Assessment and Stabilization
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Assessment and immediate management of an emergencyThe assessment and immediate management of critically ill patients follows the established ABC approach (Approach/Airway, Breathing, Circulation). What follows is a brief summary of the ABC approach adapted for patients within a critical care environment, further details on each system are considered in individual chapters. Any deterioration during assessment and resuscitation should prompt a return to ‘A’.
Some interventions may need to be performed whilst continuing assessment and emergency treatment, particularly when emergencies are acute and life threatening (e.g. BLS/ALS, see 
p.98; needle thoracocentesis of a tension pneumothorax, 
p.80).
p.98; needle thoracocentesis of a tension pneumothorax, p.80).Approach
In all cases it is essential to ensure that those treating the patient are safe to carry out their work.
C-spine immobilization is often required where trauma is involved.
Give 100% oxygen in acute emergencies, in less acute scenarios titrate the oxygen required to keep SpO2 94-98%.
Connect any monitoring available—aim to have SpO2, continuous ECG, and non-invasive BP monitoring as a minimum:
Review any information from the monitoring devices (e.g. SpO2, ventilatory parameters, heart rate and rhythm, BP) alongside physical findings when examining the patient
Be alert for equipment malfunction (e.g. airway occlusion, ventilator failure, or infusion pump failure); and/or alarms from the monitoring systems which may indicate the cause or extent of problem
Obtain a history and detailed information about the patient:
From the patient where possible—the minimum history should include the ‘AMPLE’ template advocated in trauma resuscitation
From attending staff or from any associated documentation
Review notes, observation charts, imaging and blood results—fluid balance, blood gases, electrolytes
Physiological scoring systems (e.g. early warning scores, EWS, or ‘track and trigger’ systems) may be used to ‘flag’ up patients at high risk of deterioration (see
p.9)
Assess the existing level of support required by the patient (e.g. requirement for inotropes or haemofiltration)
The ‘AMPLE’ history
A Allergies
M Medication
P Past medical history
L Last meal
E Event (and environment)
Airway
The commonest cause of airway emergencies is airway obstruction. It may be partial or complete.
In the unintubated patient
Assess the ability of the patient to breathe, or in conscious patients the ability to speak, listening for:
Silence (caused by apnoea or complete obstruction), or abnormally quiet breath sounds
Stridor, wheeze, or gurgling
A hoarse voice (associated with laryngeal oedema)
In unconscious or uncooperative patients feel for breath with your hand or cheek, check for misting on an oxygen mask.
Look for evidence of airway obstruction:
Bleeding, vomit, secretions, tissue swelling, or foreign bodies
Obstruction of the pharynx by the tongue
Look for neck swelling or bruising, surgical/subcutaneous emphysema, or crepitus
Look/listen for chest and other signs of airway obstruction, including:
Paradoxical chest and abdominal movements, tracheal tug
Reduced air entry in chest
Use of accessory muscles of respiration
Hypoxia is a late sign and indicates extreme emergency
Exclude obstruction of pharynx by the tongue:
Chin lift: useful for infants, edentulous or unconscious patients
Jaw thrust: generally more effective than chin lift, and can be done one-handed (skilled) or two-handed (unskilled)
Consider airway adjuncts:
Oropharyngeal (‘Guedel’) airways are normally only tolerated by unconscious patients
Nasopharyngeal airways are tolerated by conscious patients but may cause nasal bleeding on insertion worsening airway problems
Laryngeal mask airways (LMAs) require basic training to use, are only tolerated by unconscious patients, and offer limited protection from aspiration
Orotracheal intubation is the gold-standard for protecting and maintaining the airway but is only tolerated by anaesthetized or unconscious patients and requires a skilled operator to insert (the nasotracheal route is rarely required outside operating theatres)
Using a self-inflating bag and mask to assist ventilation, if possible, may allow time to look for or treat causes of obstruction.
Consider endotracheal intubation or an emergency needle cricothyroidotomy/tracheostomy (see
pp.522 and 528):
Specialist anaesthetic and/or ENT airway skills will also be required at this point
In patients who are unconscious, but maintaining an airway, endotracheal intubation should be considered, or the recovery position should be adopted (or alternatively ‘head-down, left lateral’ if they are lying on a trolley/bed).
In the intubated, mechanically ventilated patient
Work methodically from the ventilator to the patient:
Check the ventilator is working (with adequate pressures, tidal volumes, and minute volumes) and that O2 is connected, check that ventilator tubing is still connected and not obstructed.
High airway pressure ventilator alarms may indicate obstruction.
Low pressure, or low expired volume alarms may indicate a leak.
Listen for any air leaks from ventilator tubing or endotracheal cuff.
Check the endotracheal tube (ETT):
ETT position is normally 20-22cm at lips (compare with any previously noted length), ↑ insertion depth may indicate endobronchial placement. If immediately available, review CXR films to confirm correct placement of tube
Check tube patency (by passing a suction catheter through the endotracheal tube to exclude obstruction)
Laryngoscopy may be required to confirm correct placement
Disconnect from ventilator and try ventilating with a self-inflating bag (successful ventilation indicates obstruction at the level of ventilator tubing):
If unsuccessful then there is an obstruction within or beyond the ETT, consider re-intubating with a fresh ETT and/or passing a fibreoptic scope; also consider causes for failure to expand the lungs (e.g. tension pneumothorax or bronchospasm)
Unilateral chest movement may be associated with pneumothorax or endobronchial intubation.
Breathing
Common causes of breathing difficulties include pleural diseases (pneumothorax, haemothorax, or pleural effusion), airway diseases (asthma, secretions, acute exacerbation of COPD), parenchymal disease (collapse, consolidation, ARDS) and cardiogenic disease (cardiogenic pulmonary oedema). Evidence of inadequate breathing should be looked for and corrected, including:
Dyspnoea and/or tachypnoea (bradypnoea or Cheyne-Stokes breathing are late/severe signs).
Obvious problem, e.g. regurgitation with aspiration, massive bleeding.
Absent or abnormal chest movement:
Unilateral movements may indicate pneumothorax, pleural effusion, collapse
Paradoxical chest-abdominal movement may indicate airway obstruction or flail chest
Use of accessory muscles of respiration
Raised JVP may be visible.
Apex beat or tracheal shift may be seen towards areas of collapse or away from pneumothoraces or pleural effusions.
Percussion may reveal effusions or pneumothoraces.
Abnormal breath sounds may be heard on auscultation:
Silent chest or wheeze may be due to acute severe asthma/bronchospasm (pulmonary oedema may also cause wheeze)
Rattling noises suggests secretions
Absent unilateral sounds may be due to pleural effusion
Bronchial breathing suggests underlying consolidation
Patients should be asked to cough to assess their ability to clear secretions which may be limited by neuromuscular problems or pain.
Secretions themselves should be examined where possible, and patients encouraged to ‘cough up’ samples
Check any intercostal drains—check if drains are still swinging or bubbling, and check the volume of blood or serous discharge
Emergency management should be aimed at:
Excluding/treating life-threatening conditions (e.g. acute severe asthma, tension pneumothorax, pulmonary oedema, massive haemothorax)
Treatments which can be rapidly commenced include:
A trial of bronchodilators if bronchospasm is suspected
Chest physiotherapy to clear secretions
Non-invasive ventilation in conscious and cooperative patients who do not respond to previous treatment (see
p.53)
Endotracheal intubation and mechanical ventilation
In the mechanically ventilated patient
Check the degree of any respiratory support:
Oxygen, peak pressures, PEEP and minute volume measurements
↑airway pressures or ↓tidal volumes may be due to ↑airway resistance or reduced lung compliance
If bronchospasm is present, check the length of the expiratory wheeze (in order to set I:E ratios), and check intrinsic PEEP
Tracheal suction may reveal the amount and quality of secretions, and clear mucous plugs (critical care charts also often record the amount and character of secretions).
Alveolar recruitment manoeuvres may be helpful in ARDS, atelectasis, or pulmonary oedema.
Consider ventilating with a self-inflating bag in order to manually assess compliance.
Urgent bronchoscopy may help clear obstructions/secretions
Circulation
Cardiovascular emergencies often present as severe hypotension and shock, heart failure with pulmonary oedema, or cardiac arrest.
Inadequate circulation may be caused by low-output states such as severe hypovolaemia or cardiogenic shock, and high-output states due to peripheral vasodilatation (e.g. sepsis). Non-cardiovascular causes (e.g. endocrine disorders, electrolytes, pneumothorax) should also be considered. In addition, certain interventions such as positive pressure ventilation or epidural analgesia can lead to relative hypovolaemia.
In critical care ECG, arterial BP, and cardiac output monitoring may already be connected to the patient, giving clues to the nature of emergency. Signs of cardiovascular compromise include:
Cardiovascular signs:
Thready pulse, tachycardia, and hypotension
Cold peripheries, prolonged capillary refill (>2 seconds)
Alternatively a bounding pulse may occur with hypotension in individuals capable of compensating
Bradycardia is a pre-terminal sign, or a sign of vagal stimulation, (e.g. from intraperitoneal blood)
JVP may be raised
Other signs:
Tachypnoea, altered mental state
↓urine output (<0.5 ml/kg/hour)
Peripheral oedema
Look for obvious or concealed blood/fluid loss.
Check any abdominal or wound drains—check they are still in situ and measure the volume of any blood loss.
Check the status of any inotropic infusions.
Other signs of circulatory insufficiency may include lactataemia or metabolic acidosis.
Non-specific signs may be present in ventilated patients, including chest pulsation (indicating a hyperdynamic state), the presence of ETCO2 (indicating both patent endotracheal access and that cardiac output is present), a swinging arterial line trace (a non-specific indicator of hypovolaemia in ventilated patients).
Measured variables may also include:
Stroke volume and cardiac output estimation (via echocardiography, PAFC, TOD, pulse contour analysis); these will also allow an estimation of systemic vascular resistance
Echocardiography will also allow rapid diagnosis of tamponade (and other signs such as regional wall motion abnormality)
TOD may give an estimation of cardiac filling and/or afterload changes by measuring the corrected flowtime (FTc)
Stroke volume variation may give an indication of cardiac filling in ventilated patientsRelated posts:
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