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Variations in respiratory rate do not reflect changes in tidal volume or minute ventilation after major abdominal surgery

Oscar F. C. van den Bosch, Ricardo Álvarez-Jiménez, Marinka M H Stam, Frank C. den Boer, Stephan A. Loer

2020Journal of Clinical Monitoring and Computing11 citationsDOIOpen Access PDF

Abstract

Abstract Monitoring of postoperative pulmonary function usually includes respiratory rate and oxygen saturation measurements. We hypothesized that changes in postoperative respiratory rate do not correlate with changes in tidal volume or minute ventilation. In addition, we hypothesized that variability of minute ventilation and tidal volume is larger than variability of respiratory rate. Respiratory rate and changes in tidal volume and in minute ventilation were continuously measured in 27 patients during 24 h following elective abdominal surgery, using an impedance-based non-invasive respiratory volume monitor (ExSpiron, Respiratory Motion, Waltham, MA, US). Coefficients of variation were used as a measure for variability of respiratory rate, tidal volume and minute ventilation. Data of 38,149 measurements were analyzed. We found no correlation between respiratory rate and tidal volume or minute ventilation (r 2 = 0.02 and 0.01). Mean respiratory rate increased within the first 24 h after abdominal surgery from 13.9 ± 2.5 to 16.2 ± 2.4 breaths/min ( p = 0.008), while tidal volume and minute ventilation remained unchanged ( p = 0.90 and p = 0.18). Of interest, variability of respiratory rate (0.21 ± 0.06) was significantly smaller than variability of tidal volume (0.37 ± 0.12, p < 0.001) and minute ventilation (0.41 ± 0.12, p < 0.001). Changes in postoperative respiratory rate do not allow conclusions about changes in tidal volume or minute ventilation. We suggest that postoperative alveolar hypoventilation may not be recognized by monitoring respiratory rate alone. Variability of respiratory rate is smaller than variability in tidal volume and minute ventilation, suggesting that adaptations of alveolar ventilation to metabolic needs may be predominately achieved by variations in tidal volume.

Topics & Concepts

Tidal volumeRespiratory minute volumeVentilation (architecture)Respiratory rateMedicineRespiratory systemAnesthesiaHypoventilationHeart rateInternal medicineBlood pressureMechanical engineeringEngineeringRespiratory Support and MechanismsNeonatal Respiratory Health ResearchHemodynamic Monitoring and Therapy
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