Shock

An abnormality of the circulatory system resulting in inadequate tissue perfusion and oxygenation - can lead to anaerobic metabolism, which will cause metabolic waste products to accumulate, resulting in cellular failure

Hypovolemic Shock

• Shock due to decrease in blood volume

• Decrease can be either due to:
• Haemorrhage - direct blood loss (e.g. trauma, surgery, GI haemorrhage)
• Classified into 4 classes (IV most severe) depending on different factors e.g. blood loss, pulse pressure, BP, resp. rate etc.
• Non-haemorrhage - decrease in ECFV e.g. due to vomiting, diarrhoea, excessive sweating

Pathophysiology

• Decrease in blood volume → decreased venous return → decreased EDV → decreased SV (Frank-Starling) → decreased CO and BP → inadequate tissue perfusion

Compensatory cardiac mechanisms

• Can maintain BP until >30% of blood volume is lost

• In haemorrhagic shock, the baroreceptor reflex will cause the patient to become tachycardic, decreasing SV → CO and MAP decreases

• SVR will increase through vasocontraction - cool peripheries
• Myogenic response - the intrinsic ability of smooth muscle to alter SVR in response to pressure changes e.g. to regulate cerebral blood flow in response to decreased MAP

Cardiogenic Shock

• Decreased cardiac contractility (e.g. due to acute MI) → decreased stroke volume → decreased CO and BP → inadequate tissue perfusion

Obstructive Shock

• Shock associated with physical obstruction of the great vessels or the heart itself

• Includes cardiac tamponade, pulmonary embolism and tension pneumothorax

In the case of a tension pneumothorax:

• Increased intrathoracic pressure → decreased venous return → decreased EDV → decreased SV (Frank-Starling) → decreased CO and BP → inadequate tissue perfusion

Distributive Shock

Neurogenic e.g. spinal cord injury

• Loss of sympathetic tone to blood vessels and heart → massive venous and arterial dilation and heart rate slows → decreased venous return and SVR → decreased CO and BP → inadequate tissue perfusion

Vasoactive shock e.g. septic shock, anaphylactic shock

• Release of massive vasoactive mediators → massive venous and arterial vasodilation, increased capillary permeability → decreased venous return and SVR → decreased CO and BP → inadequate tissue perfusion

Management

• ABCDE approach

• High flow oxygen

• Volume replacement for hypovolaemic shock

• Inotropes for cardiogenic shock

• Immediate chest drain for tension pneumothorax

• Adrenaline for anaphylactic shock

• Vasopressors for septic shock