Ep-PAINE-nym

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Swan-Ganz Catheter

Other Known Aliasespulmonary artery catheter

Definitionintravenous catheter that is maneuvered through the right side of the heart into the pulmonary artery.

Clinical Significance This catheter can directly measure several important hemodynamic variables in critical illness:

  • right atrial pressures
  • right ventricular pressures
  • pulmonary artery pressures
  • left atrial filling pressures (wedge pressure)
  • cardiac output/cardiac index
  • systemic vascular resistance
  • pulmonary vascular resistance

It is “floated” through the right side of the heart using the flow of the blood to carry it into the pulmonary artery. This migration has a very characteristic pressure pattern to know where the catheter is in the vascular system.

HistoryNamed after two physicians from Cedars-Sinai Medical Center, Jeremy Swan (1922-2005), an Irish American cardiologist, and William Ganz (1919-2009), a Slovak American cardiologist. Dr. Swan received his medical doctorate from Castleknock College and went on to become faculty at the Mayo Clinic before joining the faculty at Cedars-Sinai Hospital in Los Angeles. Dr. Ganz attended Charles University School of Medicine in Prague in 1938, but was closed in 1940 after the Nazi occupation of Czechoslovakia. Being jewish, he was then sent to a Hungarian Nazi labor camp and was actually scheduled to be sent to Auschwitz in 19944 before his escape. After hiding and waiting out the war, Dr. Ganz returned and graduated from Charles University in 1947 at the top of his class. He practiced in communist Czechslovakia until 1966 when he secretly defected to the US with his wife and sons. His first and only position as a physician in the US was at Cedars-Sinai Hospital, where he met Dr. Swan who got the idea of the catheter from watching the wind play with the sails of boats in the marina. Dr. Ganz had already published research on the use of thermodilution as a way to measure cardiac output and in 1970, they published their landmark article in the NEJM. It should be noted that German surgeon Werner Forssmann first demonstrated the safety of this type of catheter, by doing it on himself in 1929.

References

  1. Firkin BG and Whitwirth JA.  Dictionary of Medical Eponyms. 2nd ed.  New York, NY; Parthenon Publishing Group. 1996.
  2. Bartolucci S, Forbis P.  Stedman’s Medical Eponyms.  2nd ed.  Baltimore, MD; LWW.  2005.
  3. Yee AJ, Pfiffner P. (2012).  Medical Eponyms (Version 1.4.2) [Mobile Application Software].  Retrieved http://itunes.apple.com.
  4. Whonamedit – dictionary of medical eponyms. http://www.whonamedit.com
  5. Up To Date. www.uptodate.com
  6. Swan HJ, Ganz W, Forrester J, Marcus H, Diamond G, Chonette D. Catheterization of the heart in man with use of a flow-directed balloon-tipped catheter. The New England journal of medicine. 1970; 283(9):447-51. [pubmed]
  7. FRONEK A, GANZ V. [Local thermodilution method of measuring minute volume and circulation rate in the peripheral vessels]. Ceskoslovenska fysiologie. 1959; 8(3):189. [pubmed]
  8. W. Forssmann. Die Sondierung des Rechten Herzens. Klinische Wochenschrift, Berlin, 1929, 8: 2085.

#53 – Ottawa Rules

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***LISTEN TO THE PODCAST HERE***

Background

  • These studies are conducted at the Ottawa Hospital Research Institute and University of Ottawa starting in 1992 and the main researcher behind these is Ian Stiell.
  • They are international recognized and have been validated multiple times to decrease unnecessary radiographic testing and decrease healthcare costs

Disclaimer for Using Clinical Decision Instruments

  • Your clinical judgement should ALWAYS trump using any CDI
    • Distracting injuries
    • Intoxication
    • Inability to fully examine
    • Gestalt

Ottawa Rules of the Foot and Ankle

  • The Numbers
    • Ankle xrays are the second most commonly ordered film in the ED
    • < 15% fracture incidence rate
  • The study
    • Published in 1992, validated in 1995
    • 7 months long
    • 750 patients
    • 21 EM physicians looking at 32 clinical variables
  • Variables
    • Lateral malleolus tenderness
    • Medial malleolus tenderness
    • Base of 5th metatarsal tenderness
    • Navicular tenderness
    • Inability to bear weight immediately and in the emergency department for four steps
      • Limping counts
  • Outcomes
    • Identified 100% of clinically significant fractures
    • Decreased ankle imaging 36% and foot imaging 21%
  • Clinical Pearls
    • Be sure to palpate the entire 6cm of the distal tibia and fibula
    • Do not confuse soft tissue tenderness for bony tenderness

Ottawa Rules of the Knee

  • The Numbers
    • >600,000 patients annually present to ED with knee complaints
    • 80% of these patients have radiography
      • Majority have soft tissue injuries
  • The study
    • Published in 1995, validated in 1996
    • 14 months long
    • 1,047 patients
    • 33 EM physicians looking at 23 clinical variables
  • Variables
    • > 55 years of age
    • Isolated patella tenderness
    • Fibular head tenderness
    • Inability to flex knee to 90o
    • Inability to bear weight immediately and in the emergency department for four steps
      • Limping counts
  • Outcomes
    • Identified 100% of clinically significant fractures
    • Decreased knee imaging by 28%
  • Clinical Pearls
    • Use only for injuries < 7 days old
    • Patella tenderness only significant if an isolated finding

Ottawa Rules of the Cervical Spine

  • The Numbers
    • C-spine series is the most common radiograph for trauma
    • > 1,000,000 series performed annually
      • > 98% being negative
  • The study
    • Published in 2001, validated in 2003
    • 3 years long
    • 8,924 patients
      • Blunt trauma only
      • Stable vital signs
      • GCS of 15
    • Looked at 20 clinical variables
  • Variables
    • ≥ 65 years of age
    • Dangerous mechanism
      • Fall from height > 3 feet or 5 stairs
      • Axial load
      • High speed (> 60mph) MVC, rollover, or ejection
      • Motorized recreational vehicle accident
      • Pedestrian or cyclist versus automobile accident
    • Immediate pain
    • Non-ambulatory at scene
    • Inability to rotate neck
  • Outcomes
    • Identified 100% of clinically significant fractures
    • Decreased cervical spine imaging by 42%
  • Clinical Pearls
    • Not applicable if:
      • Non-trauma
      • GCS < 15
      • Unstable vital signs
      • Age < 16 years of age
      • Acute paralysis
      • Known vertebral disease
      • Previous cervical spine history

Canadian Head CT Rule

  • The Numbers
    • > 2 million ED visits annually for minor head trauma
      • Average cost of CT scan ~ $1200
        • Average annual cost > $900 million
    • < 3% incidence of clinically significant intracranial injuries
  • The study
    • Published in 2001, validated in 2005
    • 3 years long
    • 3,121 patients
      • Blunt trauma only
      • GCS between 13-15
      • < 24 hours on presentations
      • Must have loss of consciousness, altered mental status, or amnesia
    • Across 10 academic hospitals
    • Looked at 22 clinical variables
  • Variables
    • High risk variables (need for neurosurgical intervention)
      • GCS < 15 at 2 hour after injury
      • Suspected open/depressed skull fracture
      • Signs of basilar skull fracture
      • ≥ 2 episodes of vomiting
      • ≥ 65 years of age
  • Variables
    • Medium risk variables (predicting clinically important brain injury)
      • Retrograde amnesia ≥ 30 minutes
      • Dangerous mechanism
        • Pedestrian versus auto
        • MVC ejection
        • Fall from height > 3 feet or > 5 stairs
  • Outcomes
    • Identified 100% of high risk patients and 98.4% of medium risk patients
    • Reduction in head CT by > 30%
  • Clinical Pearls
    • Not applicable if:
      • < 16 years of age
      • On anticoagulation
      • Witnessed seizure post-injury
      • Unstable vital signs
      • Acute focal neurologic deficit

Ottawa Rules for Subarachnoid Hemorrhage

  • The Numbers
    • 2% of all ED visits are for headache
    • 2% incidence of subarachnoid hemorrhage
    • 51% mortality if missed
  • The study
    • Published in 2010, validated in 2013
    • 5 years long
    • 1999 patients
      • Non-traumatic
      • < 1 hour from onset
      • GCS 15
    • Looked at 13 clinical variables
  • Original Study
  • Validation Study
  • Variables
    • ≥ 40 years of age
    • Neck pain
    • Witnessed loss of consciousness
    • Exertional onset
    • Added on validation study:
      • Thunderclap headache
      • Limited neck flexion on exam
  • Outcomes
    • Identified 100% of subarachnoid hemorrhages
    • 100% negative predictive value
    • Decreased head CT or lumbar puncture rates by 20%

The Cottage Physician (1893)

References

  1. The Ottawa Rules. [online] Available at: http://www.theottawarules.ca/ [Accessed 10 Nov. 2019].
  2. Stiell IG, Greenberg GH, McKnight RD, Nair RC, McDowell I, Worthington JR. A study to develop clinical decision rules for the use of radiography in acute ankle injuries. Annals of emergency medicine. 1992; 21(4):384-90. [pubmed]
  3. Stiell IG, Greenberg GH, McKnight RD, et al. Decision rules for the use of radiography in acute ankle injuries. Refinement and prospective validation. JAMA. 1993; 269(9):1127-32. [pubmed]
  4. Stiell IG, McKnight RD, Greenberg GH, et al. Implementation of the Ottawa ankle rules. JAMA. 1994; 271(11):827-32. [pubmed]
  5. Stiell I, Wells G, Laupacis A, et al. Multicentre trial to introduce the Ottawa ankle rules for use of radiography in acute ankle injuries. Multicentre Ankle Rule Study Group. BMJ (Clinical research ed.). 1995; 311(7005):594-7. [pubmed]
  6. Stiell IG, Greenberg GH, Wells GA, et al. Derivation of a decision rule for the use of radiography in acute knee injuries. Annals of emergency medicine. 1995; 26(4):405-13. [pubmed]
  7. Stiell IG, Greenberg GH, Wells GA, et al. Prospective validation of a decision rule for the use of radiography in acute knee injuries. JAMA. 1996; 275(8):611-5. [pubmed]
  8. Stiell IG, Wells GA, Hoag RH, et al. Implementation of the Ottawa Knee Rule for the use of radiography in acute knee injuries. JAMA. 1997; 278(23):2075-9. [pubmed]
  9. Stiell IG, Wells GA, Vandemheen KL, et al. The Canadian C-spine rule for radiography in alert and stable trauma patients. JAMA. 2001; 286(15):1841-8. [pubmed]
  10. Stiell IG, Clement CM, McKnight RD, et al. The Canadian C-spine rule versus the NEXUS low-risk criteria in patients with trauma. The New England journal of medicine. 2003; 349(26):2510-8. [pubmed]
  11. Stiell IG, Wells GA, Vandemheen K, et al. The Canadian CT Head Rule for patients with minor head injury. Lancet (London, England). 2001; 357(9266):1391-6. [pubmed]
  12. Stiell IG, Clement CM, Rowe BH, et al. Comparison of the Canadian CT Head Rule and the New Orleans Criteria in patients with minor head injury. JAMA. 2005; 294(12):1511-8. [pubmed]
  13. Perry JJ, Stiell IG, Sivilotti ML, et al. High risk clinical characteristics for subarachnoid haemorrhage in patients with acute headache: prospective cohort study. BMJ (Clinical research ed.). 2010; 341:c5204. [pubmed]
  14. Perry JJ, Stiell IG, Sivilotti ML, et al. Clinical decision rules to rule out subarachnoid hemorrhage for acute headache. JAMA. 2013; 310(12):1248-55. [pubmed]

PAINE #PANCE Pearl – Emergency Medicine

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Question

You are winding down your 8a-8p shift in the fast track section of your emergency department when a 19-month girl is brought in my her father after falling out of a shopping cart at Home Depot at around 7:15pm. Her father saw her fall and couldn’t catch her before she hit the ground. She immediately began crying and her father denies any loss of consciousness or vomiting. She cried for approximately 30 minutes and her father started to worry that she is now “sleepy”. Other than the sleepiness, her behavior has been normal per her father.

Physical examination does not reveal any periorbital or posterior auricular ecchymosis and there is no hemotympanum. There are no other abrasions or ecchymosis present and her eyes are open and she can track your movements. There is no palpable depressions or crepitus on the skull. She is moving all extremities, reaching for her toys, and saying “Daddy” towards her father.

  1. Does this child need further imaging?
  2. What studies are available to help make this decision?

Answer

This simple and most evidence-based answer is no…..not according to PECARN. The Pediatric Emergency Care Applied Research Network study of 2009 evaluated over 40,000 children of various ages to determine high yield clinical findings that best predicted clinically important traumatic brain injury on CT scan. The original negative predictive value in children under 2 with the following findings was 100%:

  • Normal mental status
  • No scalp hematoma (except frontal)
  • No loss of consciousness, or < 5 seconds
  • Non-severe mechanism of injury
  • No palpable skull fractures
  • Acting normal per parents

In our patient, you could make the argument to observe in the emergency department as she is “sleepy”, but it is close to bedtime and I would use shared decision making with the father to decide on discharge with good instructions vs observation for 4-6 hours.

References

  1. Kuppermann N, Holmes JF, Dayan PS, et al. Identification of children at very low risk of clinically-important brain injuries after head trauma: a prospective cohort study. Lancet (London, England). 2009; 374(9696):1160-70. [pubmed]
  2. Schonfeld D, Bressan S, Da Dalt L, Henien MN, Winnett JA, Nigrovic LE. Pediatric Emergency Care Applied Research Network head injury clinical prediction rules are reliable in practice. Archives of disease in childhood. 2014; 99(5):427-31. [pubmed]
  3. Babl FE, Lyttle MD, Bressan S, et al. A prospective observational study to assess the diagnostic accuracy of clinical decision rules for children presenting to emergency departments after head injuries (protocol): the Australasian Paediatric Head Injury Rules Study (APHIRST). BMC pediatrics. 2014; 14:148. [pubmed]

Ep-PAINE-nym

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Osborn Wave

Other Known AliasesJ-wave, camel-hump, hypothermic hump

Definitionpositive deflection occurring at the junction between the QRS complex and ST segment, commonly referred to as the J point

Clinical Significance Osborn waves are classically seen in hypothermia with a core body temperature < 32°C (90°F), but also can be present in severe hypercalcemia, traumatic brain injury, and pericarditis. It is usually most prominent in the precordial leads.

NEJM. 2015

HistoryNamed after John J. Osborn (1917-2014), who was an American intensivist, and received his medical doctorate from Johns Hopkins University in 1943. He completed a nine-month residency in pediatrics before serving as an Army medical officer in World War II in the Pacific Theatre. He first published his preliminary animal research on hypothermia in 1943 before his military service, and picked it back up after returning stateside. He practiced from New York University to Stanford University and was a founding member of the Society of Critical Care Medicine. His research fostered the initial golden age of intensive care medicine and he worked on heart-lung machine designs, as well as hemodynamic monitoring devices. His eponymous paper was published in 1953 entitled “Experimental hypothermia; respiratory and blood pH changes in relation to cardiac function”

References

  1. Firkin BG and Whitwirth JA.  Dictionary of Medical Eponyms. 2nd ed.  New York, NY; Parthenon Publishing Group. 1996.
  2. Bartolucci S, Forbis P.  Stedman’s Medical Eponyms.  2nd ed.  Baltimore, MD; LWW.  2005.
  3. Yee AJ, Pfiffner P. (2012).  Medical Eponyms (Version 1.4.2) [Mobile Application Software].  Retrieved http://itunes.apple.com.
  4. Whonamedit – dictionary of medical eponyms. http://www.whonamedit.com
  5. Up To Date. www.uptodate.com
  6. OSBORN JJ. Experimental hypothermia; respiratory and blood pH changes in relation to cardiac function. The American journal of physiology. 1953; 175(3):389-98. [pubmed]
  7. Partin C. Profiles in Cardiology: John J Osborn. Clin Cardiol. 1998;21;66-68 [link]

PAINE #PANCE Pearl – Emergency Medicine

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Question

You are winding down your 8a-8p shift in the fast track section of your emergency department when a 19-month girl is brought in my her father after falling out of a shopping cart at Home Depot at around 7:15pm. Her father saw her fall and couldn’t catch her before she hit the ground. She immediately began crying and her father denies any loss of consciousness or vomiting. She cried for approximately 30 minutes and her father started to worry that she is now “sleepy”. Other than the sleepiness, her behavior has been normal per her father.

Physical examination does not reveal any periorbital or posterior auricular ecchymosis and there is no hemotympanum. There are no other abrasions or ecchymosis present and her eyes are open and she can track your movements. There is no palpable depressions or crepitus on the skull. She is moving all extremities, reaching for her toys, and saying “Daddy” towards her father.

  1. Does this child need further imaging?
  2. What studies are available to help make this decision?

Ep-PAINE-nym

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Ottawa Rules

Other Known Aliasesnone

DefinitionSet of clinical decision instruments to help predict pretest probability in various injuries and need for further radiographical studies

Clinical Significance There are four Ottawa Rules clinical decision instruments that are currently used:

  • Knee
  • Foot and Ankle
  • Cervical Spine
  • Head CT in mild head injury

HistoryNamed after The Ottawa Hospital Research Institute and the University of Ottawa over series of publications from 1992-2001. These publications have been validated numerous times and shown to decrease health care costs, unnecessary radiographic studies, and decrease throughput time in the emergency department. The brain behind these studies is Ian Stiell, a Canadian physician researcher who received his medical doctorate from the University of Ontario and completed his residency at McGill University. With over 370 publications to his name, he is a powerhouse in the realm of emergency medicine research.

References

  1. Firkin BG and Whitwirth JA.  Dictionary of Medical Eponyms. 2nd ed.  New York, NY; Parthenon Publishing Group. 1996.
  2. Bartolucci S, Forbis P.  Stedman’s Medical Eponyms.  2nd ed.  Baltimore, MD; LWW.  2005.
  3. Yee AJ, Pfiffner P. (2012).  Medical Eponyms (Version 1.4.2) [Mobile Application Software].  Retrieved http://itunes.apple.com.
  4. Whonamedit – dictionary of medical eponyms. http://www.whonamedit.com
  5. Up To Date. www.uptodate.com
  6. Stiell IG, Wells GA, Vandemheen KL, et al. The Canadian C-spine rule for radiography in alert and stable trauma patients. JAMA. 2001; 286(15):1841-8. [pubmed]
  7. Stiell IG, Greenberg GH, Wells GA, et al. Derivation of a decision rule for the use of radiography in acute knee injuries. Annals of emergency medicine. 1995; 26(4):405-13. [pubmed]
  8. Stiell IG, Greenberg GH, McKnight RD, Nair RC, McDowell I, Worthington JR. A study to develop clinical decision rules for the use of radiography in acute ankle injuries. Annals of emergency medicine. 1992; 21(4):384-90. [pubmed]