2. Shock
Learning Objectives
On completion of this lecture, the student should be able to;
• Define and classify shock
• Describe the pathophysiology of shock
• Describe the clinical approach to a shocked patient using the ABCDE
algorithm
• Distinguish different types of shock clinically.
• Describe investigation and management of shock
3. Shock
Definition
Shock is best defined as “a syndrome characterized by global impairment
in tissue perfusion and cellular oxygenation affecting different body
systems”.
• it is different from local organ ischaemia (limb gangrene – myocardial
infarction - renal infarction)
4. Shock
Classification
Traditionally shock is classified into four main groups according to the main
mechanism of decompensation:
• Hypovolaemic shock
• Cardiogenic shock
• Obstructive shock
• Distributive shock
6. Shock
Causes of hypovolaemic shock:
• Haemorrhagic:
• External: bleeding vessel due to stab, haematemesis, melena,......
• Internal: rupture spleen, rupture aortic aneurysm.
• Non haemorrhagic:
• Plasma loss: as in burn and large raw areas.
• Fluid loss: excessive vomiting, diahrrea, uncontrolled polyuria.
8. Shock
Cardiogenic shock
It is a shock state in which the primary defect is pump failure.
Cardiogenic shock due to left ventricular infarction suggests that more than
40% of the left ventricle is involved.
9. Shock
Causes of cardiogenic shock
• Myocardial infarction (most common cause)
• Myocardial contusion
• Myocarditis
• Acute valvular failure
• Arrhythmia (severe tachyarrhythmia – severe bradyarrhythmia)
12. Shock
Mechanism
Obstructive forms of shock are those in which the underlying pathology is a
mechanical obstruction to normal cardiac output and a subsequent
diminution in systemic perfusion.
13. Shock
Cardiac tamponade
• The distinction between a pericardial effusion and cardiac
tamponade . The pericardium resists sudden stretching, and in acute
tamponade the cardiac silhouette may appear normal in size. As a
result of the noncompliance of the pericardium, a small amount of
fluid (usually less than 200 mL) is all that is necessary to produce
tamponade.
• With chronic distention, however, large volumes of pericardial fluid
may accumulate with little to no effect on cardiac physiology.
• The volume of the effusion alone, therefore, does not dictate the
clinical course as much as the acuity of its development. uses of
acute pericardial effusion include trauma, ischemic myocardial
rupture and aortic dissection
• Which side? Right (thinner muscle – less pressure)
• Which chamber? Right atrium (thinner muscles – less pressure)
• At which phase of cardiac cycle? Diastole (less pressure)
15. Shock
Massive pulmonary embolism
• Cardiac output is restricted either by mechanical obstruction of the
pulmonary arterial tree or by pulmonary arterial vasoconstriction
induced by the release of secondary mediators.
16. Shock
Tension pneumothorax
• Air enters into the pleural cavity (with ball valve mechanism)
• Air accumulates with increase in the pleural pressure
• It causes collapse of the epsilateral lung and mediastinal shift.
• It causes twist to the great vessels carrying the venous return and
the cardiac output.
• Decreasing the cardiac output to the systemic circulation.
Mechanism:
19. Shock
Septic shock
• a complex interaction between the pathogen and the host’s immune
system
• The normal physiologic response to localized infection includes
activation of host defense mechanisms that result in the influx of
activated neutrophils and monocytes, release of inflammatory
mediators, local vasodilatation, increased endothelial permeability,
and activation of coagulation pathways.
• These responses occur during septic shock, but on a systemic scale,
leading to diffuse endothelial disruption, vascular permeability,
vasodilatation, and thrombosis of end-organ capillaries.
20. Shock
Neurogenic shock
• Spinal cord injury above the upper thoracic level results in
autonomic dysfunction consequent hypotension, bradycardia and
warm, dry skin.
Mechanism:
22. Shock
Anaphylactic shock
• Massive histamine release from mast cells after activation by
antigen-bound immunoglobulin E (IgE), as well as increased
synthesis and release of prostaglandins.
• These leads to massive vasodilation with decrease in systemic
vascular resistance with subsequent hypotension and shock.
Mechanism:
23. Shock
Pathophysiology of shock
• At the cellular level:
• Switch from aerobic to anaerobic metabolism
• Accumulation of lactate, hydrogen ions and inorganic
phosphates
• Precipitating energy crisis in the cell
» Loss of cellular integrity
» Cellular swelling
» Oxidative stress
» Lipid peroxidation
» Mitochondrial dysfunction
24. Shock
Clinical findings which might suggest presence of shock:
• Tachycardia (heart rate > 120 beats/minute)
• Hypotension (SBP < 90 mmHg)
• Tachypnea (Respiratory rate > 25 breaths per minute)
• Altered mental status
• Delayed capillary refill time.
• Pale cold extremities
• Oliguria (<0.5 ml/kg/hr)
Classical manifestations of shock:
25. Shock
• Conduct clinical examination using the Airway, Breathing, Circulation,
Disability and Exposure (ABCDE) algorithm.
•Correct any problem in each component before you switch to the next
one.
Emergency clinical approach
26. Shock
• Clinical signs include:
Noisy breathing (snoring, grunting) or stridor
Absence of protective cough and gag reflexes
Drooling, with inability to clear oropharyngeal
secretions
• Management:
Manoeuvres: head tilt – chin lift , mandibular thrust.
Aiding tools: oropharyngeal airway, nasopharyngeal
airway, endotracheal tube.
Surgical airway: cricothyrodotomy – tracheostomy.
• Do not forget your gift O2
Airway assessment
27. Shock
•Signs of respiratory distress include:
Increased respiratory rate
Diaphoresis
Use of accessory muscles
Intercostal indrawing
Cyanosis (late and unreliable sign)
•Examine the chest – watch for signs of tension pneumothorax
•Management:
You can support breathing by bag – mask ventilation.
If tension pneumothorax needle thoracotomy.
• Do not forget your gift to the patient pulse oxymeter
Breathing assessment:
28. Shock
• Signs that may be present in a case of shock:
Cold extremities
Delayed capillary refill
Tachycardia
Hypotension
Weak pulse peripherally and centrally
Neck veins (congested or empty)
Ascultate the heart (distant heart sound, murmurs, normal).
Visible source of blood loss.
• Do not forget your gifts to the patient:
Insert 2 wide pore cannulas – take your blood sample.
Attach ECG monitor.
Circulation assessment:
29. Shock
• Management:
Give fluid to any shocked patient (500 – 1000 ml) over
10 to 20 minutes.
If you suspected a cardiogenic shock, give less fluid
You can use vasopressor e.g. Norepinephrine and
dopamine.
You can use inotrope e.g. Dobutamine and dopamine.
Circulation assessment:
30. Shock
Level of consciousness using Glascow Coma Score (GCS)
Assess the pupillary size bilaterally.
•Do not forget your gift : check random blood sugar
Disability assessment:
31. Shock
•Full expose patient is a must to make complete examination of the
body.
•So your gift here is to cover your patient again.
Exposure:
32. Shock
Now you have time to make the other steps of conventional
medicine:
•Complete history taking.
•Complete examination (from head to heel).
•Ask for investigations.
After emergency algorism (ABCDE)
33. ShockHypovolaemic shock:
Classical manifestations of shock: hypotension, tachycardia, weak
thready pulse, tachypnea, altered mental status, oliguria, pale cold
sweaty skin.
Empty neck veins – decreased central venous pressure (CVP).
Normal heart sounds.
Normal breath sounds.
Emergency measures: ABCDE
Specific investigations:
Confirmation of the source of blood loss e.g. upper GIT endoscopy for
haematemesis, lower GIT endoscopy for haematochazia, chest X ray for
suspected haemothorax, ultrasonography for suspected rupture
spleen,…
Specific treatment:
Replace the lost fluid (fluid, plasma, blood).
Secure the source of bleeding (conservative, endoscopic,
interventional radiology or surgery)
34. Shock
Cardiogenic shock:
Classical manifestations of shock: hypotension, tachycardia, weak
thready pulse, tachypnea, altered mental status, oliguria, pale cold
sweaty skin.
Congested neck veins – high CVP.
Murmur (??)
Failure crepitations (fine crepitations) if severe left ventricular
dysfunction.
Emergency measures: ABCDE – be cautious in fluid therapy – consider
vasopressor and/or inotropes.
Specific investigations:
ECG (myocardial infarction – arrhythmia).
Echocardiography (to assess EF or valvular lesions).
Cardiac enzymes and macromolecules (troponin, creatine kinase,…..)
Chest X ray (cardiac size and pulmonary congestion).
35. Shock
Cardiogenic shock:
Specific treatment:
Be cautious in fluid therapy.
Use inotrope ( dobutamine, dopamine in inotropic dose).
Intraaortic balloon counter pulsation.
Revascularization if myocardial infarction (thrombolytic or coronary
intervention).
If valvular lesion, valve surgery may be needed.
If tachyarrhythmia, consider DC shock and antiarrhythmics (cordarone,
lignocaine).
If bradyarrhythmia, consider atropine and artificial pacemaker
(temporary or permanent).
36. Shock
Obstructive shock (tension pneumothorax):
Classical manifestations of shock: hypotension, tachycardia, weak
thready pulse, tachypnea, altered mental status, oliguria, pale cold
sweaty skin.
Congested neck veins – high central venous pressure (CVP).
Normal heart sounds but displaced.
Decreased air entry and tympanic note on percussion on affected side
– tracheal shift to the contralateral side.
Emergency measures: ABCDE – consider needle decompression during
B assessment
Specific investigations:
Confirmation after release by chest X ray or CT chest.
Specific treatment:
After needle decompression, we can insert intercostal tube with under
water seal.
37. Shock
Obstructive shock (cardiac tamponade):
Classical manifestations of shock: hypotension, tachycardia, weak
thready pulse, tachypnea, altered mental status, oliguria, pale cold
sweaty skin.
Congested neck veins – high central venous pressure (CVP).
Distant heart sounds.
Emergency measures: ABCDE – pericardiocentesis during C assessment.
Specific investigations:
Echocardiography is diagnostic (diastolic collapse of right atrium and
ventricle).
Specific treatment:
Pericardiocentesis (echocardiography guided, fluoroscopy guided or
blind).
Surgical intervention if needed (penetrating injury, aortic dissection).
38. Shock
Obstructive shock (massive pulmonary embolism):
Classical manifestations of shock: hypotension, tachycardia, weak
thready pulse, tachypnea, altered mental status, oliguria, pale cold
sweaty skin.
Congested neck veins – high central venous pressure (CVP).
Some wheezes on lung fields (histamine release).
Reversed and splitted second heart sound.
Signs of DVT in any limb.
Emergency measures: ABCDE.
Specific investigations:
Echocardiography may be helpful (right heart dilatation and increased
pulmonary artery pressure)
CT pulmonary angiography (most diagnostic).
D-dimer.
Doppler on venous system of limb.