Shock (MEDCRAM aka "high yield")

Question 1

3 Major Types of Shock

Answer 1

1. Hypovolemic
2. Cardiogenic
3. Septic

Question 2

Describe Hypovolemic Shock

(i.e., what happens after volume drops)

Answer 2

Most blood is stored in venous system

(Can lose up to 40% of blood volume before BP decreases)

• Drop in BP = Compensatory increase in HR and EF
• SVR (resistance) increases; increased pressure = better blood delivery w/o adequate volume
• Cardiac Output DROPS (not enough filling)
• PCWP (LA pressure) and JVP (RA pressure) drop due to loss of volume
• Skin temperature drops due to shunting of blood to vital organs

Question 3

Increased HR/EF and SVR

+

Cool skin temperature

Answer 3

Hypovolemic Shock

Question 4

Decreased EF

+

Increased RA and LA Pressure (measured via JVP and PCWP, respectively)

+

Cool skin temperature

Answer 4

Cardiogenic Shock

Question 5

Describe Cardiogenic Shock

Answer 5

Decreased CO despite adequate volume (tissue hypoperfusion)

Usually from acute MI (HR can be too fast or too slow depending on type of heart problem)

• Decreased CO/EF leads to compensatory SVR increase
• RA and LA pressures increase as heart fails to pump correctly
• BP and skin temperature drop

Question 6

Increased CO and HR

+

Decreased RA/LA Pressure

+

Increased Skin Temperature

Answer 6

Septic Shock

Question 7

Describe Septic Shock

Answer 7

MOST COMMON

• Cytokines lead to dysregulation of vasocontriction (i.e., SVR decreased and blood is inappropriately shunted to non-vital organs)
• Vital organs extract more oxygen than they otherwise would need to (SvO2 drops below 70%–70 is normal)
• HR and CO increase to compensate
• EF and LA/RA pressure drop as a consequence of decreased BP
• Skin is getting more blood = increase in temperature

Question 8

How does our body compensate during septic shock?

Answer 8

RAS system (aldosterone)

+

ADH

Eventually, BP will drop despite compensation (i.e., become decompensated)

Question 9

What happens when oxygen cannot reach tissues?

Answer 9

Cannot be used as final electron acceptor to make ATP

Without ATP, cells die

Question 10

Tx of Cardiogenic Shock

Answer 10

Diagnosis: EKG, Echo, CXR

ABC Support then fix cause

Digoxin when EF < 40%

Dobutamine (pure β stimulation)

Question 11

What do you have to be mindful of when giving dobutamine?

Answer 11

Drop in BP (β receptors in the periphery cause vasodilation)

Question 12

Tx of Septic Shock

Answer 12

EGDT (Early Goald Directed Therapy)

All Tx must occur within 6 hours

1. Abx within 1 hour
2. Central Line (want CVP between 8 and 12)
   * Correct with normal Saline*
3. Vasopressors through central line (want MAP > 65)
   * DA or NE*
4. If SvO2 remains below 70% check Hgb
   * Hgb < 10 = blood transfusion*
   * Hgb > 10 = correct CO with dobutamine*

Question 13

Labs show lactic acidosis

Person already suspected of shock

Answer 13

Septic Shock

Question 14

PCWP

Answer 14

Pulmonary Capillary Wedge Pressure