Altered blood gas tensions of oxygen and carbon dioxide confound coronary reactivity to apnea

Fischer, Kady Anne; Guensch, Dominik P; Shie, Nancy; Nadeshalingham, Gobinath; Lebel, Julie; Friedrich, Matthias G. (2022). Altered blood gas tensions of oxygen and carbon dioxide confound coronary reactivity to apnea (In Press). Frontiers in Anesthesiology, 1 10.3389/fanes.2022.997836

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Purpose: Arterial blood gases change frequently during anesthesia and intensive care. Apnea can occur during diagnostic exams and airway and surgical interventions. While the impact of blood gas levels on coronary blood flow is established, their confounding effect on coronary vasoreactivity in response to an apneic stimulus, especially in coronary artery disease, is not known.

Methods: Six anesthetized control swine and eleven swine with coronary artery stenosis were examined. Nine different blood gas levels from a combination of arterial partial pressure of oxygen (70, 100, and 300 mmHg) and carbon dioxide (30, 40, and 50 mmHg) were targeted. Apnea was induced by halting controlled positive pressure ventilation for 3–30s, while the left descending coronary artery flow was measured and reported relative to apnea duration, and at the adjusted mean (12s).

Results: At normoxemic-normocapnic blood gas levels, apnea increased coronary blood flow in proportion to the duration of apnea in the control (r = 0.533, p < 0.001) and stenosed groups (r = 0.566, p < 0.001). This culminated in a 42% (95% CI: 27–58) increase in controls (p < 0.001) and, to a lesser extent, 27% (15–40) in the presence of coronary artery stenosis (p < 0.001). Vasoreactivity was augmented by mild-hypoxemic levels [81% (65–97), and 66% (53–79) increase in flow respectively, p < 0.001 vs. normoxemia], but markedly reduced during hyperoxia (7.5% (−8.2–23) and 0.3% (−12–13), respectively, p < 0.001 vs. normoxemia).

Conclusion: Alterations of blood oxygen and carbon dioxide affect coronary vascular reactivity induced by apnea in swine, which was attenuated further in the presence of coronary stenosis. Especially hyperoxia significantly reduces coronary blood flow and blunts coronary vascular reactivity.

Item Type:	Journal Article (Original Article)
Division/Institute:	04 Faculty of Medicine > Department of Intensive Care, Emergency Medicine and Anaesthesiology (DINA) > Clinic and Policlinic for Anaesthesiology and Pain Therapy > Partial clinic Insel 04 Faculty of Medicine > Department of Intensive Care, Emergency Medicine and Anaesthesiology (DINA) > Clinic and Policlinic for Anaesthesiology and Pain Therapy
UniBE Contributor:	Fischer, Kady Anne, Günsch, Dominik
Subjects:	600 Technology > 610 Medicine & health
ISSN:	2813-480X
Language:	English
Submitter:	Anja Ebeling
Date Deposited:	07 Jun 2023 14:07
Last Modified:	09 Jun 2023 07:54
Publisher DOI:	10.3389/fanes.2022.997836
BORIS DOI:	10.48350/183228
URI:	https://boris.unibe.ch/id/eprint/183228

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Altered blood gas tensions of oxygen and carbon dioxide confound coronary reactivity to apnea

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