Shock

Question 1

what is shock?

Answer 1

condition of inadequate perfusion to sustain normal organ function

Question 2

what are the 5 main classes of shock?

Answer 2

hypovolaemic 
cardiogenic (MI dysfunction)
obstructive
distributive
cytotoxic

Question 3

what is hypovolaemic shock?

Answer 3

insufficient circulating volume to fill the circuit

can be from loss of blood, interstitial fluid or pure water (rare)

Question 4

clinical features of hypovolaemic shock?

Answer 4

depend on the degree of hypovolaemia

Question 5

why is hypovolaemic shock so dangerous in young people?

Answer 5

as they compensate very well for a longer time and then suddenly deteriorate

Question 6

4 main compensatory mechanisms in maintaining circulating volume?

Answer 6

baroreceptor reflex
sympathetic chronotropy/inotropy
capillary absorption of interstitial fluid
hypothalamo-pituitary-adrenal response

Question 7

describe the baroreceptor reflex?

Answer 7

Stretch sensitive receptors in the carotid sinus (CNIX) and aortic arch (CNX)

Decreased stretch > decreased afferent input to medullary CV centres

Inhibition of parasympathetic (CNX) and enhanced sympathetic output > results in constriction of blood vessels to maintain BP

Question 8

describe the sympathetic chronotropy/inotropy compensatory mechanism?

Answer 8

Release of circulating vasoconstrictors (adrenaline, angiotensin, noradrenaline, vasopressin)
Redirects fluid from peripheral and secondary organs

Resulting lactic acidosis drives chemoreceptors to enhance response

Circulating vasodilators also increased (involved decompensatory stages)

Question 9

describe capillary absorption of intetstitial fluid?

Answer 9

reduced capillary hydrostatic pressure = inward net filtration

Question 10

how can Cardiac output (CO) be increased?

Answer 10

increase HR
increase SV (inotropy)
increase both

Question 11

why cant young children increase SV?

Answer 11

immature muscle

Question 12

how does giving fluids change stroke volume?

Answer 12

should increase SV
greater volume loading during diastole increases SV
inotropy increases contractility

Question 13

how is the frank starling curve affected in heart failure?

Answer 13

decreased contractility = curve shifted downwards

Question 14

what is cardiogenic shock?

Answer 14

where heart doesnt work effectively as a pump to meet circulatory demands

Question 15

most common cause of cardiogenic shock?

Answer 15

• Most commonly a complication of MI but may also follow acute valve dysfunction
  ○ E.g acute mitral prolapse, myocarditis, cardiomyopathy etc

Question 16

clinical signs of cardiogenic shock?

Answer 16

Poor forward flow, heart cant pump blood forward (hypotension/shock, fatigue, syncope)
Backpressure (pulmonary oedema, elevated JVP, hepatic congestion)

Question 17

how is cardiogenic shock managed?

Answer 17

focused on increasing CO
give drugs which stimulate sympathetic NS and shift curve upwards
- dobutamine, adrenaline
- dopamine, dopexamine
- others (milrinone, levosimendan)
if heart is so impaired that drugs cant sort CO then use an intra-aortic balloon pump

Question 18

how does an intra-aortic balloon pump work?

Answer 18

Provides counterpropulsion
® Inflation during ventricular diastole (increased diastole = increased perfusion of coronary arteries)
® Deflation during ventricular systole (reduces afterload and systolic pressure = decreased force that heart has to pump against)

Question 19

why arent fluids given in cardiogenic shock?

Answer 19

there is often already oedema so fluids would make it worse

Question 20

what is obstructive shock?

Answer 20

where there is a physical obstruction to either the heart or the great vessels
(mainly affects filling of the heart rather than cardiac ejection)

Question 21

what can cause obstructive shock?

Answer 21

PE
pericardial effusion/tamponade
tension pneumothorax
basically anything blocking filling of the heart

Question 22

how is obstructive shock managed?

Answer 22

treat underlying cause

• PE = anticoagulation +/- thrombolysis
• tamponade = pericardial drainage
• tension pneumothorax = decompression and chest drainage

Question 23

how is obstructive shock diagnosed?

Answer 23

ECHO (point of care testing)

• PE = dilated and non-mobile right ventricle, bowing of IV septum due to pressure difference between ventricles
• pericardial effusion/tamponade = fluid in pericardial sac compressing each chamber, impaired filling and contraction

Question 24

what is distributive shock?

Answer 24

circuit is dilated (too big) so blood volume si normal but bc the circuit is increased its not not enough to perfuse and BP drops
AKA vasodilatory/warm shock

Question 25

3 subtypes of ditributive shock?

Answer 25

Septic (bacterial endotoxin mediated capillary dysfunction)
Anaphylactic (inappropriate release of histamine from mast cells)
Neurogenic (loss of thoracic sympathetic outflow following spinal injury)

Question 26

describe septic shock management

Answer 26

Raising lactate levels can indicate hypoperfusion before hypotension occurs
Every hour delay of antibiotics increases mortality by 7.5%
Early use of vasopressors (vasoconstrictors) improves perfusion and minimises excessive fluid volumes

Question 27

what causes anaphylactic shock?

Answer 27

Uncontrolled activation of mast cells and degranulation

Release of histamine = vasodilation

Question 28

what is given in anaphylactic shock?

Answer 28

Adrenaline acts as a mast cell stabliser (stops degranulation) and also is a vasoconstrictor
Serum mast cell tryptase levels confirm the diagnose

Question 29

neurogenic shock vs spinal shock?

Answer 29

neurogenic = caused by spinal cord damage, spinal cord not attached, due to loss of sympathetic tone
spinal shock = also die to spinal injury but spinal cord still attached, loss of spinal reflexes, will recover?

Question 30

what causes neurogenic shock?

Answer 30

hypotension due to loss of descending sympathetic tone

inappropriate bradycardia occurs due to unopposed vagal tone (can be exacerbated by suction etc)

Question 31

mainstays of treatment for neurogenic shock?

Answer 31

dopamine alongside vasopressors

Question 32

4 Hs and 4 Ts causing cardiac arrest?

Answer 32

• hypoxia
• hypotension
• hypothermia
• hypo/hyperkalaemia
• toxins
• tamponade
• thrombosis
• tension pneumothorax

Question 33

how does CPR work?

Answer 33

• Cyclical changes in intrathoracic pressure alternately pushes blood out of and sucks blood back into the chest
  ○ Hence importance of allowing recoil between compressions

Question 34

what rhythms are shockable?

Answer 34

VF

pulseless VT

Question 35

describe VF?

Answer 35

chaotic and unrecognisable ECG with no recognisable QRS complexes
can occur after MI, toxins, electrolyte abnormality etc

Question 36

describe pulseless VT?

Answer 36

can be monomorphic (rapid, broad QRS with constant QRS morphology) or polymorphic (torsades de pointes)

Question 37

what rhythms arent shockable?

Answer 37

pulseless electrical activity

asystole

Question 38

what usually causes pulseless electrical activity?

Answer 38

usually hypovolaemia

usually almost normal rhythm but just not enough blood

Question 39

how is pulseless electrical activity managed?

Answer 39

adrenaline 1mg IV every 3-5 mins

Question 40

how us asystole managed?

Answer 40

same as pulseless electrical activity