Shock

Question 1

meds for shock

Answer 1

VIVA
vasoconstrictors, inotropes, vasodilators, antidysrhythmics

• vasoconstrictors: V PANE: vasopressin, phenylphrine, alpha-range dopamine, norepi, epi
• inotropes: BEN MD: beta-range dopamine, epi, norepi, milrinone, dobutamine
• vasodilators: NN Hy Lol: nitroprusside, NTG, hydralazine, labetalol
• antidysrhythmics: PALED VA Lol: procainamide, amiodarone, lidocarine, esmolol, diltiazem, verapamil, adenosine, labetalol

Question 2

tx for shock

Answer 2

major focus on improving tissue perfusion (meds), supporting O2 delivery and Hgb levels (give blood if Hgb very low, intubate and MV, give O2), give crystalloid or colloid if intravascular volume depletion, give enteral therapy within 24-48 hrs or TPN if can’t do enteral but should delay it for 7 days, keep glucose in 140-180, identify and correct cause of lactic acidosis, don’t give sodium bicarb for acidosis.

Assess response to therapy, prevent and maintain surveillance for complications, and provide emotional/comfort support.

Question 3

consequences of shock

Answer 3

• cardiovascular: ventricular failure and microvascular thrombus
• neuro: SNS dysfunction, cardiac/resp depression, thermoregulatory failure, coma
• pulm: ARDS, acute lung failure
• renal: AKI
• hematologic: DIC
• GI: GI tract failure, liver failure, pancreatic failure

Question 4

causes of hypovolemic shock (internal vs external)

Answer 4

internal causes: hemothorax, 3rd spacing, hemorrhagic pancreatitis, ruptured spleen/liver, dissecting aneurysm, ascites, peripheral edema

external losses: loss of blood, plasma, body fluids (surgery, obstetric delivery, burns, gi loss)

Question 5

classes/stages of hypovolemic shock

Answer 5

Class I: loss up to 15%, or up to 750 mL
Class II: loss up to 15-30%, or 750-1500 mls
Class III: loss of 30-40%, or 1500-2000 mL
Class IV (severe and usually refractory): loss >40% or loss >2000 mL

Question 6

how much fluid and what type to give in hypovolemic shock?

Answer 6

can give blood or isotonic crystalloids (NS/LR)

• 3:1 ratio (300 mLs for every 100 mLs of fluid lost)
• hemodynamic monitoring monitors fluid replacement
• fluid challenge

Question 7

evaluating effectiveness of fluid volume resuscitation

Answer 7

• BP arterial pressure 65-70 (map??)
• CVP 6-8
• UO 0.5 ml/kg/hr
• normal BUN/Cr
• serum lactate returning to normal

Question 8

S/S of cardiogenic shock (initial vs later)

Answer 8

initial:

• decline in CO
• chest pain
• tachycardia
• ABGs: resp alkalosis and hypoxemia
• pulm edema

later as compensation fails:

• continued increased HR
• chest pain
• dysrhythmias
• deteriorating pulm function, resp distress
• ABGs: resp acidosis, metabolic acidosis, hypoxemia
• renal failure
• decreased LOC from cerebral hypoperfusion

Question 9

diagnosis of cardiogenic shock

Answer 9

• CI less than 2.2 l/min/m2 in presence of elevated PAOP >15 mm Hg
• echo confirms diagnosis by giving noninvasive estimate of PAOP and EF and clarifies etiology

Question 10

tx of cardiogenic shock

Answer 10

-mechanical: IABP and VAD
-pharm approach:
diuretics and venous vasodilators to decrease preload, positive inotropes to increase CO, arterial vasodilators to decrease afterload

Question 11

complications of IABP, LVAD, ECMO

Answer 11

• infection
• bleeding
• thrombocytopenia
• hemolysis
• embolus
• stroke
• device malfunction
• circulatory compromise of a cannulated extremity
• sirs
• sepsis

Question 12

causes of obstructive shock

Answer 12

• impaired diastolic filling (cardiac tamponade, tension pneumo, constrictive pericarditis, compression of great veins)
• increased right ventricular afterload (PE, severe pulm HTN, increased intrathoracic pressures)
• increased left ventricular afterload (aortic dissection, systemic embolism, aortic stenosis)

Question 13

s/s of cardiac tamponade

Answer 13

• muffled heart sounds
• hypotension
• pulsus paradoxus (decrease in SBP during inspiration)

Question 14

s/s of tension pneumo

Answer 14

• decreased breath sounds on affected side

- tracheal shift away from affected side

Question 15

tx of obstructive shock

Answer 15

• pericardiocentesis
• thoracentesis
• surgical reduction of long bone fx (preventing PE)
• intermittent pneumatic compression devices
• ROM
• prophylactic anticoagulants

Question 16

hemodynamic changes that occur in distributive types of shock

Answer 16

• decreased BP
• decreased SV
• decreased CO

Question 17

types of distributive shock

Answer 17

• neurogenic
• anaphylactic
• septic

Question 18

causes of neuro shock

Answer 18

• sci (most common)
• spinal anesthesia
• nervous system damage
• vasomotor depression

Question 19

what does the loss of sympathetic tone in neuro shock lead to?

Answer 19

-massive peripheral vasodilation, inhibition of baroreceptor response, and impaired thermoregulation.
The massive vasodilation (arterial and venous) causes decreased SVR and decreased BP and relative hypovolemia with blood pooling in the venous circuit leading to decreased preload.
Loss of baroreceptor response causes bradycardia which worsens CO.
Loss of vasomotor tone results in inability for blood vessels to dilate/constrict for temp maintenance which leads to loss of thermoregulation

Question 20

s/s of neuro shock

Answer 20

• bradycardia with hypotn
• warm dry flushed skin
• decreased CO/CI
• declining RAP and pAOP (venous vasodilation decreasing preload)
• decreased SVR (arterial vasodilation causing decreased afterload)
• hypothermia (unable to thermoregulate)

Question 21

tx of neuro shock

Answer 21

• immobilize spine and positioning
• IV fluids carefully, watch for overload
• vasopressors if pt doesnt respond to fluid
• slow rewarming to prevent more vasodilation

Question 22

how does anaphylactic shock occur

Answer 22

-antigen-antibody response causes cellular breakdown and the release of powerful vasoactive mediators from the mast cells and basophils –> vasodilation causes decreased BP, relative hypovolemia, fluid shifts

Question 23

s/s of anaphylactic shock

Answer 23

• upper airway: laryngeal edema
• lower airway: bronchial constriction
• excessive mucus production
• angioedema (swelling of eyes, lips, tongue, hands, feet, genitalia)
• tachycardia and hypotension
• skin: itching, pain, pruritis, urticaria

Question 24

tx of anaphylactic shock

Answer 24

-remove trigger
-establish airway
-meds:
Epi for bronchodilation and vasoconstriction
Histamine blockers like ranitidine and benadryl as secondary agents
Corticosteroids to reduce inflammation
IV fluids to counteract hypotn

Question 25

sepsis vs septic shock definitions

Answer 25

sepsis: presence (probable or documented) of infection together with systemic manifestations of infection
vs
septic shock: sepsis-induced hypotension that persists despite adequate fluid resuscitation

Question 26

causes of septic shock

Answer 26

• immunosuppression (extremes of age, malnutrition, alcoholism, drug abuse, malignancy, hx of splenectomy, chronic health problems, immunosuppressive therapies)
• bacteremia (invasive procedures, invasive devices, traumatic wounds or burns, GI infection, untreated disease, peritonitis, food poisoning, prolonged hospitalization, translocation of GI bacteria)

Question 27

s/s of septic shock

Answer 27

• metabolic acidosis
• acute encephalopathy
• oliguria
• hypoxemia
• coagulation disorders
• hypotension
• decreased skin perfusion/mottling
• petechiae

Question 28

tx of septic shock

Answer 28

• prevention (hand hygiene, asepsis)
• ABX (Empirical then change to specific once c&s results available)
• iv fluids to keep CVP >8 and HR <110
• maintain MAP >65 with vasopressors (dopamine/norepi) and vasopressin if needed
• give blood to keep SCVO2 >70% , can use dobutamine and or PRBCs
• give ACTH for low cortisol
• keep glucose <180
• temp control
• treat cause
• minimize o2 consumption

Question 29

sepsis diagnosis

Answer 29

2 or more of the following are present after an infection:

• temp >38 or <36 (100.4 and 98.6)
• HR >90
• RR >20 or PaCO2 <32
• WBC >12k, <4k, or > 10% immature band forms

Question 30

early sepsis manifestations

Answer 30

• tachycardia
• bounding pulse
• warm flushed skin
• change in mental status
• oliguria
• hyperthermia
• inc CO/CI, svo2
• decreased RAP, PAOP, SVR
• respiratory alkalosis with hypoxemia
• increased WBC and glucose

Question 31

late sepsis s/s

Answer 31

• tachycardia
• weak thready pulse
• cold pale skin
• lethargy/coma
• anuria
• hypothermia
• decreased CO/CI, SVO2
• variable RA/PAWP/SVR
• metabolic acidosis with hypoxemia
• decreased WBC and glucose

Question 32

surviving sepsis campaign bundles: within 3 hours do what?

Answer 32

• measure lactate
• obtain blood cx before administration of ABX
• administer broad spec ABX
• administer 30 ml/kg crystalloid for hypotension or lactate greater than or equal to 4

Question 33

sepsis campaign bundle: within 6 hrs do what?

Answer 33

• apply pressors (for hypotn that does not respond to initial fluids) and maintain MAP > or = 65
• reassess volume status and tissue perfusion
• remeasure lactate if initial lactate was elevated

Question 34

vasopressin: when to use it and what effects does it have

Answer 34

-can be added to norepi
It’s synthetic ADH that sensitizes arterioles to catecholamines, increasing the release of cortisol and ACTH. gives vasoconstriction without the effects of other drugs (tachycardia, dysrhythmias)

Question 35

sepsis continuum

Answer 35

microorganism invasion –> SIRS + infection –> sepsis + hypotension despite fluid resuscitation –> septic shock –> MODS

Question 36

mortality rates of MODS

Answer 36

• 45-55% with 2 failed systems
• 80% with 3/more
• 100% with 3/more for more than 4 days

Question 37

organs severely affected in MODS?

Answer 37

• lungs (the first affected)
• liver
• kidneys
• splanchnic bed

Question 38

causes of MODS

Answer 38

• can be primary or can be from shock, trauma, burns, infections impairing perfusion
• most common causes are sepsis and septic shock

Question 39

s/s of MODS

Answer 39

• tachypnea, hypoxemia
• petechiae/bleeding
• jaundice
• abd distention
• oliguria –> anuria
• tachycardia
• hypotension
• change in LOC

Question 40

tx of MODS

Answer 40

• control infection: ABX
• provide adequate tissue oxygenation: maintain 88-92% o2 sat and maintain Hgb >7-9
• restore intravascular volume: aggressive fluids with isotonic crystalloids
• support organ functions

Question 41

splanchnic bed

Answer 41

blood supply to the GI tract, liver, spleen, pancreas