ABSTRACT
Traumatic brain injuries cause enormous individual and socioeconomic burdens. Survivors frequently struggle with motor handicaps as well as impaired cognition and emotion. In addition to the primary mechanical brain damage, complex secondary mechanisms are the main drivers of functional impairment. Many of these pathophysiological mechanisms are now well known: excitotoxic amino acids, breakdown of the blood-brain barrier, neuroinflammation with subsequent damage to cell organelles and membranes, cerebral edema, and apoptotic processes triggering neuronal death; however, paracrine resilience factors may counteract these processes. Specific neuroprotective and neuroregenerative intensive care therapies are few. This review highlights medical approaches aimed at mitigating secondary damage and promoting neurotrophic processes in severe traumatic brain injury. Some pharmacologic attempts that appeared very promising in experimental settings have had disappointing clinical results (progesterone, cyclosporine A, ronopterin, erythropoietin, dexanabinol). Thus, the search for drugs that can effectively limit ongoing posttraumatic neurological damage is ongoing. Some medications appear to be beneficial: Nmethyl-D-aspartate receptor (NMDA) antagonists (esketamine, amantadine, Mg++) reduce excitotoxicity and statins and cerebrolysin are known to counteract neuroinflammation. By supporting the impaired mitochondrial energy supply, oxidative processes are inhibited and neuroregenerative processes, such as neurogenesis, angiogenesis and synaptogenesis are promoted by citicoline and cerebrolysin. First clinical evidence shows an improvement in cognitive and thymopsychic outcomes, underlined by own clinical experience combining different therapeutic approaches. Accordingly, adjuvant treatment with neuroprotective substances appears to be a promising option, although more randomized prospective studies are still needed.
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BACKGROUND: S100 B is an extensively studied neuro-trauma marker, but its specificity and subsequently interpretation in major trauma patients might be limited, since extracerebral injuries are known to increase serum levels. Thus, we evaluated the potential role of S100B in the assessment of severe traumatic brain injury (TBI) in multiple injured patients upon emergency room (ER) admission and the first days of intensive care unit (ICU) stay. METHODS: Retrospective study employing trauma registry data derived from a level 1 trauma center. Four cohorts of patients were grouped: isolated TBI (iTBI), polytrauma patients with TBI (PT + TBI), polytrauma patients without TBI (PT-TBI) and patients without polytrauma or TBI (control). S100B-serum levels were assessed immediately after admission in the emergency room and during the subsequent ICU stay. Values were correlated with injury severity score (ISS), Glasgow Coma Score (GCS) and in-hospital mortality. RESULTS: 780 predominantly male patients (76 %) with a median age of 48 (30-63) and a median ISS of 24 (17-30) were enrolled in the study. Admission S100B correlated with ISS and TBI severity defined by the GCS (both p < 0.0001) but not with head abbreviated injury score (AIS) (p = 0.38). Compared with survivors, non-survivors had significantly higher median S100B levels in the ER (6.14 µg/L vs. 2.06 µg/L; p < 0.0001) and at ICU-day 1 (0.69 µg/L vs. 0.17 µg/L; p < 0.0001). S100B in the ER predicted mortality with an area under curve (AUC) of 0.77 (95 % CI 0,70-0,83, p < 0.0001), vs. 0.86 at ICU-day 1 (95 % CI 0,80-0,91, p < 0.0001). CONCLUSION: In conclusion, S100B is a valid biomarker for prediction of mortality in major trauma patients with a higher accuracy when assessed at the first day of ICU stay vs. immediately after ER admission. Since S100B did not correlate with pathologic TBI findings in multiple injured patients, it failed as predictive neuro-marker because extracerebral injuries demonstrated a higher influence on admission levels than neurotrauma. Although S100B levels are indicative for injury severity they should be interpreted with caution in polytrauma patients.
Subject(s)
Brain Injuries, Traumatic , Multiple Trauma , Humans , Male , Female , Retrospective Studies , Brain Injuries, Traumatic/diagnosis , Hospitalization , Trauma Centers , S100 Calcium Binding Protein beta SubunitABSTRACT
Ventilation with positive end-expiratory pressure (PEEP) may result in decreased venous return to the heart and therefore decrease cardiac output. We evaluated the influence of PEEP ventilation on arterial blood pressure in the field in 296 posttraumatic intubated patients being treated by a helicopter emergency medical service in a retrospective cohort study. Initial systolic blood pressure on the scene, upon hospital admission and their mean difference were compared between patients being ventilated with no/low PEEP (0-0.3 kPa) and moderate PEEP (0.3-1 kPa). In a subgroup analysis of initially hemodynamic unstable patients (systolic blood pressure < 80 mmHg), systolic blood pressure was compared between patients being ventilated with no/low or moderate PEEP Further, the mean difference between initial systolic blood pressure and upon hospital admission was correlated with the chosen PEEP. Systolic arterial blood pressure of patients being ventilated with no/low PEEP improved from 105 ± 36 mmHg to 112 ± 38 mmHg, and that of patients being ventilated with moderate PEEP improved from 105 ± 38 mmHg to 119 ± 27 mmHg. In initially unstable patients being ventilated with no/low PEEP systolic blood pressure improved from initially 55 ± 36 mmHg to 78 ± 30 mmHg upon hospital admission, and in those being ventilated with moderate PEEP, the systolic blood pressure improved from 43 ± 38 mmHg to 91 ± 27 mmHg. There was no significant correlation between the chosen PEEP and the mean difference of systolic blood pressure (Pearson's correlation, r = 0.07, P = 0.17). Ventilation with moderate PEEP has no adverse effect on arterial systolic blood pressure in this cohort of trauma patients requiring mechanical ventilation. Initially unstable patients being ventilated with moderate PEEP tend to be hemodynamically more stable.
Subject(s)
Arterial Pressure , Respiration, Artificial , Cardiac Output/physiology , Humans , Positive-Pressure Respiration , Retrospective StudiesABSTRACT
BACKGROUND: Pain relief in the prehospital setting is often insufficient, as the administration of potent intravenous analgesic drugs is mostly reserved to physicians. In Australia, inhaled methoxyflurane has been in routine use by paramedics for decades, but experience in Central European countries is lacking. Thus, we aimed to assess whether user friendliness and effectiveness of inhaled methoxyflurane as sole analgesic match the specific capabilities of local ground and air-based EMS systems in Austria. METHODS: Observational study in adult trauma patients (e.g. dislocations, fracture or low back pain following minor trauma) with moderate to severe pain (numeric rating scale [NRS] ≥4). Included patients received a Penthrop® inhaler containing 3 mL of methoxyflurane (maximum use 30 min). When pain relief was considered insufficient (NRS reduction < 3 after 10 min), intravenous analgesics were administered by an emergency physician. The primary endpoint was effectiveness of methoxyflurane as sole analgesic for transport of patients. Secondary endpoints were user friendliness (EMS personell), time to pain relief, vital parameters, side effects, and satisfaction of patients. RESULTS: Median numeric pain rating was 8.0 (7.0-8.0) in 109 patients. Sufficient analgesia (reduction of NRS ≥3) was achieved by inhaled methoxyflurane alone in 67 patients (61%). The analgesic effect was progressively better with increasing age. Side effects were frequent (n = 58, 53%) but mild. User satisfaction was scored as very good when pain relief was sufficient, but fair in patients without benefit. Technical problems were observed in 16 cases (14.7%), mainly related to filling of the inhaler. In every fifth use, the fruity smell of methoxyflurane was experienced as unpleasant. No negative effects on vital signs were observed. CONCLUSION: In prehospital use, inhaled methoxyflurane as sole analgesic is effective for transport of trauma patients (62%) with moderate to severe pain. Older patients benefit especially from inhaled methoxyflurane. Side effects are mild and vital parameters unaffected. Thus, inhaled methoxyflurane could be a valuable device for non-physician EMS personnel rescue services also in the central Europe region.
Subject(s)
Analgesia , Anesthetics, Inhalation , Emergency Medical Services , Adult , Analgesics/therapeutic use , Anesthetics, Inhalation/adverse effects , Humans , Methoxyflurane/adverse effects , Pain/drug therapy , Pain Measurement , Prospective StudiesABSTRACT
Treatment of acute pain is a central task in emergency medicine. Yet, prehospital pain relief is often insufficient or delayed since the administration of potent intravenous analgesic drugs (such as opioids) is mostly limited to physicians due to legal restrictions or training deficiencies in Germany and Austria. Frequently, prehospitally operating emergency physicians have to be demanded later for anguished patients limiting disposability of physicians for patients who are in a potentially life-threatening condition. Thus, inhaled analgesics could represent an interesting alternative.A mixture of 50% nitrous oxide and 50% oxygen (N2O, Livopan®) has been available in Germany and Austria for several years; however, prehospital use of Livopan has been merely realized and only one trial has been published. In addition, methoxyflurane (Penthrop®), a volatile anesthetic from the group of the dialkyl esters (2-dichloro-1:1-difluoroethyl-methyl-ester) was approved for the treatment of moderate to severe pain following trauma in adults in many European countries in recent years and was brought onto the market in Austria in 2018. Several in-hospital trials demonstrated high effectiveness in this setting.This article discusses the effects and prehospital areas of application of both substances in the light of the existing literature. We provide a narrative overview of the current study situation and report on a recently performed prehospital application study of methoxyflurane (Penthrop®) from Austria.The need for pressurized gas cylinders for the use of N2O represents a certain limitation in prehospital use. Furthermore, in certain injuries such as of the inner ear or a pneumothorax N2O should not be used and the risk of diffusion hypoxemia has to be addressed. Users should be particularly careful and limit the use in alcohol addicts and vegans. The advances of N2O are that it is odorless, has a fast onset of action, the usability in patients over 1 month old and has stabilizing effects on the circulation. Plenty of literature regarding prehospital as well as in-hospital use of nitrous oxide in emergency, obstetric and pediatric settings show its effectiveness as a single drug as well as in combination with other analgesics, such as paracetamol or various opioids. Its long tradition in Anglo-American countries is also based on its safety and low rate of side effects.Methoxyflurane is easier to store and handle and may be slightly more effective in severe pain after trauma; however, its approval is restricted to adults, where it works significantly better with increasing age, based on the declining minimal alveolar concentration (MAC) of all inhaled anesthetics with increasing age. Furthermore, decades of use of inhaled methoxyflurane in Australia have shown the drug is effective, safe and low in side effects and has a broad spectrum of applications. The use of methoxyflurane is limited in patients with severe hepatic or renal insufficiency and the characteristic odor has been described as unpleasant by some patients. In Europe, three large in-hospital trials showed strong pain relief in trauma patients, even comparable to opioids.Overall, based on the current evidence, the use of nitrous oxide and even more of methoxyflurane may be recommended also for prehospital use by skilled paramedics.
Subject(s)
Acute Pain , Anesthetics , Emergency Medical Services , Acute Pain/drug therapy , Adult , Allied Health Personnel , Anesthetics/adverse effects , Child , Humans , Infant , Methoxyflurane/adverse effects , Nitrous Oxide/adverse effectsABSTRACT
BACKGROUND: Gastric dilation is frequently observed in trauma patients. However, little is known about average gastric volumes comprising food, fluids and air. Although literature suggests a relevant risk of gastric insufflation when endotracheal intubation (ETI) is required in the pre-hospital setting, this assumption is still unproven. METHODS: Primary whole body computed tomographic (CT) studies of 315 major trauma patients admitted to our Level 1 Trauma Centre Salzburg during a 7-year period were retrospectively assessed. Gastric volumes were calculated employing a CT volume rendering software. Patients intubated in the pre-hospital setting by emergency physicians (PHI, N = 245) were compared with spontaneously breathing patients requiring ETI immediately after arrival in the emergency room (ERI, N = 70). RESULTS: The median (range) total gastric content and air volume was 402 (26-2401) and 94 (0-1902) mL in PHI vs. 466 (59-1915) and 120 (1-997) mL in ERI patients (p = .59 and p = .35). PHI patients were more severely injured when compared with the ERI group (injury severity score (ISS) 33 (9-75) vs. 25 (9-75); p = .004). Mortality was higher in the PHI vs. ERI group (26.8% vs. 8.6%, p = .001). When PHI and ERI patients were matched for sex, age, body mass index and ISS (N = 50 per group), total gastric content and air volume was 496 (59-1915) and 119 (0-997) mL in the PHI vs. 429 (36-1726) and 121 (4-1191) mL in the ERI group (p = .85 and p = .98). Radiologic findings indicative for aspiration were observed in 8.1% of PHI vs. 4.3% of ERI patients (p = .31). Gastric air volume in patients who showed signs of aspiration was 194 (0-1355) mL vs. 98 (1-1902) mL in those without pulmonary CT findings (p = .08). CONCLUSION: In major trauma patients, overall stomach volume deriving from food, fluids and air must be expected to be around 400-500 mL. Gastric dilation caused by air is common but not typically associated with pre-hospital airway management. The amount of air in the stomach seems to be associated with the risk of aspiration. Further studies, specifically addressing patients after difficult airway management situations are warranted.
Subject(s)
Airway Management , Emergency Medical Services , Gastric Dilatation/diagnostic imaging , Gastrointestinal Contents/diagnostic imaging , Stomach/diagnostic imaging , Adolescent , Adult , Aged , Aged, 80 and over , Austria , Female , Humans , Intubation, Intratracheal , Male , Middle Aged , Respiratory Aspiration/complications , Retrospective Studies , Tomography, X-Ray Computed , Whole Body Imaging , Wounds and Injuries , Young AdultABSTRACT
BACKGROUND: Pre-hospital emergency anaesthesia and tracheal intubation are life-saving interventions in trauma patients. However, there is evidence suggesting that the risks associated with both procedures outweigh the benefits. Thus, we assessed whether induction of anaesthesia and tracheal intubation of trauma patients can be postponed in spontaneously breathing patients until emergency room (ER) admission without increasing mortality. METHODS: Retrospective analysis of major trauma patients either intubated on-scene by an emergency medical service (EMS) physician (pre-hospital intubation, PHI) or within the first 10 min after admission at a level 1 trauma centre (emergency room intubation, ERI). Data was extracted from the German Trauma Registry, hospital patient data management and electronic clinical information system. RESULTS: From a total of 946 major trauma cases documented between 2010 and 2017, 294 patients matched the study inclusion criteria. Mortality rate of PHI (N = 258) vs. ERI (N = 36) patients was 26.4% vs. 16.7% (p = 0.3). After exclusion of patients with severe traumatic brain injury and/or pre-hospital cardiac arrest, mortality rate of PHI (N = 100) vs. ERI patients (N = 29) was 6% vs. 17.2%, (p = 0.07). Median on-scene time was significantly (p < 0.01) longer in PHI (30 min; IQR: 21-40) vs. ERI patients (20 min; IQR: 15-28). CONCLUSIONS: There was no statistical difference in mortality rates of spontaneously breathing trauma patients intubated on-scene when compared with patients intubated immediately after hospital admission. Due to the retrospective study design and small case number, further studies evaluating the impact of airway management timing in sufficiently breathing trauma patients are warranted.
Subject(s)
Emergency Medical Services , Intubation, Intratracheal , Wounds and Injuries/therapy , Adult , Aged , Austria , Female , Hospitalization , Humans , Male , Middle Aged , Patient Selection , Registries , Retrospective Studies , Survival Rate , Wounds and Injuries/mortality , Young AdultABSTRACT
OBJECTIVES: Tracheal intubation in prehospital emergency care is challenging. The McGrath Mac Video Laryngoscope (Medtronic, Minneapolis, MN) has been proven to be a reliable alternative for in-hospital airway management. This trial compared the McGrath Mac Video Laryngoscope and direct laryngoscopy for the prehospital setting. DESIGN: Multicenter, prospective, randomized, controlled equivalence trial. SETTING: Oesterreichischer Automobil- und Touring Club (OEAMTC) Helicopter Emergency Medical Service in Austria, 18-month study period. PATIENTS: Five-hundred fourteen adult emergency patients (≥ 18 yr old). INTERVENTIONS: Helicopter Emergency Medical Service physicians followed the institutional algorithm, comprising a maximum of two tracheal intubation attempts with each device, followed by supraglottic, then surgical airway access in case of tracheal intubation failure. No restrictions were given for tracheal intubation indication. MEASUREMENTS MAIN RESULTS: The Primary outcome was the rate of successful tracheal intubation; equivalence range was ± 6.5% of success rates. Secondary outcomes were the number of attempts to successful tracheal intubation, time to glottis passage and first end-tidal CO2 measurement, degree of glottis visualization, and number of problems. The success rate for the two devices was equivalent: direct laryngoscopy 98.5% (254/258), McGrath Mac Video Laryngoscope 98.1% (251/256) (difference, 0.4%; 99% CI, -2.58 to 3.39). There was no statistically significant difference with regard to tracheal intubation times, number of attempts or difficulty. The view to the glottis was significantly better, but the number of technical problems was increased with the McGrath Mac Video Laryngoscope. After a failed first tracheal intubation attempt, immediate switching of the device was significantly more successful than after the second attempt (90.5% vs 57.1%; p = 0.0003), regardless of the method. CONCLUSIONS: Both devices are equivalently well suited for use in prehospital emergency tracheal intubation of adult patients. Switching the device following a failed first tracheal intubation attempt was more successful than a second attempt with the same device.
Subject(s)
Emergency Medical Services , Intubation, Intratracheal/methods , Laryngoscopy/methods , Adolescent , Adult , Aged , Aged, 80 and over , Air Ambulances , Female , Humans , Laryngoscopes , Male , Middle Aged , Prospective Studies , Video Recording , Young AdultABSTRACT
BACKGROUND: Myocardial infarction is a time-critical condition and its outcome is determined by appropriate emergency care. Thus we assessed the efficacy of a supra-regional ST-segment elevation myocardial infarction (STEMI) network in Easternern Austria. METHODS: The Eastern Austrian STEMI network serves a population of approx. 766.000 inhabitants within a region of 4186 km2. Established in 2007, it now comprises 20 pre-hospital emergency medical service (EMS) units (10 of these physician-staffed), 4 hospitals and 3 cardiac intervention centres. Treatment guidelines were updated in 2012 and documentation within a web-based STEMI registry became mandatory. For this retrospective qualitative control study, data from February 2012-April 2015 was assessed. RESULTS: A total of 416 STEMI cases were documented, and 99% were identified by EMS within 6 (4.0-8.0) minutes after arrival. Median time loss between onset of pain and EMS call was 54 (20-135) minutes; response, pre-hospital and door-to-balloon times were 14 (10-20), 46 (37-59) and 45 (32-66) minutes, respectively. When general practitioners were involved, time between onset of pain and balloon inflation significantly increased from 180 (135-254) to 218 (155-348) minutes (p < .001). A pre-hospital time < 30 min was achieved in 25.8% of all patients during the day vs. 11.6% during the night (p < .001). Three hundred forty-five patients (83%) were subjected to primary percutaneous coronary intervention (PPCI), and 6.5% were thrombolysed by EMS. Pre-hospital complication rate was 18% (witnessed cardiac arrest 7%, threatening arrhythmias 6%, cardiogenic shock 5%). Twenty-four hours and hospital mortality rate were 1.2 and 2.8%, respectively. DISCUSSION: Optimal patient care and subsequently outcome of STEMI is strongly determined by a short patient-decision time to call EMS and by the first medical contact to balloon time (FMCBT). Supra-regional networks are key in order to increase the efficacy and efficiency of health care. The goal of 120 min FMCBT was achieved in 78% of our patients immediately managed by EMS, thus indicating room for improvement. CONCLUSION: In conclusion, results from the Eastern Austrian STEMI network shed light on the necessity of increasing patient awareness in order to minimize any time loss derived by delayed EMS calls. Involvement of family physicians resulted in prolonged FMCBT. A stronger utilization of rescue helicopters could further improve the efficacy of this supra-regional network. Nevertheless PPCI rates, time intervals and outcome rates compare well with international benchmarks.
Subject(s)
Emergency Medical Services , ST Elevation Myocardial Infarction/therapy , Aged , Aged, 80 and over , Austria , Female , Hospital Mortality , Humans , Male , Middle Aged , Percutaneous Coronary Intervention , Quality Control , Retrospective Studies , ST Elevation Myocardial Infarction/mortality , Time-to-TreatmentABSTRACT
BACKGROUND: Competence in emergency airway management is key in order to improve patient safety and outcome. The scope of compulsory training for emergency physicians or paramedics is quite limited, especially in Austria. The purpose of this study was to review the difficult airway management performance of an emergency medical service (EMS) in a region that has implemented a more thorough training program than current regulations require, comprising 3 months of initial training and supervised emergency practice and 3 days/month of on-going in-hospital training as previously reported. METHODS: This is a subgroup analysis of pre-hospital airway interventions performed by non-anesthesiologist EMS physicians between 2006 and 2016. The dataset is part of a retrospective quality control study performed in the ground EMS system of Wiener Neustadt, Austria. Difficult airway missions recorded in the electronic database were matched with the hospital information system and analyzed. RESULTS: Nine hundred thirty-three of 23060 ground EMS patients (4%) required an airway intervention. In 48 cases, transient bag-mask-valve ventilation was sufficient, and 5 patients needed repositioning of a pre-existing tracheostomy cannula. Eight hundred thirty-six of 877 patients (95.3%) were successfully intubated within two attempts; in 3 patients, a supraglottic airway device was employed first line. Management of 41 patients with failed tracheal intubation comprised laryngeal tubes (n = 21), intubating laryngeal mask (n = 11), ongoing bag-mask-valve ventilation (n = 8), and crico-thyrotomy (n = 1). There was no cannot intubate/cannot ventilate situation. Blood gas analysis at admission revealed hypoxemia in 2 and/or hypercapnia in 11 cases. CONCLUSION: During the 11-year study period, difficult airways were encountered in 5% but sufficiently managed in all patients. Thus, the training regime presented might be a feasible and beneficial model for training of non-anesthesiologist emergency physicians as well as paramedics.
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BACKGROUND: Analgesia and sedation are key items in intensive care. Recently published S3 guidelines specifically address treatment of patients with elevated intracranial pressure. METHODS: The Austrian Society of Anesthesiology, Resuscitation and Intensive Care Medicine carried out an online survey of neurointensive care units in Austria in order to evaluate the current state of practice in the areas of analgosedation and delirium management in this high-risk patient group. RESULTS: The response rate was 88%. Induction of anesthesia in patients with elevated intracranial pressure is carried out with propofol/fentanyl/rocuronium in >80% of the intensive care units (ICU), 60% use midazolam, 33.3% use esketamine, 13.3% use barbiturates and 6.7% use etomidate. For maintenance of analgosedation up to 72 h, propofol is used by 80% of the ICUs, followed by remifentanil (46.7%), sufentanil (40%) and fentanyl (6.7%). For long-term sedation, 86.7% of ICUs use midazolam, 73.3% sufentanil and 73.3% esketamine. For sedation periods longer than 7 days, 21.4% of ICUs use propofol. Reasons for discontinuing propofol are signs of rhabdomyolysis (92.9%), green urine, elevated liver enzymes (71.4% each) and elevated triglycerides (57.1%). Muscle relaxants are only used during invasive procedures. Inducing a barbiturate coma is rated as a last resort by 53.3% of respondents. The monitoring methods used are bispectral index (BIS™, 61.5% of ICUs), somatosensory-evoked potentials (SSEP, 53.8%), processed electroencephalography (EEG, 38.5%), intraparenchymal partial pressure of oxygen (pO2, 38.5%) and microdialysis (23.1%). Sedation and analgesia are scored using the Richmond agitation and sedation score (RASS, 86.7%), sedation agitation scale (SAS, 6.7%) or numeric rating scale (NRS, 50%) and behavioral pain scale (BPS, 42.9%), visual analogue scale (VAS), critical care pain observation tool (CCPOT, each 14.3%) and verbal rating scale (VRS, 7.1%). Delirium monitoring is done using the confusion assessment method for intensive care units (CAM-ICU, 46.2%) and intensive care delirium screening checklist (ICDSC, 7.7%). Of the ICUs 46.2% do not carry out delirium monitoring. CONCLUSION: We found good general compliance with the recommendations of the current S3 guidelines. Room for improvement exists in monitoring and the use of scores to detect delirium.
Subject(s)
Hypnotics and Sedatives , Intensive Care Units/standards , Intracranial Hypertension , Adult , Austria , Humans , Hypnotics and Sedatives/therapeutic use , Intracranial Hypertension/therapy , Respiration, Artificial , Surveys and QuestionnairesABSTRACT
BACKGROUND: Pre-hospital airway management is a major challenge for emergency medical service (EMS) personnel. Despite convincing evidence that the rescuer's qualifications determine efficacy of tracheal intubation, in-hospital airway management training is not mandatory in Austria, and often neglected. Thus we sought to prove that airway management competence of EMS physicians can be established and maintained by a tailored training program. METHODS: In this descriptive quality control study we retrospectively evaluated all in- and pre-hospital airway cases managed by EMS physicians who underwent a structured in-hospital training program in anesthesia at General Hospital Wiener Neustadt. Data was obtained from electronic anesthesia and EMS documentation systems. RESULTS: From 2006 to 2016, 32 EMS physicians with 3-year post-graduate education, but without any prior experience in anesthesia were trained. Airway management proficiency was imparted in three steps: initial training, followed by an ongoing practice schedule in the operating room (OR). Median and interquartile range of number of in-hospital tracheal intubations (TIs) vs. use of supra-glottic airway devices (SGA) were 33.5 (27.5-42.5) vs. 19.0 (15.0-27.0) during initial training; 62.0 (41.8-86.5) vs. 33.5 (18.0-54.5) during the first, and 64.0 (34.5-93.8) vs. 27 (12.5-56.0) during the second year. Pre-hospitaly, every physician performed 9.0 (5.0-14.8) TIs vs. 0.0 (0.0-0.0) SGA cases during the first, and 9.0 (7.0-13.8) TIs vs. 0.0 (0.0-0.3) SGA during the second year. Use of an SGA was mandatory when TI failed after the second attempt, thus accounting for a total of 33 cases. In 8 cases, both TI and SGA failed, but bag mask ventilation was successfully performed. No critical events related to airway management were noted and overall success rate for TI with a max of 2 attempts was 95.3%. DISCUSSION: Number of TIs per EMS physician is low in the pre-hospital setting. A training concept that assures an additional 60+ TIs per year appears to minimize failure rates. Thus, a fixed amount of working days in anesthesia seems crucial to maintain proficiency. CONCLUSIONS: In-hospital training programs are mandatory for non-anesthetist EMS physicians to gain competence in airway management and emergency anesthesia.Our results might be helpful when discussing the need for regulation and financing with the authorities.
Subject(s)
Airway Management/standards , Emergency Medicine/education , Emergency Medicine/standards , Quality Control , Anesthesiology/education , Austria , Clinical Competence , Education/standards , Education, Medical, Continuing/standards , Hospitals/standards , Humans , Intubation, Intratracheal/standards , Retrospective StudiesABSTRACT
OBJECTIVES: The task force Neuroanaesthesia of the Austrian Society of Anaesthesiology, Resuscitation and Intensive Care Medicine (ÖGARI) is aiming to develop and provide recommendations in order to improve neurocritical care in Austria. Thus, a survey on neurocritical care concepts in Austria regarding intensive care of subarachnoid haemorrhage (SAH) and severe traumatic brain injury (TBI) was performed to assess the current status. METHODS: An online internet questionnaire comprising 59 items on current concepts of SAH and TBI critical care was sent to 117 anaesthesiology departments. RESULTS: The survey was answered by 30 (25.6 %) of the hospitals, 24 (80 %) of them treating patients with SAH and/or TBI. Data from ten SAH centres reveal that definitive care was achieved within 24 h in all hospitals; a case load >50 per year is noted in 70 % of intensive care units (ICU). In all, 50 % of departments employ written protocols for treatment. Regarding the treatment of TBI patients, 14 answers were received, indicating that 42.9 % of departments provide care for >50 patients per year. Time between arrival and CT scan is <30 min in all hospitals, and 28.6 % of departments rely on written protocols. Only 14.3 % of hospitals report about routine morbidity and mortality rounds. While the neurologic status is assessed at discharge from the ICU, there is no evaluation of 1year outcome. CONCLUSIONS: Definitive care of SAH and TBI patients is achieved timely in Austria. When compared with SAH, more hospitals with lower case loads take care of TBI patients. Written guidelines and protocols at institutional level are often missing. Since routine morbidity and mortality conferences are sparse, and long-term outcome is not assessed, there is room for improvement.
Subject(s)
Brain Injuries, Traumatic/epidemiology , Brain Injuries, Traumatic/therapy , Critical Care/statistics & numerical data , Practice Patterns, Physicians'/statistics & numerical data , Subarachnoid Hemorrhage/epidemiology , Subarachnoid Hemorrhage/therapy , Brain Injuries, Traumatic/diagnosis , Comorbidity , Critical Care/standards , Female , Health Care Surveys , Humans , Male , Practice Patterns, Physicians'/standards , Prevalence , Subarachnoid Hemorrhage/diagnosis , Time-to-Treatment/statistics & numerical data , Treatment Outcome , Utilization Review , Workload/statistics & numerical dataABSTRACT
OBJECTIVES: We sought to assess whether the GlideScope Ranger video laryngoscope may be a reliable alternative to direct laryngoscopy in the prehospital setting. DESIGN: Multicenter, prospective, randomized, control trial with patient recruitment over 18 months. SETTING: Four study centers operating physician-staffed rescue helicopters or ground units in Austria and Norway. PATIENTS: Adult emergency patients requiring endotracheal intubation. INTERVENTIONS: Airway management strictly following a prehospital algorithm. First and second intubation attempt employing GlideScope or direct laryngoscopy as randomized; third attempt crossover. After three failed intubation attempts, immediate use of an extraglottic airway device. MEASUREMENTS AND MAIN RESULTS: A total of 326 patients were enrolled. Success rate with the GlideScope (n = 168) versus direct laryngoscopy (n = 158) group was 61.9% (104/168) versus 96.2% (152/158), respectively (p < 0.001). The main reasons for failed GlideScope intubation were failure to advance the tube into the larynx or trachea (26/168 vs 0/158; p < 0.001) and/or impaired sight due to blood or fluids (21/168 vs 3/158; p < 0.001). When GlideScope intubation failed, direct laryngoscopy was successful in 61 of 64 patients (95.3%), whereas GlideScope enabled intubation in four of six cases (66.7%) where direct laryngoscopy failed (p = 0.055). In addition, GlideScope was prone to impaired visualization of the monitor because of ambient light (29/168; 17.3%). There was no correlation between success rates and body mass index, age, indication for airway management, or experience of the physicians, respectively. CONCLUSIONS: Video laryngoscopy is an established tool in difficult airway management, but our results shed light on the specific problems in the emergency medical service setting. Prehospital use of the GlideScope was associated with some major problems, thus resulting in a lower intubation success rate when compared with direct laryngoscopy.
Subject(s)
Emergency Medical Services , Intubation, Intratracheal/methods , Laryngoscopes , Laryngoscopy/methods , Adult , Aged , Aged, 80 and over , Cross-Over Studies , Equipment Design , Female , Humans , Intubation, Intratracheal/instrumentation , Laryngoscopy/instrumentation , Male , Middle Aged , Prospective Studies , Video Recording , Young AdultABSTRACT
Air medical transport of patients suffering of highly infectious diseases is typically performed employing portable isolation chambers. Although the likelihood of decompression flight emergencies is low, sustainability of the devices used is crucial. When a standard isolation unit was subjected to an explosive cabin decompression of 493 hPa, simulating a 32808 ft flight level accident, leak tightness of the unit was lost due to rupture of the bag caused by over expansion. When the pressure chamber experiment was repeated with a modified unit, distension was minimized by an additional compensation air bag, thus ensuring leak tightness.
Subject(s)
Air Ambulances , Infection Control/instrumentation , Patient Isolation/instrumentation , Accidents, Aviation , Emergencies , Humans , Pressure , Switzerland , Video RecordingABSTRACT
BACKGROUND/PURPOSE: We aimed to examine the epidemiological characteristics and injury patterns of pediatric trauma in helicopter emergency medical service (HEMS) caused by sports/outdoor activities in alpine environment. METHODS: This retrospective cohort study analyzed 912 primary HEMS missions for pediatric trauma (0-14 years of age) in Austrian Alps between 1 January 2006 and 30 June 2007. Children were stratified by age into toddlers (3-5 years), children in early (6-9 years), and late school age (10-14 years). RESULTS: The majority of pediatric sports-related trauma in alpine environment was caused by skiing (82.1%; n=749). Pediatric patients were predominately in late school age and boys (72.8%, n=664 and 61.0%, n=556, respectively) and a minority (16.0%, n=146) was severely injured. Overall, fracture (47.0%, n=429), contusion (17.9%, n=163), and traumatic brain injury (17.0%, n=155) were the most common prehospital diagnoses. The most frequent pattern of injury was related to the head/face and spine (36.3%, n=331). CONCLUSIONS: The knowledge about epidemiological characteristics of HEMS use for injured children in alpine environment may be essential for training requirements of HEMS crews and operational considerations of HEMS providers. The incidence of head and spinal injuries requires support for initiatives to promote helmet wear and appropriate risk behavior amongst skiers and snowboarders.
Subject(s)
Brain Injuries/epidemiology , Contusions/epidemiology , Fractures, Bone/epidemiology , Skiing/injuries , Adolescent , Air Ambulances/statistics & numerical data , Austria/epidemiology , Bicycling/injuries , Child , Child, Preschool , Facial Injuries/epidemiology , Female , Humans , Infant , Lower Extremity/injuries , Male , Mountaineering/injuries , Rescue Work , Retrospective Studies , Snow Sports/injuries , Spinal Injuries/epidemiology , Upper Extremity/injuriesABSTRACT
INTRODUCTION: Arguably, the most challenging emergencies encountered by emergency medical service crews involve children. Because only scant data exist about the epidemiology of pediatric emergencies in helicopter emergency medical service (HEMS) on a population level, we sought to determine the epidemiological characteristics stratified by responding area in a large nationwide sample. METHODS: This was a retrospective cohort study including all pediatric patients (0-14 years of age) who were treated by HEMS in Austria from January 2006 to June 2007 (18 months). RESULTS: Pediatric emergencies accounted for 2207 (8.2%) of a total of 26.850 helicopter rescue missions. Of those, 69.9% (n = 1543) were not involved in life-threatening emergencies. The rate of critical pediatric emergencies was higher in urban than in rural or alpine environment (45.2%, 38.2% and 20.3%, respectively). The most common chief complaint was trauma; the frequency of injuries ranged from 54.2% (582/1074) in rural area and 60.3% (44/73) in urban area to 91.4% (969/1060) in alpine environment. Fracture and head trauma (34.9%; 557/1595 and 26.3%; 419/1595, respectively) were the most common injuries. Advanced life support measures like tracheal intubation, cardiopulmonary resuscitation and intraosseous access were rarely performed (3.7%; n = 82, 1.9%; n = 42 and 0.9%; n = 19, respectively). CONCLUSIONS: Pediatric emergencies in Austrian HEMS show different epidemiological characteristics in alpine, urban and rural operational environments. Because of challenges and infrequency of prehospital pediatric emergencies, HEMS crews need to maintain their skills in pediatric advanced life support and trauma care.
