R.E.B.E.L. EM – Is Apneic Oxygenation Overhyped? with Scott Weingart

Originally published at R.E.B.E.L. EM on April 4, 2016. Reposted with permission.

Follow Dr. Salim R. Rezaie (@srrezaie) and Dr. Scott Weingart (@emcrit

Apneic-Oxygenation-765x583Welcome back to the April 2016 edition of REBELCast. For this episode I was lucky enough to get Scott Weingart on the show to talk to us about all things Apneic Oxygenation (ApOx). ApOx is a concept that has been around for some time in the operating room literature, but only recently been gaining acceptance in the ED, especially after the publication of this concept by Scott and Richard Levitan in the Annals of Emergency Medicine in 2011 [1]. Many nay sayers will argue that the OR studies were in controlled settings with elective surgical patients who were not in critical condition. The believers would argue that ApOx makes sense, its low cost,  and low complexity.  To date there has been no randomized controlled trials (RCTs) on ApOx in the ED.  There has been one ICU Trial (i.e. The FELLOW Trial) [2] and an even more recent observational trial in the ED [3] that have been published on the topic of ApOx. So the question remains: Is Apneic Oxygenation Overhyped?

What are Preoxygenation (PreOx), Apneic Oxygenation (ApOx), and Reoxygenation (ReOx)?

Preoxygenation (PreOx)

  • Should be broken up into 2 separate terms: Preoxygenation and Denitrogenation
  • Denitrogenation = Washing out as much nitrogen from the lungs so that you have a buffer/bag of oxygen when the patient isn’t breathing
  • Requires Time: 3 min of tidal volume breathing on a high FiO2 source
    • With a Non-rebreather (NRB) mask alone,  you are giving approximately 60% FiO2 which will make it impossible to accomplish denitrogenation
  • Preoxygenation (PreOx) = Getting the O2 saturation as close to 100% before pushing RSI meds to intubate

Apneic Oxygenation (ApOx)

  • This occurs during the time from pushing intubation medications, which is anywhere from 45 – 60 seconds, while the paralytic is taking effect, that the patient is burning through their oxygen stores
  • Apneic Oxygenation (ApOx) = Passive movement of oxygen to the alveoli without the patient having to breath and without you having to breath for them
  • Apneic CPAP = Little Brother of ApOx; In patients who have closed alveoli or flooded alveoli; Essentially used for maintenance of recruitment of alveoli during apneic period

Apneic CPAP

Reoxygenation (ReOx)

  • Reoxygenation (ReOx) = Attempts to increase O2 sats when a patient drops their sats during airway management
  • If patient has physiologic shunt physiology, standard BVM will not suffice to fix patients desaturation in between attempts at intubation

BOTTOM LINE: PreOx, ApOx, and ReOx are all attempts to avoid the deadly DeOx (Deoxygenation)

What are your thoughts on the The Fellow Trial? [2]

  • Summary of Trial:
    • Randomized Controlled Trial (RCT) of 150 Critically Ill Patients in a Single ICU
    • Randomized to Apneic Oxygenation vs Usual Care
    • Study Conclusion: Use of Apneic Oxygenation vs Usual Care Made no Difference in the Lowest Arterial Oxygen Saturation Between Induction and Two Minutes After Completion of Intubation
  • Issue with Usual Care in this Trial:
    • Majority of patients had BVM during apneic period
      • Most ED patients are not fasted and using BVM could potentially cause vomiting
    • Not maintaining an open pathway from the nares to the glottis for patients not being bagged
    • Combination of these 2 things hurt the take home message of the study

Does Apneic Oxygenation help in patients with pulmonary shunt physiology (i.e. pulmonary edema, multifocal pneumonia, etc…)?

  • ApOx will help if it is being given with Apneic CPAP
  • Without CPAP, ApOx will not work in patients with shunt physiology
  • Bagging with BVM alone will give O2 and PEEP but again we really want to avoid bagging our patients in the ED as this can cause vomiting
    • With this strategy ApOx may be superfluous
  • A better strategy might be NC at 15 LPM + BVM (without bagging) and with a PEEP Valve

What are your thoughts on the Observational ED Trial recently published by Sackles et al? [3]

  • Summary of Trial:
    • Observational trial in a single ED of 635 patients who received either ApOx or No ApOx
    • Study Conclusion: ApOx in Adult Patients Undergoing RSI had better 1st pass intubation without hypoxemia with a NNT of 7.6
  • The Fact that this Trial is Observational:
    • For People Who Believe in ApOx: Helpful trial that confirms their belief structure
    • For People Who Don’t Believe in ApOx: Does not change their minds, because this is still only observational data
  • Bottom Line:  We need an ED RCT on ApOx

Can you walk us through your exact approach to preoxygenation in a septic patient with pneumonia who is tachypneic, hypoxic, and hypotensive?

  • The Physiologically Difficult Airway (HOp Killers)
    • Hypotension
    • Oxygenation (i.e. Hypoxemia)
    • pH and Ventilation
  • How to Manage our Patient with Hypotension and Hypoxemia
    • Oxygenation (i.e. Hypoxemia)
      • Place patient on standard nasal cannula (NC) at 15L
      • BVM with PEEP valve with 2 hand mask seal for 3 minutes (NO NEED TO BAG) for  preoxygenation and denitrogenation
    •  Hypotension
      • RSI Meds (Great Explanation HERE)
        • Ketamine IV 0.5 mg/kg
        • Rocuronium IV 1.6 – 2.0 mg/kg
      • Start norepinephrine drip or push aliquots of push-dose epinephrine
        • Norepinephrine IV 0.01 – 1 mcg/kg/min
        • Push-Dose Epinephrine IV 5 – 20 mcg every 2 – 5 min

Push-Dose Pressor

Image Borrowed from emcrit.org

Is there a patient we should not use ApOx in?

  • We know ApOx Works in Patients Without Shunt Physiology
    • THRIVE Trial: Transnasal humidified Rapid-Insufflation Ventilatory Exchange [4]
      • 25 patients with difficult airways undergoing general anesthesia
      • Median Apnea was 14 minutes
      • No patient experienced O2 Sat <90%
  • Most Modalities we use for Pre-Oxygenation and Denitrogenation are NOT good enough on their own (i.e. Non-Rebreather Mask)
  • BOTTOM LINE: There is no reason at this time to not be using nasal cannula for ApOx with intubation

Take Home Messages:

  • PreOx is getting the O2 saturation as close to 100% before pushing RSI meds to intubate
  • ApOx is passive movement of oxygen to the alveoli without the patient having to breath and without you having to breath for them
  • In patients with pulmonary shunt physiology, a better strategy might be NC at 15LPM + BVM (Without Bagging) + a PEEP Valve because this will provide both O2 and CPAP for alveolar recruitment
  • The Physiologically Difficult Airway = HOp Killers
    • Hypotension
    • Oxygenation (i.e. Hypoxemia)
    • pH and Ventilation
  • There is no reason at this time to not be using nasal cannula for ApOx with intubation

BONUS Question:

Lets say for a moment that you are not Scott Weingart.  You are working as a faculty at a teaching institution and you have a resident approach you saying they had just listened to the EMCrit podcast. They want to try something because they heard it on the podcast.  How would you handle that situation?

  • Things discussed on the EMCrit podcast are things that are able to be done in the environment of an ED ICU with fellows, which is different than what most people have.
  • In general, as a resident you shouldn’t say you heard something on a podcast and want to do it:
    • Puts people in a tough situation
    • Its important to read the primary literature behind what is being said
  • As the attending who is hearing this, a good way to handle this is telling the resident:
    • Lets discuss this more after we get our patient stabilized
    • Lets do a journal club on this and see if this is something we can incorporate into our practice

For More on This Topic Checkout:

References:

  1. Weingart, Scott D, and Richard M Levitan. Preoxygenation and prevention of desaturation during emergency airway management. Ann Emerg Med 2011; 59 (3): 165 – 75. PMID: 22050948
  2. Semler MW et al. Randomized Trial of Apneic Oxygenation During Endotracheal Intubation of the Critically Ill. Am J Respir Crit Care Med 2015 [Epub ahead of print] PMID: 26426458
  3. Sackles JC et al. First Pass Success Without Hypoxemia is Increased with the Use of Apneic Oxygenation During RSI in the Emergency Department. Acad Emerg Med 2016. [epub ahead of print] PMID: 26836712
  4. Patel A et al. Transnasal Humidified Rapid-Insufflation Ventilatory Exchange (THRIVE): a physiological method of increasing apnoea time in patients with difficult airways. Anesthesia 2015; 70: 323 – 329. PMID: 25388828

Post Peer Reviewed By: Anand Swaminathan (Twitter: @EMSwami)

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Ventilación Bi-Level: Quién la necesita.

La ventilación mecánica no invasiva (VMNI) es una no tan novedosa pero útil herramienta que puede ser aplicada en situación per-hospitalaria o en Urgencias (Emergencias) para tratar la insuficiencia respiratoria aguda en casos específicos, pero comunes en la práctica clínica.

La ventilación a presión positiva no invasiva (NIPPV) o Non-invasive positive pressure ventilation es el soporte ventilatorio aplicado a través de cánulas nasales, máscara facial total, nasal, nasal-oral u oral, sin necesidad de introducir un dispositivo en la vía aérea. Hay diferentes modos ventilatorios, entre ellos la BIPAP o CPAP, aunque técnicamente CPAP no es un modo en tanto el equipo no ejerce una acción ventilatoria más allá de la generación de presión positiva continua en la vía aérea, tal como su nombre lo indica.

Existen diversos modos de ventilación no invasiva pero la evidencia científica no diferencia entre ellos, ni siquiera entre CPAP y Bi-Level, y todas las conclusiones y datos son referidos a VMNI o NIPPV de manera genérica.

Definiciones

CPAP: Es la aplicación de presión positiva continua en la vía aérea (Continuous Positive Airway Pressure), es decir, durante todo el ciclo respiratorio, que es llevado a cabo por el paciente, con el fin de reclutar alvéolos colapsos para aumentar la capacidad residual, disminuir el trabajo respiratorio y mejorar la oxigenación.

PEEP/EPAP: Es la presión positiva respiratoria final o al final de la espiración, que corresponde a la presión alveolar inmediatamente antes de que comience la fase inspiratoria del ciclo. La aplicación de PEEP/EPAP hace que el trabajo para iniciar cada ciclo mediante la inspiración sea menor. También ayuda a disminuir el colapso alveolar y las atelectasias.

Bi-Level: Es un modo ventilatorio en el que el ciclo ocurre entre una presión positiva inspiratoria en vía aérea (IPAP) y una presión positiva espiratoria final (EPAP/PEEP). Aquí entonces hay un soporte ventilatorio y aumento de la oxigenación.

Pressure Support: Soporte de presión. Es la diferencia entre IPAP y EPAP. Es una presión diferencial entre el nivel de presión inspiratoria y el nivel de presión al final de la espiración. Los ventiladores en general permiten fijar el modo BIPAP o bi-Level, o el Pressure Support en modos diferenciados o separados. El fondo es el mismo: IPAP, EPAP y PS (diferencia de presión). Pressure Support permite mejorar el volumen corriente o Volume Tidal.

Entonces BIPAP o Bi-Level permite actuar sobre el Vt o volumen corriente, el trabajo respiratorio y la oxigenación; CPAP sobre la oxigenación y el trabajo respiratorio. Esto es importante a la hora de decidir a quienes aplicar qué modo ventilatorio de VMNI, e incluso si es aplicable.

Fotograma-29-08-2016-01-24-45 (1).jpg

En la próxima entrada: ¿Quién necesita VMNI?

 

Episode 61.0 – Hypokalemia

podcast_61.0

This week we discuss the presentation and treatment of hypokalemia.

Take Home Points

  1. Hypokalemia has a wide variety of presentations ranging from generalized weakness, to paralysis, to cardiac arrhythmia or cardiac arrest.
  2. When you discover hypokalemia, be sure to check and EKG. Think about underlying causes of hypokalemia, because it is rarely a solo event.
  3. Treat with oral potassium supplementation of 40-60 orally every 4-6 hours for mild hypokalemia and 10-20 mEq/hour IV for severe or symptomatic hypokalemia.

Additional Reading

LITFL: Hypokalemia

LITFL: Hypokalemic Periodic Paralysis

Core EM: Hypokalemia

This week we discuss the presentation and treatment of hypokalemia.

Read More

Pregnancy ultrasound with the linear probe……WHAT?!?  Calm down and just listen.  #FOAMED

Oh, so close!  You see what looks like a gestational sac, and you feel like you can kind of imagine a yolk sac, but you just can’t make out that yolk sac. So, I guess it’s time for a transvaginal ultrasound, right?  Wrong!  Well, maybe.  You’ll probably need a transvaginal ultrasound, but not in everyone.  Before you pull that trigger, take a look transabdominally with the linear probe and you can avoid the transvaginal ultrasound in about 1/3rd of those cases. Watch here to find out how.
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