1. Treatment of status asthmaticus ???
3. Status asthmaticus Severe attacks of asthma poorly responsive to adrenergic agents and associated with signs or symptoms of potential respiratory failure
4. Treatment Administration of oxygen
2-agonists (by continuous or repetitive nebulisation)
Systemic corticosteroids
Subcutaneous administration of epinephrine or terbutaline should be considered in patients
not responding adequately to continuous nebulisation,
unable to cooperate,
Intubated patients not responding to inhaled therapy.
Intubated and mechanically ventilated
based mainly on clinical judgment
should not be delayed once it is deemed necessary
should be appropriately sedated
Permissive hypercapnia, increase in expiratory time, and promotion of patient-ventilator synchronism
5. Inhaled 2-agonists Continuous or repetitive nebulisation of short-acting 2-agonists
the most effective means of reversing airflow obstruction
More effective and induces less hypokalaemia when delivered by the inhaled route
Salbutamol (albuterol) is the most frequently used agent because of its potency, duration of action (four to six hours) and 2-selectivity
2.5 mg (0.5 ml) in 2.5 ml normal saline by nebulisation continuously or every 1520 min until a significant clinical response is achieved or serious side effects appear
Intravenous administration should be considered in patients who have not responded to inhaled or subcutaneous treatment, in whom respiratory arrest is imminent
6. Corticosteroids Should begin much earlier, at the first sign of loss of asthma control
Early treatment with adequate doses of corticosteroid improves outcome
Reduce mortality
Controversy about the optimal dose of corticosteroid
No particular advantage of the intravenous over the oral route provided there is reliable gastrointestinal absorption
7. Ipratropium Ipratropium bromide has a mild additional bronchodilating effect when added to agonists that may only be significant in severe asthma
Ipratropium bromide 0.5 mg by nebulisation every 14 hours, combined with salbutamol
8. Aminophylline The addition of aminophylline does not add to the bronchodilating effect of optimal doses of agonists
Not recommended as a first line drug in acute asthma management
Its inclusion as a second line agent is still debated
9. Subcutaneous �epinephrine and terbutaline Should be considered in patients
not responding adequately to continuous nebulised salbutamol
unable to cooperate
intubated patients not responding to inhaled therapy
0.30.4 ml of a 1:1000 solution subcutaneously every 20 min for 3 doses
10. Mechanical ventilation Cardiopulmonary arrest and deteriorating consciousness are absolute indications for intubation and assisted ventilation
Hypercapnia, acidosis, and clinical signs of severe disease at presentation may not require immediate intubation before an aggressive trial of conventional bronchodilator therapy
Conversely, progressive deterioration with increasing distress or physical exhaustion may warrant intubation and mechanical ventilation without the presence of hypercapnia
11. Mechanical ventilation Correction of the hypoxemia is one of the first priorities
To avoid further significant increase of lung hyperinflation
Decrease of VE
Increase of expiratory time
Decrease of resistance
Controlled hypoventilation (Permissive hypercapnia (PaCO2 does not exceed 90 mmHg) with an associated acidosis (pH 7.27.15) )
Decreasing either the tidal volume or the respiratory frequency, or both
The recommended strategy to reduce lung hyperinflation
Pressure-controlled ventilation seems more appropriate to maintain airway pressure especially in status asthmaticus
12. Mechanical ventilation�Initial ventilator settings
13. Mechanical ventilation�Sedation
14. Mechanical ventilation�Neuromuscular-blocking agents Lessens the patient -ventilator asynchronism
Lowers the risk for barotrauma
Reduce oxygen consumption and dioxide production, and reduces lactate accumulation
Disadvantages: myopathy, excessive airways secretions, histamine release (atracurium), and tachycardia and hypotension (pancuronium).
Currently the use of paralytics is usually recommended only in those patients who cannot adequately be controlled with sedation alone
15. THERAPEUTIC OPTIONS IN THE NON-RESPONDING PATIENT Manual compression
Mucolytics
Inhalational anaesthetic agents
Helium
Magnesium sulphate
Leukotriene inhibitors
Platelet activating factor (PAF) inhibitors
Nitric oxide (NO)
16. Manual compression Hyperinflation is relieved by manual compression of the chest wall during expiration
Has not been fully evaluated by a controlled clinical study in humans
17. Mucolytics Chest physiotherapy and mucolytics have no proven benefit
Bronchoscopic lavage with locally applied acetylcysteine may be used to help clear impacted secretions in selected refractory patients but its routine use is not advocated
18. Inhalational anaesthetic agents Halothane, isoflurane, and sevoflurane are potent bronchodilators in asthmatic patients receiving mechanical ventilation who have failed to respond to conventional adrenergic agents
Sevoflurane, a halogenated ether, is largely devoid of cardiorespiratory side effects and may be the preferred agent
19. Helium A mixture of helium and oxygen (heliox) may reduce the work of breathing and improve gas exchange because of its low density that reduces airway resistance and hyperinflation
However, the benefits are marginal and the concentration of inspired oxygen is consequently decreased
The use of heliox to prevent intubation has not been studied
But dyspnoea scores were improved in one study, possibly by reducing the work of breathing
20. Magnesium sulphate Early anecdotal reports suggested benefit from intravenous magnesium sulphate, which has been inconsistently supported by randomised studies
A significant benefit was recently observed in children receiving intravenous magnesium sulphate (40 mg/kg) during acute asthma attacks
21. Leukotriene inhibitors
relatively minor role
Platelet activating factor (PAF) inhibitors
attenuate the late response in asthma but have limited clinical efficacy
Nitric oxide (NO):
weak bronchodilator effect.
It dilates pulmonary arteries
When inhaled, may improve ventilation/perfusion matching
