Circulatory shock: Difference between revisions
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<section begin="anaesthesia and intensive care" /><section begin=" | <section begin="anaesthesia and intensive care" /><section begin="traumatology" />'''Circulatory shock''', often called just '''shock''' is a hemodynamic disturbance which leads to inadequate oxygen supply to organs and tissues of the body. The ensuing tissue hypoxia causes metabolic disorder in the tissues leading to temporary or permanent disturbance of function, and in severe cases to [[necrosis]]. | ||
It’s a life-threatening condition which can develop as a complication of disease, procedure, or trauma. The most common form is septic shock, followed by cardiogenic and hypovolaemic. Shock is an emergent state which requires emergency management. Treatment must be both supportive and, subsequently, targeted against the underlying cause. | It’s a life-threatening condition which can develop as a complication of disease, procedure, or trauma. The most common form is septic shock, followed by cardiogenic and hypovolaemic. Shock is an emergent state which requires emergency management. Treatment must be both supportive and, subsequently, targeted against the underlying cause. |
Revision as of 12:37, 12 October 2024
Circulatory shock, often called just shock is a hemodynamic disturbance which leads to inadequate oxygen supply to organs and tissues of the body. The ensuing tissue hypoxia causes metabolic disorder in the tissues leading to temporary or permanent disturbance of function, and in severe cases to necrosis.
It’s a life-threatening condition which can develop as a complication of disease, procedure, or trauma. The most common form is septic shock, followed by cardiogenic and hypovolaemic. Shock is an emergent state which requires emergency management. Treatment must be both supportive and, subsequently, targeted against the underlying cause.
Etiology and types
Cardiogenic Shock
Cardiogenic shock is the most severe form of acute decompensated heart failure and occurs due to cardiac dysfunction which leads to inadequate tissue perfusion despite adequate intravascular volume.
- Intrinsic (heart muscle insufficiency)
- MI, low contractility
- Severe tachy-or bradycardia, arrhythmias
- Valve dysfunctions (aortic stenosis, ++)
- Extrinsic
- Tear in septum/ventricle wall
Distributive Shock
Distributive shock refers to shock due to vasodilatation of peripheral blood vessels, i.e. blood volume is normal but vascular volume is enlarged. CO increased but SVR decreased.
- Septic shock (sepsis)
- Systemic inflammatory response syndrome (SIRS)
- Pancreatitis
- Severe burns
- Neurogenic shock
- Anaphylactic shock
- High-output heart failure
Hypovolaemic shock
Hypovolaemic shock refers to any shock due to insufficient circulating blood volume.
- Non-haemorrhagic
- Vomiting/diarrhoea
- Acute pancreatitis
- Burns
- Adrenal insufficiency
- Haemorrhagic
- GI bleed
- Trauma
- AAA rupture
- Ectopic pregnancy, postpartum bleeding
Obstructive shock
Obstructive shock is shock due to obstruction of blood flow outside the heart.
Pathophysiology
See the corresponding pathophysiology 1 topics for rough details (although those details are not at all important for clinic).
Clinical features
Shock is characterised by features of decreased end-organ perfusion, including:
- 5 P’s
- Perfusion of skin – pale, cool skin
- Pulse – weak peripheral pulse
- Periphery – prolonged capillary refill time > 2 – 3 s
- Pressure – systolic BP < 90 mmHg (hypotension)
- Pee – oliguria (< 1 mL/kg/hour) or anuria (< 0,5 mL/kg/hour)
- Tachycardia
- Tachypnoea, dyspnoea
- Altered mental status
- Ileus
There may also be symptoms specific to the type and underlying cause of the shock. For example, hypovolaemic shock may cause decreased skin turgor and dry mucous membranes. Cardiogenic and obstructive shock may cause distended neck veins. Septic shock may present with flushed, warm skin in the early stages.
Diagnosis and evaluation
The diagnosis of shock is clinical and depends on the presence of typical clinical features. Metabolic acidosis, especially lactic acidosis, is often present. Can see features of end-organ dysfunction or the underlying cause.
Treatment
Shock is an emergent state which requires emergency management. Treatment must be both supportive and, subsequently, targeted against the underlying cause. This involves:
- ABCDE
- Obtain large bore IV access
- Give fluid challenge
- If fluid responsive -> Fluid resuscitation with balanced crystalloid – 20 mL/kg
- If not -> Vasopressor (norepinephrine) or inotrope (dobutamine)
A fluid challenge refers to giving a small amount of IV fluid and see whether the haemodynamic parameters improve, to assess whether the patient is fluid responsive (requires fluids) or not. A passive leg raise test can be used instead of a fluid challenge. In this test the patient’s legs are passively raised for one minute. This increases preload and will improve the haemodynamic parameters if the patient is fluid responsive.
Subsequent management depends on the type of shock and cause:
- Hypovolaemic shock
- Give balanced crystalloid, up to 3 L
- If haemorrhagic -> give blood and colloid in 1:1 ratio
- Treat underlying cause
- Neurogenic shock
- Cervical spine precaution
- Fluid resuscitation
- Anaphylactic shock
- Intubation if airway is compromised (angioedema)
- 0,5 mg epinephrine every 5 minutes
- Corticosteroids, antihistamines are also indicated but epinephrine is the most important acute treatment
- Cardiogenic shock
- Not too much fluids – may cause cardiogenic pulmonary oedema
- Inotropes
- Intra-aortic balloon pump
- Ventricular assist device
- ECMO
- If AMI -> PCI
- Obstructive shock
- If tension PTX -> chest puncture at 3rd ICS mid-clavicular line or 5th ICS at mid-axillary line
- If PE -> Alteplase or interventional catheterization