computerized tomography scanning. The mean brain tissue glycerol concentration in all monitored patients decreased significantly from 206 +/- 31 micromol/L on Day 1 to 9 +/- 3 micromol/L on Day 4 after injury (p < 0.0001). Note, however, that there was no significant difference in the time course between patients with a favorable outcome (Glasgow Outcome Scale [GOS] Scores 4 and 5) and those with an unfavorable outcome (GOS Scores 1-3). Significantly increased glycerol concentrations were observed when brain tissue PO2 was less than 10 mm Hg or when cerebral perfusion pressure was less than 70 mm Hg. CONCLUSIONS: Based on results in the present study one can infer that microdialysate glycerol is a marker of severe tissue damage, as seen immediately after brain injury or during profound tissue hypoxia. Given that brain tissue glycerol levels do not yet add new clinically significant information, however, routine monitoring of this parameter following traumatic brain injury needs further validation.