Cardiogenic shock: Difference between revisions

 
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==Background==
==Background==
*Leading cause of death in pts w/ MI who reach the hospital alive
*Leading cause of death in patients with [[ACS]] who reach the hospital alive


==Work-Up==
===Etiologies===
*Labs
*[[Myocardial infarction]]
**Troponin
**Lactate
**CBC
**Chem
**BNP
***<100 may rule-out cardiogenic shock
*ECG
*CXR
*TTE
 
==Etiology==
*Myocardial infarction
**Pump failure
**Pump failure
**Mechanical complications
**Mechanical complications
**Acute MR (papillary muscle rupture)
**Acute [[mitral regurgitation]] (papillary muscle rupture)
**VSD
**[[VSD]]
**Free-wall rupture
**[[cardiac rupture|Free-wall rupture]]
*RV infarction
*RV infarction
*Decreased forward flow
*Decreased forward flow
**Sepsis
**[[Sepsis]]
**Rate-related
**Rate-related
***Bradycardia
***[[Bradycardia]]
***Tachycardia
***[[Tachycardia]]
**Myocarditis
**[[Myocarditis]]
**Myocardial contusion
**[[Myocardial contusion]]
**Cardiomyopathy
**[[Cardiomyopathy]]
*Mechanical obstruction to forward flow
*Mechanical obstruction to forward flow
**AS
**[[Aortic stenosis]]
**HOCM
**[[HOCM]]
**Mitral stenosis
**[[Mitral stenosis]]
**Pericardial  
**[[pericardial effusion|Pericardial]]
*LV regurgitation
*LV regurgitation
**Chordal rupture
**Chordal rupture
**Aortic insufficiency
**[[Aortic Insufficiency]]
*Toxic/metabolic
**Severe [[acidosis]], severe hypoxemia
 
==Clinical Features==
===Physical Exam===
*Assess for signs of [[CHF]]
**elevated JVD, pulmonary edema, S3
*Assess for [[valvular disease]] ([[mitral regurgitation]], critical [[aortic stenosis]], or [[aortic regurgitation]])
*Assess for end-organ hypoperfusion
**cool/mottled extremities, weak pulses, [[altered mental status]], decreased UOP
*Assess for [[pulsus paradoxus]] ([[cardiac tamponade]])
 
==Differential Diagnosis==
{{Shock DDX}}


==DDX==
==Evaluation==
*MI
===Workup===
*PE
*Labs
*COPD exacerbation
**[[Troponin]]
*Peri/myocarditis
**Lactate
*Aortic dissection
**CBC
*Pericardial tamponade
***WBC elevated with a left shift
*Acute valvular insufficiency
**Chem
*Sepsis
**LFTs
*Hemorrhage
***elevated due to liver hypoperfusion
*Toxins/drugs of abuse
**[[ABG]]
***[[anion gap acidosis]]
**[[BNP]]
*[[ECG]]
*[[CXR]]
*[[Echocardiography|TTE]]


==Treatment==
{{BNP value}}
*General
**Intubation
***Decreases O2 demand BUT may worsen preload
*Coronary perfusion
#Small Fluid challenge
#Increase inotropy
***Titrate to CO (e.g. warm extremities)
***Dobutamine or Milrinone - if
****Use milrinone if pt is on BB
***CaCl 1gm
****Give if pt is hypocalcemic
#Achieve MAP >65
==Pressors<ref>Charles McKay MD, Harbor-UCLA Medical Center</ref>==


{| class="wikitable"
==Management==
|-
===General===
! Pressor !! Initial Dose !! Max Dose !! Cardiac Effect !! BP Effect !! Arrhythmias !! Special Notes
''Aim for MAP >65''
|-
*Consider etiologies (see above) and treat specific one, if present
| Dobutamine || 2.5mcg/kg/min || 10-40 mcg/kg/min || mainly inotrope (ß1) || alpha effect minimal || Some HR(ß1) increase. Also Increase SA and AV node fx || Debut Research 1979<ref>Edmund H. Sonnenblick, M.D., William H. Frishman, M.D., and Thierry H. LeJemtel, M.D. Dobutamine: A New Synthetic Cardioactive Sympathetic Amine</ref>
*Consider small fluid challenge (250-500cc normal saline IV) or fluid removal, depending on estimation of patient's point on Starling curve
|-
*Increase inotropy
| Dopamine || Example || Example || Example || Example || Example || Example
**[[Dobutamine]] +/- [[norepinephrine]] '''OR''' [[dopamine]]
|-
***[[Dobutamine]] may initially drop pressures, so may need to use second agent to maintain BP
| Norepinephrine || Example || Example || Example || Example || Example || Example
**Consider [[milrinone]] or [[beta-blocker toxicity|beta-blocker reversal]] if patient is on a [[beta-blocker]]
|-
**Consider [[calcium chloride]] 1 g if hypocalcemic or normocalcemic through good PIV or central line
| Milrinone || 50mcg/kg x 10 min || Example || Example || Example || Example || Example
*Consider [[transfusion]] if hemoglobin < 10 (be aware of added fluid)
|-
*Consider [[intubation]]
| Phenylephrine || 100-180mcg/min then 40-60mcg/min || Example || Example || Example || Example || Example
**Decreases O2 demand BUT may worsen preload
|-
| Vasopressin || Fixed Dose || Example || Example || Example || Example || Example
|}


===Specific Situations===
====[[Mitral Regurgitation]]====
''Increase forward flow''
*[[Dobutamine]] (contractility) + [[nitroprusside]] (afterload reduction)


====[[ACS]]====
*PCI or [[thrombolysis]]


====[[Aortic stenosis]]====
''Decrease afterload (with extreme caution in very small, carefully-titrated doses)''
*Agents:
**[[Nitroprusside]]
**[[Dobutamine]]
**[[Hydralazine]]
*Do not give preload reducers such as [[nitro]]
*Patients are flow dependent over stenotic value.  Flow proportional to degree of stenosis and afterload.


*Transfusion
====[[Toxins]]====
**Consider if Hb < 10
*[[Beta-Blocker Toxicity]]
*Specific
*[[Calcium Channel Blocker Toxicity|Calcium Channel Blocker]]
**Mitral Regurg
*[[Digoxin Toxicity | Digoxin]]
***Need to increase forward flow
 
****Dobutamine (contractility)
{{Vasopressor table}}
****Nitroprusside (afterload reduction)
 
**MI
==Disposition==
***PCI or thrombolysis
*Admission, frequently to intensive or higher-level of care
**Tox
***Reverse CCB, BB, or dig toxicity


==See Also==
==See Also==
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*[[Ultrasound in Shock and Hypotension]]
*[[Ultrasound in Shock and Hypotension]]


==Source==
==External Links==
Tintinalli
*[http://emcrit.org/podcasts/cardiogenic-shock/ EMCrit Podcast – Cardiogenic Shock]
*[http://www.emdocs.net/diagnosing-cardiogenic-shock-in-the-ed/ emDocs - Diagnosing Cardiogenic Shock in the ED]
 
==Video==
{{#widget:YouTube|id=GTZ8Zh8jPxA}}


EMCrit Podcast 10
==References==
<references />


[[Category:Cards]]
[[Category:Cardiology]]
[[Category:Critical Care]]

Latest revision as of 12:03, 8 September 2021

Background

  • Leading cause of death in patients with ACS who reach the hospital alive

Etiologies

Clinical Features

Physical Exam

Differential Diagnosis

Shock

Evaluation

Workup

Brain natriuretic peptide (BNP)[1]

  • Measurement
    • <100 pg/mL: Negative for acute CHF (Sn 90%, NPV 89%)
    • 100-500 pg/mL: Indeterminate (Consider differential diagnosis and pre-test probability)
    • >500 pg/mL: Positive for acute CHF (Sp 87%, PPV 90%)
    • Combination of BNP with clinician judgment 94% sensitive 70% specific (compared to 49% sn and 96% spec clinical judgement alone) [2]

NT-proBNP[3][4][5]

  • <300 pg/mL → CHF unlikely
  • CHF likely in:
    • >450 pg/mL in age < 50 years old
    • >900 pg/mL in 50-75 years old
    • >1800 pg/mL in > 75 years old

Management

General

Aim for MAP >65

  • Consider etiologies (see above) and treat specific one, if present
  • Consider small fluid challenge (250-500cc normal saline IV) or fluid removal, depending on estimation of patient's point on Starling curve
  • Increase inotropy
  • Consider transfusion if hemoglobin < 10 (be aware of added fluid)
  • Consider intubation
    • Decreases O2 demand BUT may worsen preload

Specific Situations

Mitral Regurgitation

Increase forward flow

ACS

Aortic stenosis

Decrease afterload (with extreme caution in very small, carefully-titrated doses)

Toxins

Vasopressors

Pressor Initial Dose Max Dose Cardiac Effect BP Effect Arrhythmias Special Notes
Dobutamine 3-5 mcg/kg/min 5-15 mcg/kg/min (as high as 200) [6] Strong ß1 agonist +inotrope +chronotrope, Weak ß2 agonist +weak vasodilatation ) alpha effect minimal HR variable effects. indicated in decompensated systolic HF, Debut Research 1979[7] Isoproterenol has most Β2 vasodilatory and Β1 HR effects
Dopamine 2 mcg/kg/min 20-50 mcg/kg/min β1 and NorEpi release α effects if > 20mcg/kg/min Arrhythmogenic from β1 effects More adverse events when used in shock compared to Norepi[8]
Epinepherine 0.1-1 mcg/kg/min + inotropy, + chronotropy
Norepinephrine 0.2 mcg/kg/min 0.2-1.3 mcg/kg/min (5mcg/kg/min) [9] mild β1 direct effect β1 and strong α1,2 effects Less arrhythmias than Dopamine[8] First line for sepsis. Increases MAP with vasoconstriction, increases coronary perfusion pressure, little β2 effects.
Milrinone 50 mcg/kg x 10 min 0.375-75 mcg/kg/min Direct influx of Ca2+ channels Smooth muscle vasodilator PDE Inhibitor which increases Ca2+ uptake by sarcolemma. No venodilatory activity
Phenylephrine 100-180 mcg/min then 40-60 mcg/min 0.4-9 mcg/kg/min Alpha agonist Long half life
Vasopressin Fixed Dose 0.01 to 0.04 U/min unknown increases via ADH peptide should not be titrated due to ischemic effects
Methylene blue[10] IV bolus 2 mg/kg over 15 min 1-2 mg/kg/hour Possible increased inotropy, cardiac use of ATP Inhibits NO mediated peripheral vasodilation Don't use in G6PD deficiency, ARDS, pulmonary hypertension
Medication IV Dose (mcg/kg/min) Concentration
Norepinephrine (Levophed) 0.1-2 mcg/kg/min 8mg in 500mL D5W
Dopamine 2-20 mcg/kg/min 400mg in 250 D5W
Dobutamine 2-20 mcg/kg/min 250mg in 250 mg D5W
Epinephrine 0.1-1 mcg/kg/min 1mg in 250 D5W

Disposition

  • Admission, frequently to intensive or higher-level of care

See Also

External Links

Video

{{#widget:YouTube|id=GTZ8Zh8jPxA}}

References

  1. Maisel AS, Krishnaswamy P, Nowak RM, et al. Rapid measurement of B-type natriuretic peptide in the emergency diagnosis of heart failure. N Engl J Med. 2002;347(3):161-167. doi:10.1056/NEJMoa020233.
  2. McCullough et al. B-Type natriuretic peptide and clinical judgment in emergency diagnosis of heart failure: analysis from breathing not properly (BNP) multinational study. Circulation. 2002:DOI: 10.1161/01.CIR.0000025242.79963.4
  3. Januzzi JL, van Kimmenade R, Lainchbury J, et al. NT-proBNP testing for diagnosis and short-term prognosis in acute destabilized heart failure: an international pooled analysis of 1256 patients: the International Collaborative of NT-proBNP Study. Eur Heart J. 2006 Feb. 27(3):330-7.
  4. Kragelund C, Gronning B, Kober L, Hildebrandt P, Steffensen R. N-terminal pro-B-type natriuretic peptide and long-term mortality in stable coronary heart disease. N Engl J Med. 2005 Feb 17. 352(7):666-75.
  5. Moe GW, Howlett J, Januzzi JL, Zowall H,. N-terminal pro-B-type natriuretic peptide testing improves the management of patients with suspected acute heart failure: primary results of the Canadian prospective randomized multicenter IMPROVE-CHF study. Circulation. 2007 Jun 19. 115(24):3103-10.
  6. https://www.ncbi.nlm.nih.gov/pubmed/8449087
  7. Edmund H. Sonnenblick, M.D., William H. Frishman, M.D., and Thierry H. LeJemtel, M.D. Dobutamine: A New Synthetic Cardioactive Sympathetic Amine
  8. 8.0 8.1 De Backer Daniel et al. Comparison of Dopamine and Norepinephrine in the Treatment of Shock. NEJM 363(9). 779-789
  9. https://www.ncbi.nlm.nih.gov/pubmed/15542956
  10. Pasin L et al. Methylene blue as a vasopressor: a meta-analysis of randomised trials. Crit Care Resusc. 2013 Mar;15(1):42-8.