Seek Out Hypercapnea in the PACU and Remember that an Acceptable Pulse Oximeter Reading is not Assurance of Adequate Ventilation



Seek Out Hypercapnea in the PACU and Remember that an Acceptable Pulse Oximeter Reading is not Assurance of Adequate Ventilation


Michael P. Hutchens MD, MA



“Global warming is not the only downside of elevated CO2 concentration”

Respiratory complications are common events in the postanesthesia care unit (PACU) — as many as 7% of patients require upper-airway support of some kind during their PACU course. Although pulse oximetry provides excellent monitoring of arterial oxygen saturation, it is an anesthesia truism that reduced arterial oxygen saturation due to hypoventilation in patients receiving supplemental oxygen is a late finding. The physiologic manifestations of hypercapnea are truly protean, and although central nervous system effects are noticeable in patients who are awake, these findings, and others, may be masked by the shifting perioperative milieu. Hypercapnea both results from and causes respiratory arrest and is usually easily reversible in the PACU patient if caught in time.

Carbon dioxide (CO2) is an odorless, colorless, heavier-than-air gas, which, apart from oxygen and water, may be the most ubiquitous drug in medicine. Anesthesiologists routinely manipulate the CO2 content of blood to achieve physiologic goals. It is endogenously produced as a byproduct of energy production by degradation of carbohydrates in the Krebs cycle. Although physiologic investigation of the effects of CO2 began during the Enlightenment, its toxic effects were known in antiquity from the occasional (sometimes intentional) lethal encounter between living beings and caves with elevated CO2 concentration. Indeed, CO2 is itself a general anesthetic; it is currently used for laboratory animal euthanasia and sedation of livestock before slaughter. Experimentation in the 1960s using monkeys and cats breathing a 50:50 mix of CO2 and oxygen demonstrated electroencephalogram (EEG) slowing to isoelectricity after initial activation. Unlike the mechanism of conventional inhalational anesthetics, the mechanism of CO2 anesthesia is thought to be an effect of locally induced brain acidosis. In an elegant paper published in 1967, Eisele et al. measured the PaCO2 at which response to surgical stimulus was abolished in 50% of experimental dogs as 222 mmHg; this is, in essence, the MAC in dogs of CO2. Thirtypercent CO2, in oxygen administered by mask to human beings, produces
anesthesia, but produces a foul acidic taste in the mouth and feelings of anxiety and dyspnea. As PaCO2 rises above 90 mmHg, human beings exhibit stupor and, ultimately, loss of consciousness.

CO2, whether exogenously or endogenously sourced, has significant physiologic effects apart from those on consciousness. Hypercapnea increases cerebral blood flow and, thus, intracranial pressure. CO2 is a pulmonary vasoconstrictor, however, and causes a predictable increase in pulmonary-artery pressures at elevated levels. Because of the Bohr effect, hypercapnea decreases hemoglobin affinity for oxygen. An increased CO2 level also causes systemic hypertension, both from increased cardiac output and arteriolar vasoconstriction. An elevated PaCO2 is proarrythmic, particularly in the presence of halothane. Hyperkalemia can result from release of cellular potassium stores, and at a very high PaCO2, glomerular filtration rate is reduced by afferent arteriolar vasoconstriction. Interestingly, a brief review of the literature reveals multiple cases of PaCO2 levels of more than 200; these patients (mostly children) were stuporous or comatose but, in the absence of hypoxemia, recovered without permanent deficit.

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Jul 1, 2016 | Posted by in ANESTHESIA | Comments Off on Seek Out Hypercapnea in the PACU and Remember that an Acceptable Pulse Oximeter Reading is not Assurance of Adequate Ventilation

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