Tracheal tube cuff pressures increased from a mean 28.7 cm H2O pre-flight to 62.6 cm H2O in flight (mean altitude increase 2260 feet) in a Swiss helicopter-based study.
At cruising altitude, 98% of patients had intracuff pressure >30 cm H2O, 72% had intracuff pressure>50 cm H2O, and 20% even had intracuff pressure>80 cm H2O.
Multiple different referring hospitals meant the type of tracheal tube was not controlled for.
_7093.jpg)
Endotracheal Tube Intracuff Pressure During Helicopter Transport
Ann Emerg Med. 2010 Aug;56(2):89-93
Tag Archives: pre-hospital
Pre-hospital RSI successes
A couple of papers in Prehospital Emergency Care this month contribute to the pre-hospital airway management / rapid sequence intubation (RSI) literature.
Intensive physician oversight of a pre-hospital RSI program increased the prescription of post-intubation morphine and midazolam, and decreased vecuronium use, although did not significantly increase the successful intubation rate in a before-and-after study. There was also an improvement in patient selection for RSI.
Effect of intensive physician oversight on a prehospital rapid-sequence intubation program
Prehosp Emerg Care. 2010 Jul-Sep;14(3):310-6
A prospective study examined intubation success rates and peri-intubation hypoxaemia in critical care transport (CCT) services in North America, whose services are mainly crewed by registered nurses (RNs) and emergency medical technicians–paramedic (EMT-Ps).
There was a mixture of pre-hospital and interhospital work: 51.9% of the 603 patients studied were intubated at the trauma scene, 27% were intubated inside a hospital, and interestingly 21.1% were intubated inside a vehicle (most of which were helicopters).
Neuromuscular blockade was used to facilitate intubation in only 428 patients (71%). Endotracheal intubation (ETI) was successful in 582 patients (96.5% of 603, 95% CI 94.7-97.8%). There was a greater need (p < 0.001) for multiple attempts at ETI when CCT crews performed the procedure in transport (37.3%) as compared with rate of requirement for multiple ETI attempts while in hospital (16.6%) or on scene (19.4%). Logistic regression identified a three-fold increase in the odds of requiring multiple attempts for intratransport ETI as compared with in-hospital ETI (OR 3.0, 95 CI 1.7–5.2, p < 0.001). 21 patients (3.5%) could not be intubated by the CCT crews resulting in a number of different rescue modalities including 3 cricothyroidotomies. At least there were no unrecognised oesophageal intubations. There were low rates of new hypoxaemia but peri-ETI SpO2 was only recorded for 494 patients (82%).
Airway management success and hypoxemia rates in air and ground critical care transport: a prospective multicenter study
Prehosp Emerg Care. 2010 Jul-Sep;14(3):283
Surviving avalanche burial
Avalanche burial has a high mortality and yet in some cases there have been some amazing saves despite prolonged cardiac arrest. An international working group undertook a systematic review to examine 4 critical prognostic factors for burial victims in cardiac arrest. You have a better chance of surviving a prolonged burial if you have a patent airway and a pocket of air (even a very small one), are hypothermic, and preferably not hyperkalaemic.
Prognostic factors in avalanche resuscitation: A systematic review
Resuscitation. 2010 Jun;81(6):645-52
Pre-hospital RSI
Physicians from HEMS London document their experience of 400 pre-hospital rapid sequence induction / intubations. Their data are consistent with the experience of other similar services and with the emergency airway management literature in general:
- Failure to intubate is rare
- Removing cricoid pressure often improves the view
- A BURP manoeuvre can improve the view and facilitate intubation, but bimanual laryngoscopy / external laryngeal manipulation is better
- Having an SOP optimises first-pass success rate
Cricoid pressure and laryngeal manipulation in 402 pre-hospital emergency anaesthetics: Essential safety measure or a hindrance to rapid safe intubation?
Resuscitation 2010(81):810–816
Poor pre-hospital intubation success
A Scottish study of 628 pre-hospital intubation attempts in cardiac arrest patients records the rate of successful intubations, oesophageal intubations, and endobronchial intubations. Prehospital tracheal intubation was associated with decreased rates of survival to admission. This study has the limitations of a retrospective series but indirectly provides some further muscle to the supraglottic airway lobby.
Field intubation of cardiac arrest patients: a dying art?
Emerg Med J. 2010 Apr;27(4):321-3
Junior pre-hospital doctors spend a bit longer on scene
More junior pre-hospital doctors took longer on scene than their senior colleagues according to a German study, although patient clinical factors were the main determinant of scene time. The majority of cases were non-trauma presentations
Duration of mission time in prehospital emergency medicine: effects of emergency severity and physicians level of education
Emerg Med J 2010;27:398-403
Guideline improved pre-hospital RSI in kids
French physicians provide pre-hospital critical care in medical teams of regional SAMU (service d’aide me ́dicale urgente). A national guideline was introduced in France to guide the management of traumatic brain injury (TBI), which included airway management. A study was conducted which examined the practice of paediatric pre-hospital intubation in TBI in comatose children both before and after the introduction of the guideline.
After the guideline there were more pre-hospital intubations, with more standardised approach to rapid sequence induction(RSI). There were fewer complications and a 100% intubation success rate. Despite an increase in portable capnography use, PaCO2 was measured outside the recommended range of 35– 40 mmHg (3.5-4.5 kPa) in 70% of the cases upon arrival.
Emergency tracheal intubation of severely head-injured children: Changing daily practice after implementation of national guidelines
Pediatr Crit Care Med. 2010 May 13. [Epub ahead of print]
Paediatric Retrieval – what's the rush?
The Children’s Acute Transport Service (CATS) in the UK performed 2106 interfacility transports between April 2006 and March 2008. The stabilisation time averaged just over 2 hrs. Stabilisation time was prolonged by the number of major interventions required to stabilise the patient before transfer and differed significantly between various diagnostic groups. The length of time spent by the retrieval team outside the intensive care environment had no independent effect on subsequent patient mortality.
They have shown that stabilisation time can be influenced by a number of patient- and transport team-related factors, and that time spent undertaking intensive care interventions early in the course of patient illness at the referring hospital does not increase patient mortality. In the authors’ words: ‘the “scoop and run” model can be safely abandoned in favor of early goal-directed management during interhospital transport for intensive care.‘
There’s NO rush guys!
Effect of patient- and team-related factors on stabilization time during pediatric intensive care transport
Pediatr Crit Care Med. 2010 May 6
Pre-hospital intubation experience and outcomes
Hospitals and medical personnel performing high volumes of procedures demonstrate better patient outcomes and fewer adverse events. The relationship between rescuer experience and patient survival for out-of-hospital endotracheal intubation is unknown.
An American study analysing 3 statewide databases with 26,000 records aimed to determine the association between endotracheal intubation experience and patient survival.
In-the-field intubators were EMS paramedics, nurses, and physicians, although paramedics performed more than 94% of out-of-hospital tracheal intubations. Although all air medical rescuers may use neuromuscular- blockade-assisted (rapid sequence) tracheal intubation, select ground EMS units are allowed to use tracheal intubation facilitated by sedatives only; the rest are done ‘cold’.
Patients in cardiac arrest and medical nonarrest experienced increased odds of survival when intubated by rescuers with high procedural experience. In trauma patients, survival was not associated with rescuer experience.
The odds of survival for air medical trauma patients were almost twice that of other patients, which may be related to the use of neuromuscular- blocking agents by air medical crews, or due to more specialised critical care training. The authors suggest that rescuers should perform at least 4 to 12 annual tracheal intubations.
Out-of-Hospital Endotracheal Intubation Experience and Patient Outcomes
Ann Emerg Med. 2010 Jun;55(6):527-537
Hospital bypass for cardiac arrest?
A Japanese study of over 10,000 patients demonstrated improved neurological outcome in out-of-hospital cardiac arrest patients who were taken to hospitals designated as ‘critical care medical centres’, where neurologically favorable 1-month survival was greater [6.7% versus 2.8%, P < 0.001] despite a slightly longer call-hospital arrival interval [30.6 min vs 27.2, p < 0.001]. If return of spontaneous circulation was achieved pre-hospital, there was no difference in survival. It is unclear what factors, such as more interventional cardiology or therapeutic hypothermia, made the difference in the critical care centres.
Impact of transport to critical care medical centers on outcomes after
out-of-hospital cardiac arrest
Resuscitation. 2010 May;81(5):549-54