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Author(s): Marlies Ostermann and David Sprigings

  • Shock is acute circulatory failure associated with inadequate oxygen utilization by the cells, resulting in organ dysfunction and lactic acidosis (>2 mmol/L).
  • Compensatory mechanisms may initially maintain the blood pressure, but hypotension is usually present:
    • Systolic blood pressure (SBP) <90 mmHg or mean arterial pressure (MAP) <65 mmHg
    • Fall in systolic BP >40 mmHg
  • Causes of shock are given in Table 2.1. Up to one-third of patients admitted to ICU have shock predominantly caused by sepsis.
  • Monitor vital signs in patients at risk (e.g. acute coronary syndrome, pneumonia) to detect the first signs of developing shock and take prompt action to reverse this.

Priorities

Outline

Initial management is summarized in Figure 2.1.

  1. If hypovolaemia or vasodilatation is likely, lay the patient flat and elevate the foot of the bed.

  2. Give oxygen. Place an IV cannula. Attach an ECG monitor. Check oxygen saturation. Make a rapid clinical assessment (Table 2.2). Look carefully at the JVP, and assess skin temperature and perfusion. Investigations needed urgently are given in Table 2.3.

    Questions to ask yourself include:

    • Is there obvious haemorrhage from the gastrointestinal tract or other site (e.g. abdominal aortic aneurysm) (Chapters 73 and 74)?
    • Is there a major arrhythmia (Chapter 39)?
    • Is there ECG evidence of an acute coronary syndrome (ST segment elevation or depression, new left bundle branch block) (Chapters 45 and 46)?
    • Is there associated pulmonary oedema, indicating cardiogenic shock (Chapter 49)?
    • Is there fever, or other features pointing to sepsis (Chapter 35)?
    • Is pulmonary embolism possible (Chapter 57)? Hypotension and hypoxaemia without pulmonary oedema suggest pulmonary embolism or sepsis; in this setting, a raised JVP would favour pulmonary embolism and a low JVP sepsis.
    • Is tension pneumothorax a possibility (e.g. recent central vein cannulation) (Chapter 64)?
    • Could this be anaphylaxis (Chapter 38)? If the patient has recently been exposed to a potential allergen, and has urticaria, erythema, angio-oedema or wheeze, treat as anaphylaxis and give adrenaline 0.5–1 mg IM (0.5–1 mL of 1 in 1000 solution). Further management is detailed in Chapter 38.
  3. If hypotension does not respond promptly, put in a bladder catheter so that urine output can be monitored. The urine output is a rough guide to renal blood flow and cardiac output; the target is >0.5 mL/kg/h.

If There is Obvious Haemorrhage:!!navigator!!

  • Get help from a gastroenterologist (if you are dealing with suspected upper gastrointestinal haemorrhage) or a surgeon (see Chapters 73 and 74).
  • Place a second large-bore IV cannula (e.g. grey Venflon).
  • Rapidly transfuse crystalloid until the systolic BP is around 100 mmHg. Start transfusing blood as soon as it is available. If systolic BP is still <90 mmHg despite 1L of crystalloid, and cross-matched blood is not yet available, use grouped but not cross-matched blood and save a sample of the transfused blood for a retrospective cross-match.
  • Aim for a haemoglobin concentration of 80g/L.
  • Correct clotting abnormalities. If the prothrombin time is >1.5 x control, give vitamin K 10 mg IV and 2 units of fresh frozen plasma. If the platelet count is <75×1012/L, give platelet concentrate. Recheck the platelet count if >4 units of blood have been transfused. If fibrinogen is <1.5g/L, give cryoprecipitate.
  • Consider tranexamic acid.

If There is Cardiogenic Shock (Hypotension with Pulmonary Oedema):!!navigator!!

  • Correct major arrhythmias (Chapters 39, 40, 41, 42, 43, 44).
  • If there is ECG evidence of ST-segment-elevation acute coronary syndrome, consider primary angioplasty if feasible (Chapter 45).
  • Arrange urgent echocardiography to assess right and left ventricular function and to exclude ventricular septal rupture, pericardial tamponade and acute aortic or mitral regurgitation (Table 2.5).
  • Increase the inspired oxygen, aiming for an oxygen saturation of >90%/arterial PO2 >8kPa. If these targets are not met despite an inspired oxygen concentration of 60%, use a continuous positive airway pressure system (Chapter 113). Intubation and mechanical ventilation may be appropriate in some patients: discuss this with an intensivist and cardiologist.
  • Start inotropic/vasopressor therapy (Tables 2.6 and 2.7).
    • Diuretics are relatively ineffective in patients with cardiogenic shock, but can be used in case of fluid overload once the cardiac output has increased (as shown by improvement in the patient's mental state and skin perfusion): if renal function is normal, give Furosemide 40 mg IV.
  • Providing the systolic BP has increased to at least 100 mmHg, start a nitrate infusion, initially at low dose (e.g. isosorbide dinitrate 2 mg/h).
  • If the patient is not improving, consider haemodynamic monitoring using pulse contour or thermodilution techniques to allow more accurate titration of therapy. Adjust the doses of inotrope/vasopressor +/– nitrate, aiming for normalization of tissue perfusion parameters (serum lactate, urine output, skin perfusion).
  • Discuss management with a cardiologist if you suspect a surgically correctable cause (e.g. papillary muscle rupture) or there is evidence of acute myocardial ischaemia without infarction (Chapter 46).

Further Management

The key points in the management of hypotension/shock are to:

  1. Make a diagnosis and give specific treatment:
    • Consider the causes in Table 2.1.
    • Echocardiography is indicated if the diagnosis remains unclear.
    • Give hydrocortisone 200 mg IV if the patient has been on previous long-term steroid treatment (prednisolone >7.5 mg daily) or you suspect acute adrenal insufficiency (Chapter 90).
  2. Correct cardiac arrhythmias:
    • Ventricular tachycardia or supraventricular tachycardia with a ventricular rate >150 min should be treated with DC cardioversion (Chapter 121).
    • Acute atrial fibrillation: consider DC cardioversion if the ventricular rate is >140 min, after correction of hypoxia and electrolyte disorders. Otherwise, give amiodarone IV (via a central line; 300 mg in glucose 5% over 60 min, followed by 900 mg over 24 h). Most drugs used to control the ventricular rate in atrial fibrillation are contraindicated in hypotension. Digoxin is largely ineffective when sympathetic drive is high.
    • If there is severe bradycardia (heart rate <40 min), give atropine 0.6–1.2 mg IV, with further doses at 5-min intervals up to a total dose of 3 mg if the heart rate remains below 60 min. If there is little response to atropine, use an external transcutaneous pacing system or put in temporary pacing wire (Chapter 119).
  3. Correct hypovolaemia:
    • If there is obvious hypovolaemia (appropriate clinical setting; low JVP with flat neck veins), give IV fluid (blood, colloid or crystalloid as appropriate to the cause). There is no role for a central line unless the patient needs inotropic medication.
    • If the evidence for hypovolaemia is less certain, but there are no clinical signs of fluid overload, give a fluid challenge, especially if the JVP is difficult to assess.
    • If systolic BP remains <90 mmHg despite correction or exclusion of hypovolaemia, search for and treat other causes of hypotension, of which sepsis is the most likely. In patients with acute bleeding, relative hypotension can be accepted until the bleeding is stopped surgically. In sepsis with prior systemic hypertension, a MAP >65 mmHg may be needed to prevent acute kidney injury.
    • There is no single value of LV filling pressure or CVP that should guide fluid replacement; instead, multiple methods should be used, including dynamic measures (e.g. pulse-pressure variability on the arterial line or the change in IVC diameter on leg raising).
    • Even in fluid-responsive patients, titrate fluid carefully to avoid hypervolaemia
    • If BP remains low, inotropic–vasopressor therapy will be needed.
  4. Correct hypoxia and biochemical abnormalities:
    • Maintain PaO2 >8kPa (60 mmHg), arterial saturation >90%.
    • Severe metabolic acidosis may contribute to hypotension. It is crucial to identify the cause of metabolic acidosis so that the correct treatment can be initiated. Causes of metabolic acidosis are given on p. 249. If arterial pH is <7.1 and falling, consider giving 50 mL of 8.4% sodium bicarbonate whilst waiting for a response to treatment of the underlying disease. Recheck arterial pH after 30 min.
  5. Use inotropic/vasopressor therapy if there is refractory hypotension:
    • If systolic BP remains <90 mmHg (MAP <65 mmHg) with signs of hypoperfusion (associated with low central venous oxygen saturation) despite correction of hypovolaemia, start inotropic/vasopressor therapy whilst searching for the underlying cause.
    • Inotropes are not indicated for a low LV ejection fraction on echocardiography without signs of low cardiac output.
    • Invasive central venous and arterial pressure monitoring is recommended.
    • Choice of therapy and dosages are summarized in Tables 2.6 and 2.7.
    • Discuss with a cardiologist whether intra-aortic balloon counterpulsation (balloon pump) or left ventricular assist device is indicated as a bridge to definitive treatment (e.g. surgery for a ruptured papillary muscle).

Further Reading

Francis GS, Bartos JA, Adatya S (2014) Inotropes. J Am Coll Cardiol 63, 20692078.

Mackenzie DC, Noble VE (2014) Assessing volume status and fluid responsiveness in the emergency department. Clin Exp Emerg Med 1, 6777. http://dx.doi.org/10.15441/ceem.14.040.

Roshdy A, Francisco N, Rendon A, Gillon S, Walker D (2014) Critical Care Echo Rounds: Haemodynamic instability. Echo Research and Practice , September. DOI: 10.1530/ERP-14-0008.

Task force of the European Society of Intensive Care Medicine (2014) Consensus on circulatory shock and hemodynamic monitoring. Intensive Care Med 40, 17951815. DOI: 10.1007/s00134-014-3525-z.