When life gives you LEMONs- Predicting difficult intubations in the ED

Article:

Reed MJ, Dunn MJ, & McKeown DW. Can an Airway Assessment Score Predict Difficulty at Intubation in the Emergency Department? Emerg Med J 2005; 22(2): 99 – 102.

Main Points:

  1. Rapid assessment tools can be helpful in predicting difficult intubations in the emergency department
  1. Use of SOME elements of the LEMON (look, evaluate, mallampati, obstruction, neck mobility) approach to airway assessment MAY be helpful in predicting likely laryngoscopic view (Cormack- Lehane grade) as a proxy for difficulty of intubation. The following are more likely found in patients with high grade views (2-4).
  • large incisors
  • reduced inter-incisor distance
  • reduced thyroid to floor of mouth distance

Background:

Predicting difficult intubations is not always straightforward. At the time of publication (2005), little validation of rapid assessment of possible difficult intubations in the ED. The authors test the use of the LEMON approach as a predictor of difficult intubations, and suggest key parts of the assessment that are most helpful.

 

Details:

The study was a prospective, observational trial conducted in the UK at a teaching Emergency Department between June 2002 and September 2003.   156/177 patients intubated over that time were included in the study. Those excluded were done so because no LEMON assessment was completed. Of the remaining included, a modified LEMON assessment was completed including: LOOK- facial trauma, large incisors, large tongue, facial hair; EVALUATE- inter-incisor distance (<3 fingers), hyoid-mental distance (<3 fingers), thyroid to floor of mouth distance (<2 fingers); MALLAMPATI 1/2 versus 3/4 ; OBSTRUCTION; and NECK MOBILITY- cervical collar versus no collar. One point was assigned for each criterion that was found. If a criterion was though unassessable, a score of zero was given. Outcome was determined by laryngoscopic view as outlined by the Cormack-Lehane grading scale; grade 1 was considered an easy intubation, grades 2-4 were considered difficult. ALL intubations were successful, and if multiple attempts were used, the grade of view on the successful attempt was used. Authors used Fischer’s exact test to compare the categorical variables, Student’s t test to compare continuous data. Spearman rank sum test was used to assess correlation between categorical variables.

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A clot in the lungs! And you are too nonspecific! You give D-dimers a bad name.

This is part of a recurring series examining landmark articles in Emergency Medicine, in the style of ALiEM’s 52 Articles.

Discussing: Wells, P., Anderson, D., & Rodger, M. (2001). Excluding Pulmonary Embolism at the Bedside Without Diagnostic Imaging: Management of Patients With Suspected Pulmonary Embolism Presenting To the Emergency Department By Using a Simple Clinical Model and D-dimer. Annals of Internal Medicine, 135(2), 98–107.

 

Main Points: Wells’ scoring system for risk of PE, when combined with a negative D-dimer, is useful to rule out patients unlikely to have significant illness from PE within the next 90 days.

  1. This scoring system combined with D-dimer measurement does not accurately identify patients who are likely to have PE at this encounter or subsequent encounters.

 

Background: Pulmonary embolism (PE) is a common disease (CDC estimates for 2015 are up to 1 in 1,000 persons) and half of patients with PE are not properly diagnosed in the ED due in part to non-diagnostic results of a V/Q scan. This reality presents a diagnostic challenge to ED physicians who are determining which patients should receive a CT scan, and risk stratifying patients for a PE. This study sought to validate the Wells’ Criteria  for determining pretest probability of pulmonary embolism in the ED population.

 

Methods: This was a prospective cohort study of consecutively recruited ED patients at four medical centers in Canada from September 1998 to September 1999. The authors excluded patients with upper extremity deep vein thromboses (DVTs) as the likely source of PE, patients who were symptom free for three days prior to presentation, those who had been on anticoagulation for 24-hours prior to presentation, patients who were not expected to live more than three months after presentation, or anyone who could not get IV contrast, was pregnant, lived too far away for follow-up, or was younger than 18 years of age.

Included patients were risk-stratified by ED physicians based upon the follow criteria:

  1. Objective clinical signs and symptoms of DVT (swelling and pain over deep vein region, 3 points)
  2. HR > 100 BPM (1.5 points)
  3. Immobilization (bed rest, except for using the bathroom, for more than 3 days) or surgery within the past fours weeks (1.5 points)
  4. Previously diagnosed DVT or PE (1.5 points)
  5. Hemoptysis (1 point)
  6. Malignancy (current diagnosis, diagnosis within the last six months, current chemo or palliative care. 1 point)
  7. PE as the most likely, or equally likely diagnosis (based upon clinical gestalt, 3 points)

A patient with a total score of less than 2 was considered low risk, 2-6 was moderate risk, more than 6 was considered high risk. Each patient’s D-dimer level was then measured, and he or she was evaluated for PE based upon an algorithm that can be found in the article (Figure 1). The evaluation included V/Q scan, bilateral lower extremity ultrasound, and/or pulmonary angiogram based upon risk stratification, D-dimer level, and imaging results.

All participants followed-up at 90 days via phone or in-person to recount events that occurred since the initial encounter.

 

Results: The data from 930 patients (average age of 50.5 years) were analysed, with prevalence of PE at 90 days found to be 9.5%. PE was diagnosed in 40.6% of patients with high pretest probability, 16.2% in moderate pretest probability group, and 1.3% in the low pretest probability group. These results indicate the negative predictive value of the d-dimer to be 97.3% in the entire cohort, and 99.5% in the low probability group, 93.9% in the moderate probability group, and 88.5% in the high probability group. In this study the Wells’ criteria/D-dimer model demonstrated poor positive predictive value because it only found PE in 16.9% of patients that were indicated to have any level of image testing (V/Q scan, DVT ultrasound, or angiography based upon the algorithm above). Seventeen patients (0.6%) who had PE and DVT ruled out based upon this model had suspicious events for PE or DVT on follow-up, with five of those events confirmed to be a PE or DVT.

 

While 17 people died during this study, none of the patients who had PE ruled out by the model died from a PE within 90 days of their initial presentation to the ED.

 

Points to consider:

  • Ten percent of the patients enrolled in the study did not have the protocol followed exactly, which limits the external validity of the study.
  • There were no imaging tests performed on the low-risk patients, so we cannot accurately say that they did not have a PE, only that they had a low risk of clinically meaningful event over the subsequent 90 days (either diagnosed PE or death).
  • This study used the more specific SimpliRED D-dimer rather than the traditional immunoassay linked D-dimer thus decreasing the sensitivity of this model compared to the traditional D-dimer assay.

 

Further Study: Only 17% of patients who ruled in for testing were found to have a PE, so there is clearly room to increase the positive predictive value of this tool. Fortunately there have been a number of subsequent studies that have tested methods to increase the specificity of this model, and we have included citations to a few of those studies in the related articles below.

 

Level of Evidence:

ACEP Clinical Policy Grading Level IIB

 

Surprises:

  1. V/Q scan was the test that was used to determine presence or absence of PE, and the current standard is CTPA as it is a more reliable test.
  2. SimpliRED D-dimer was used in this study, not the traditional immunoassay linked D-dimer, which may affect how this criteria applies to patients your department.
  3. Low risk patients got no V/Q scan, so we cannot be sure of actual incidence of PE in these patients, though they were followed up on so we do know there are few risks to not testing these patients for PE.

 

Relevant articles:

Simplification of the revised Geneva score for assessing clinical probability of pulmonary embolism: http://archinte.jamanetwork.com/article.aspx?articleid=414578

 

Performance of 4 Clinical Decision Rules in the Diagnostic Management of Acute Pulmonary Embolism: A Prospective Cohort Study: http://annals.org/article.aspx?articleid=746965

 

Diagnostic accuracy of D-dimer assay in suspected pulmonary embolism patients: http://ac.els-cdn.com/S0422763813003166/1-s2.0-S0422763813003166-main.pdf?_tid=4ce51214-6b05-11e5-9303-00000aacb35d&acdnat=1444010801_80598bd9006f6434671a010c02d76997

 

Source Articles:

Wells, P., Anderson, D., & Rodger, M. (2001). Bedside Without Diagnostic Imaging: Management of Patients With Suspected Pulmonary Embolism Presenting To the Emergency Department By Using a Simple Clinical. Annals of Internal Medicine, 135(2), 98–107.

ACEP Clinical Policy Committee. (2003). Clinical Policy: Critical Issues in the Evaluation and Management of Adult Patients Presenting With Suspected Pulmonary Embolism. Annals of Emergency Medicine, 41(2), 257–270.

Anderson, D. R., & Barnes, D. C. (2009). Computerized tomographic pulmonary angiography versus ventilation perfusion lung scanning for the diagnosis of pulmonary embolism. Current Opinion in Pulmonary Medicine, 15(5), 425–429.

Slow, big breaths ain’t what the doctor’s ordering

This is part of a recurring series examining landmark articles in Emergency Medicine, in the style of ALiEM’s 52 Articles.

Discussing:  The Acute Respiratory Distress Syndrome Network. “Ventilation with Lower Tidal Volumes as Compared with Traditional Tidal Volumes for Acute Lung Injury and the Acute Respiratory Distress Syndrome” N Eng J Med, May 2000; 342(18): 1301-08

Main Points

This landmark study was stopped early! It determined that in patients with acute respiratory distress syndrome (ARDS) who are treated with lower tidal volumes than those treated with traditional volumes:

  1. Mortality is decreased by 31.0% vs 39.8% (P = 0.007)
  2. Breathing without assistance increases by the 28th day by 65.7% vs 55.0%
  3. The number of ventilator free days increases by 12 ± 11 vs 10 ± 11. days (P = 0.007)

ARDS is a life-threatening condition for which the mortality was quoted in this study to be approximately 40 to 50 percent.  (To be blunt, any study that uses death as its primary outcome is looking at a very ill cohort.) 

Much has been learned about the pathophysiology of ARDS, but very little headway has been made in the treatment of it. The authors of this study looked at adjusting ventilatory tidal volume and plateau pressures for treatment for ARDS.  The authors also measured plasma interleukin-6 in the first 204 of 234 patients as a measure of lung inflammation. The results were significantly in favor of the lower tidal volume group.  

Details

This was a prospective, randomized controlled study that assorted 861 patients into two groups.  Patients were randomly selected to be treated with tradition ventilation treatments, initial tidal volumes of 12 ml per kilogram of predicted body weight and a plateau pressure of 50 cm of water or less, versus lower tidal volumes of 6 ml per kilogram of predicted body weight and a plateau pressure of 30 cm of water or less.

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Think pulmonary embolism and you may find it….

This is part of a recurring series examining landmark articles in Emergency Medicine, in the style of ALiEM’s 52 Articles.

Discussing:  “Prospective Multicenter Evaluation of the Pulmonary Embolism Rule-out Criteria.” (J Thromb Haemost 2008;  Kline JA et al.)

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boringem.org

Main Points

  1. Pulmonary Embolism Rule-out Criteria (PERC):
  • age < 50,
  • heart rate < 100 bpm
  • SaO2 < 95%
  • no hemoptysis
  • no estrogen use
  • no surgery/trauma requiring hospitalization within 4 weeks
  • no unilateral leg swelling
  • no prior venous thromboembolism

2) PERC in combination with clinical gestalt for low suspicion of pulmonary embolism (PE) reduces the probability of venous thromboembolism (VTE) to below 2%.

Background

Chest pain is the most common emergency department chief complaint.  The differential diagnosis is vast, and includes high acuity conditions (such as myocardial infarction, aortic aneurysm, and pulmonary embolism) down to low acuity conditions (such as reflux, muscle strain and anxiety.)  Pulmonary embolism is one of the high risk clinical conditions that should not be missed. However, determining which patient should or should not be worked up for pulmonary embolism can be difficult.   Continue reading

Of course the patient’s blue…that’s why I’m intubating.

 

Discussing: “Preoxygenation, Reoxygenation, and Delayed Sequence Intubation in the Emergency Department” (Weingart SD, J Emerg Med. 2010 Apr 7)

Main Points:

  1. Patients requiring intubation should be classified by oxygenation saturation as low risk, high risk and apneic.  
  2. Reservoir face masks with oxygen set at the highest rate possible are the recommended sources of high FiO2 during preoxygenation.  
  3. All patients, if possible, should be intubated with the head-elevated position to increase safe apnea time.
  4. Consider using CPAP masks, noninvasive positive pressure ventilation or PEEP valves on a bag-valve mask in patients who cannot achieve oxygen saturations greater than 93%-95%
  5. Rocuronium may provide a longer duration of a safe apneic period in patients with a high risk of desaturation.
  6. A nasal cannula set at 15 L/minute is effective at providing oxygenation during the apneic period.

Background:

Intubation is a vital procedure to the Emergency Physician.  Yet there is more to it than just placing an endotracheal tube.  There is the setup, positioning, oxygenation, sedation, checking tube placement, and more.  On top of this, there is the underlying illness to consider.  The truth is, the majority of patients intubated in the Emergency Department (ED) are sick.  Something is very physiologically wrong, and they are not maintaining adequate oxygenation.  It becomes your job to do this for them.  The authors in this article did an extensive literature review on pre-intubation and peri-intubation techniques which reduce the risk of hypoxia in the adult patient requiring intubation in the ED.   Continue reading

Simple pneumothorax? Try a pigtail!

Why the 32 French?! It’s not 1970 anymore. Next time you’ve got a simple pneumothorax, consider the pigtail! Chana Rich and Kat Farmer will show you how:

For a more detailed, step by step process, see another great post by Dr. Jay Diamond:

http://blogs.brown.edu/emergency-medicine-residency/pigtail-catheter-placement-for-pneumothorax/

ED Ventilator Settings

Quality Control editors at work.

Quality Control editors at work.

All excited for intubation but forget to optimize the ventilatory settings?

Important for those that are not rapidly taken away to the ICU.

Ventilation
Tidal Volumes: low tidal volumes 6 ml/kg (ideal body weight) even without acute lung injury is even beneficial.  Study by Determann et al. 2010 Critical Care.  Looked at 150 patients, randomized trial of 10 vs 6 ml/kg.  Development of Acute lung injury in 13.5 in the 10 ml/kg group and 2.6 in the 6 ml/kg group.  Stopped early because of difference.
Respiratory Rate: Minute ventilation is RRxTV.  You want a MV of 5-6L/min in a normal patient, but if need to increase for metabolic derrangement may need much higher.  Permissive hypercapnea is okay in those with ARDS.  Caution in those with brain injury and severe metabolic acidosis.  Don’t go higher than RR of 35.  Keep ph>7.15, as done in ARDSnet. Continue reading