[Air ambulance intensive care transport in prone position for COVID-19 ARDS]. / Luftgebundene Intensivverlegung in Bauchlage bei COVID-19-ARDS.

An EMS helicopter was scheduled to transport a woman with COVID-19 acute respiratory distress syndrome. However, the patient was found in prone position in the delivering hospital. After repositioning in the supine position, life-threatening hypoxemia occurred, so that the patient had to be returned to the prone position. After a structured decision making process, the patient could be transported with the helicopter without complications in prone position. Fortunately, the patient was stabilized in the further course of the disease and was transferred to a weaning facility breathing spontaneously with pressure support.

[Tracheostomy techniques]. / Tracheotomietechniken.

Due to the comprehensive establishment of modern techniques, tracheostomy has become a routine procedure in intensive care units (ICU). The negative effects of prolonged translaryngeal intubation on the laryngeal and tracheal mucosa up to tracheal stenosis can be reduced by tracheostomy. Furthermore, long-term ventilation is facilitated; however, there is no clear evidence on the optimal timing of tracheostomy in critically ill patients. The specific indications and contraindications of surgical as well as percutaneous tracheostomy must be strictly observed for a safe and successful intervention. Exchanging the tracheostomy tube may lead to potentially dangerous situations especially after percutaneous tracheostomy. A standardized and structured approach is therefore recommended.

[Air rescue: current significance and practical issues]. / Luftrettung: Aktueller Stellenwert und praktische Aspekte.

Germany has a nationwide and powerful helicopter emergency medical services system (HEMS), which executes primary rescue missions and interhospital transfer of intensive care patients. In recent years the range of HEMS missions has become modified due to demographic changes and structural changes in the healthcare system. Furthermore, the number of HEMS missions is steadily increasing. If reasonably used air rescue contributes to desired reductions in overall preclinical time. Moreover, it facilitates prompt transport of patients to a hospital suitable for definitive medical care and treatment can be initiated earlier which is a particular advantage for severely injured and critically ill patients. Because of complex challenges during air rescue missions the qualifications of the HEMS personnel have to be considerably higher in comparison with ground based emergency medical services.

[Diagnosis, therapy and secondary prophylaxis of acute pulmonary embolism. Presentation of and commentary on the new ESC 2008 guidelines]. / Diagnose, Therapie und Sekundärprophylaxe der akuten Lungenembolie. Vorstellung und Kommentierung der neuen Leitlinien der ESC 2008.

Acute venous thromboembolism is a common cardiovascular emergency. Acute pulmonary embolism (PE) is present in one third of these patients. With an average lethality rate of 11% within the first two weeks following diagnosis, approximately 40,000 patients in Germany die annually as a result of PE; therefore, their diagnosis and therapy is of particular importance. For this reason, the European Society of Cardiology published guidelines on diagnosis and therapy in 2000. The current article presents and discusses the points as updated and extended in the 2008 version of the guidelines, including: (1) initial risk stratification--when PE is already suspected; (2) diagnostic procedures and algorithms; (3) further risk stratification; (4) therapeutic strategies in the acute phase; (5) further management and (6) long-term anticoagulation and secondary prophylaxis.

Individual titration of propofol plasma target improves anaesthetic stability in patients undergoing major abdominal surgery: a comparison with manually controlled infusion.

BACKGROUND AND OBJECTIVE: The impact of anaesthesia using target-controlled infusion with propofol on intraoperative stability, recovery and cost compared to manually controlled infusion has been evaluated with inconsistent results. We studied a new device that allows more individual titration of propofol target-controlled infusion by using the effect-site concentration at the loss of eyelash reflex to predict the maintenance infusion rate (FM-TCI). METHODS: Fifty-six patients undergoing major abdominal surgery lasting >2 h were randomly assigned to receive either FM-TCI (n = 28) or MCI-controlled (n = 28) anaesthesia. Both groups were Bispectral Index-monitored and thoracic epidural analgesia was established. Anaesthetic stability, incidence of haemodynamic abnormalities, time to extubation, propofol consumption and patient satisfaction were assessed. RESULTS: In the FM-TCI group, a significantly improved anaesthetic stability was achieved (0.43 +/- 0.44 vs. 1.31 +/- 0.78 adjustments of propofol infusion per patient per hour, P = 0.003) and time to extubation was significantly shorter (9.6 +/- 2.1 vs. 15.7 +/- 9.6 min P = 0.011). With FM-TCI, propofol consumption was significantly lower. Haemodynamic stability and patient satisfaction did not differ between the groups. CONCLUSION: FM-TCI helps to provide more stable anaesthesia conditions requiring less-frequent adjustments of the propofol infusion compared to manually controlled infusion in patients undergoing major abdominal surgery.

Effects of a new modified, balanced hydroxyethyl starch preparation (Hextend) on measures of coagulation.

BACKGROUND: Hydroxyethyl starch (HES) may affect blood coagulation. We studied the effects of a modified, balanced, high-molecular weight [mean molecular weight (MW) 550 kDa], high-substituted [degree of substitution (DS) 0.7] HES preparation (Hextend) on coagulation in patients undergoing major abdominal surgery. METHODS: Patients were allocated randomly to receive Hextend) (n=21), lactated Ringer's solution (RL, n=21) or 6% HES with a low MW (130 kDa) and a low DS (0.4) (n=21). The infusion was started after induction of anaesthesia and continued until the second postoperative day to maintain central venous pressure between 8 and 12 mm Hg. Activated thrombelastography (TEG) was used to assess coagulation. Different activators were used (extrinsic and intrinsic activation of TEG) and aprotinin was added to assess hyperfibrinolytic activity (ApTEG). We measured onset of coagulation [coagulation time (CT=reaction time, r)], the kinetics of clot formation [clot formation time (CFT=coagulation time, k)] and maximum clot firmness (MCF=maximal amplitude, MA). Measurements were performed after induction of anaesthesia, at the end of surgery, 5 h after surgery and on the mornings of the first and second days after surgery. RESULTS: Significantly more HES 130/0.4 [2590 (SD 260) ml] than Hextend) [1970 (310) ml] was given. Blood loss was greatest in the Hextend) group and did not differ between RL- and HES 130/0.4-treated patients. Baseline TEG data were similar and within the normal range. CT and CFT were greater in the Hextend) group immediately after surgery, 5 h after surgery and on the first day than in the two other groups. ApTEG MCF also changed significantly in the Hextend) patients, indicating more pronounced fibrinolysis. Volume replacement using RL caused moderate hypercoagulability, shown by a decrease in CT. CONCLUSION: A modified, balanced high-molecular weight HES with a high degree of substitution (Hextend) adversely affected measures of coagulation in patients undergoing major abdominal surgery, whereas a preparation with a low MW and low DS affected these measures of haemostasis less. Large amounts of RL decreased the coagulation time.