Correspondence  |   August 1999
Spontaneous Recovery after Discontinuation of Cardiopulmonary Resuscitation 
Author Notes
  • Director of Intensive Care; Department of Anesthesiology; The American Hospital Dubai; Dubai, United Arab Emirates;
Article Information
Correspondence   |   August 1999
Spontaneous Recovery after Discontinuation of Cardiopulmonary Resuscitation 
Anesthesiology 8 1999, Vol.91, 585-586. doi:
Anesthesiology 8 1999, Vol.91, 585-586. doi:
To the Editor:-I read with interest the case report from Dr. Frolich on spontaneous recovery after discontinuation of intraoperative cardiopulmonary resuscitation (CPR). [1 ] This rare and unsettling occurrence was also observed recently in our intensive care unit, although the postulated etiology differs from the published case.
A 76-yr-old man with severe bullous chronic obstructive pulmonary disease had been admitted in extremis requiring urgent intubation and ventilation. Within minutes he had suffered cardiac arrest from which he was resuscitated, although with evidence of residual hypoxic encephalopathy. He was resistant to attempts to wean him from mechanical ventilatory support. On the eighth day, while the patient was undergoing synchronized intermittent mandatory ventilation with pressure support, it was noted that the ventilator pressures were fluctuating widely, although delivered tidal volume was constant. He rapidly developed a profound bradycardia and increasing cyanosis. The ventilator was disconnected and manual ventilation with a self-inflating bag and chest compressions were started. In response to 0.6 mg atropine and 1 mg epinephrine, he developed a ventricular tachycardia that progressed to ventricular fibrillation. Direct current defibrillation led to a wide complex rhythm that progressed to asystole despite further pharmacologic intervention (including additional epinephrine, dopamine, bicarbonate, and lignocaine). It was noted throughout that ventilatory compliance was poor, although there was bilateral air entry, the trachea was central, and the ready passage of a large bore suction catheter suggested tube patency was not compromised. An arterial blood gas analysis during CPR showed pH 6.92, PaCO(2) 117 mmHg, PaO(2) 327 mmHg, and base excess - 10 M.
After 30 min of CPR with no evidence of spontaneous circulation and asystole in all electrocardiogram leads, resuscitative efforts were discontinued. The endotracheal tube was removed, and examination of it showed nothing untoward; the electrocardiogram remained connected. After 5 min return of cardiac electrical activity was noted, which progressed to sinus tachycardia accompanied by good volume pulses and spontaneous respiratory effort.
Arterial blood gas analysis shortly thereafter, with the patient breathing spontaneously with FIO(2) of 0.24, showed pH 7.19, PaCO(2) 64 mmHg, PaO(2) 53 mmHg, and base excess -3.7 M. Chest radiograph confirmed that there was no tension pneumothorax. However, neurologic assessment showed exacerbation of the hypoxic encephalopathy. After consultation with the family, it was agreed that supportive measures only would be continued. These included biphasic positive airway pressure ventilation with FIO(2) 0.7 via nasotracheal tube, giving blood gas analysis of pH 7.30, PaCO(2) 57 mmHg, PaO(2) 68 mmHg, base excess -3.8 M. Twenty-four hours later there was further deterioration in his condition, and he died without active resuscitation being performed.
The sequence of events strongly suggested a respiratory cause for both arrests. Although it may be difficult to rule out tension pneumothorax clinically, there is considerable risk in arbitrary placement of an intercostal needle or drain in a patient with severe bullous chronic obstructive pulmonary disease. A subsequent radiograph showed no pneumothorax. A more plausible explanation is the development of dynamic hyperinflation as a consequence of excessive end-expiratory pressure in the respiratory system, or auto-positive end-expiratory pressure; this may lead to significant impedance to venous return and reduction in cardiac output. [2 ] Although modern ventilators can be programmed to provide optimum cycle lengths, inspiratory-expiratory time ratios, variable inspiratory flow patterns, and external positive end-expiratory pressure to counter auto-positive end-expiratory pressure, such refinements are not available during manual ventilation in the heat of CPR. It is suggested that in this patient pressure in the respiratory system was so high that it shut down venous return. When CPR was discontinued and the endotracheal tube was removed, over the ensuing 5 min there was a gradual return of pressure in the respiratory system to atmospheric pressure, which allowed the heart to fill once more, leading to a return of spontaneous function.
Like Dr. Frolich's case, our patient was fully monitored and chest compressions were observed to be effective in creating a waveform on the arterial line, yet the pH was 6.9 and there was asystole. This may be a further argument for monitoring for an additional 10 min after discontinuation of resuscitation, as suggested in a previous report. [3 ]
Robin G. MacGillivray, F.C.A.(S.A.)
Director of Intensive Care; Department of Anesthesiology; The American Hospital Dubai; Dubai, United Arab Emirates;
(Accepted for publication March 25, 1999.)
Frolich MA: Spontaneous recovery after discontinuation of intraoperative cardiopulmonary resuscitation: Case report. Anesthesiology 1998; 89:1252-3
Donahoe M, Rogers RM: Acute respiratory failure in chronic obstructive pulmonary disease, Textbook of Critical Care, 3rd Edition. Edited by Ayres SM, Grenvik A, Holbrook PR, Shoemaker WC. Philadelphia, WB Saunders Company, 1995, pp 836-48
Linko K, Honkavaara P, Salmenpera M: Recovery after discontinued cardiopulmonary resuscitation (letter). Lancet 1982; 8263: 106-7