The ability of Oxygen Reserve Index® to detect hyperoxia in critically ill patients

Courson, Hugues de; Julien-Laferrière, Thomas; Georges, Delphine; Boyer, Philippe; Verchère, Eric; Biais, Matthieu

doi:10.1186/s13613-022-01012-w

Cited by 13 publications

(8 citation statements)

References 32 publications

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“…The ORI also dropped to 0 on an occasion during a difficult tube change, but an immediate switch to ventilation from the side of the operative field prevented a significant drop in SpO 2 . After ORI decreases and reaches 0, SpO 2 begins to decrease; the speed to anticipate the desaturation by the ORI is much faster than SpO 2 [ 7 - 9 ]. Therefore, we can plan how to handle the critical situation to prevent hypoxia.…”

Section: Discussionmentioning

confidence: 99%

Anesthetic Management Using the Oxygen Reserve Index for Tracheal Resection and Tracheal End-to-End Anastomosis for a Malignant Thyroid Tumor With Tracheal Invasion

Yajima¹,

Ishida²,

Kobayashi³

et al. 2023

Cureus

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When tracheal invasion of cancerous diseases such as thyroid cancer occurs, tracheal resection followed by end-to-end anastomosis is a treatment of choice. Anesthetic management of the patient during this procedure may pose challenges, such as maintaining ventilation during tracheal dissection, resection of the tracheal invasion, and tracheal end-to-end anastomosis. Here, we have presented a case of a woman in her 50s. Computed tomography of the head and neck displayed a 31-mm mass in the medial lobe of the thyroid gland, and irregularities in the trachea and right tracheoesophageal groove. We decided to perform total thyroidectomy followed by tracheal resection and end-to-end tracheal anastomosis, as a radical treatment. Anesthetic management was successfully performed without a decrease in the peripheral blood oxygen saturation level, due to managing oxygenation by using the oxygen reserve index (ORI TM ) monitoring during the tracheostomy, tracheal infiltration division resection, and tracheal end-to-end suturing. This case was a unique situation requiring two intraoperative tube exchanges, but the ORI monitoring of oxygenation enabled safe anesthetic management.

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Section: Discussionmentioning

confidence: 99%

Anesthetic Management Using the Oxygen Reserve Index for Tracheal Resection and Tracheal End-to-End Anastomosis for a Malignant Thyroid Tumor With Tracheal Invasion

Yajima¹,

Ishida²,

Kobayashi³

et al. 2023

Cureus

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“…3). When SpO 2 , which is indisputable in the detection of hypoxemia, is 100% and reaches its maximum value, PaO 2 may be at high values and its level is unpredictable (4,11). The disadvantages of arterial blood gas analysis, which is the gold standard in hyperoxia detection and oxygen monitoring, such as being invasive, incurring extra cost, time delay, blood loss when repeated, having complications related to puncture, and inability to provide continuous data, lead to the limited use of this method and cause hyperoxia to be overlooked (3,12).…”

Section: Examination Of Hemodynamic and Other Parametersmentioning

confidence: 99%

“…and ORi together to prevent complications and mortality. (3.17 Although the European Society of Intensive Care Medicine consensus speci ed that there is enough data to recommend that both hypoxemia and hyperoxia should be avoided in TBI patients and agreed on a general normoxia recommendation with optimal PaO2 of 80-120 mmHg (10-16 kPa) in TBI patients with or without increased intracranial pressure, although speci c PaO2 targets need to be individualized (11,21).…”

Section: Changes Inmentioning

confidence: 99%

“…Oxygen is a double-edged sword, and although it was proven that its hyperoxia end has many pulmonary, cardiac, metabolic, vascular, and cerebral harmful effects and increases morbidity and mortality, studies reported that the average PaO 2 during general anesthesia is 206 mmHg (22) and even more than 500 mmHg in some case groups (4,16). Therefore, it is important to apply optimum oxygenation in a narrow therapeutic range (11).…”

Section: Changes Inmentioning

confidence: 99%

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Determination of the incidence of hyperoxia and the effectiveness of oxygen reserve index guided FiO2 titration in preventing hyperoxia.

Sarıtaş

Aykut

Merve

et al. 2023

Preprint

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Background Although pulse oximetry technology, which is considered the standard of care to ensure optimum oxygenation, is indispensable in clinical practice, especially in the detection of hypoxemia, it has some limitations in the detection of hyperoxemia. Oxygen Reserve Index (ORi™, Masimo Corp., Irvine, CA, USA) can provide clinicians with a crucial pathway in detecting and preventing hyperoxia, noninvasively. Our aim in this study is to determine the hyperoxia detection ability of ORi and to investigate the effectiveness of ORi and SpO2-guided FiO2 titration in preventing hyperoxia. Material and Methods In this prospective, randomized study, patients who would undergo major abdominal surgery were divided into two groups as the control group and the SpO2 + ORi group. In the SpO2 + ORi group, FiO2 titration was performed by trying to maintain the ORi between 0.00 and 95%<SpO2 ≤ 98%. In both groups, patients' SpO2, ORi, PaO2, PaCO2, PEEP, FiO2, and hemodynamic parameter values were recorded before induction, 10 minutes after intubation, and every hour during the operation. Results In the Ori + SpO2 group, a high level of positive linear relationship of 75.8% was found between PaO2 and ORI (p < 0.001). While moderate hyperoxia was observed in six people in the control group, it was not observed in the ORI + SpO2 group (3rd hour). In ORI + SpO2 group with FiO2 titration, PaO2 values decreased significantly over time (p < 0.001). The optimal cut-off ORi value, which can detect PaO2 ≥ 150 mmHg, was found to be 0.23 (Sensitivity = 100% Selectivity = 72.2%). Conclusion The combined use of SpO2 and ORi has been demonstrated to successfully guide FiO2 titration for optimal oxygenation and reduce hyperoxia.

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“…In critically ill patients, hyperoxia can lead to lung injury in addition to barotrauma caused by mechanical ventilation support (2). High arterial oxygen tension has potential risks, including hypercapnia, atelectasis, acute tracheobronchitis, pneumonia, acute hyperoxic acute lung injury, acute respiratory distress syndrome (ARDS), systemic vasoconstriction, and cardiac output depression (1, 5,8,9). Therefore, avoiding hyperoxia is essential for preventing ventilator-induced lung injury, and it should be considered as part of lung-protective ventilation strategies.…”

mentioning

confidence: 99%

Effectiveness of the oxygen reserve index in detecting and preventing hyperoxia in critically ill patients on mechanical ventilation: a randomized controlled trial

Sarıtaş,

Uzun Sarıtaş,

Uzun

2023

Croat Med J

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The ability of Oxygen Reserve Index® to detect hyperoxia in critically ill patients

Cited by 13 publications

References 32 publications

Anesthetic Management Using the Oxygen Reserve Index for Tracheal Resection and Tracheal End-to-End Anastomosis for a Malignant Thyroid Tumor With Tracheal Invasion

Anesthetic Management Using the Oxygen Reserve Index for Tracheal Resection and Tracheal End-to-End Anastomosis for a Malignant Thyroid Tumor With Tracheal Invasion

Determination of the incidence of hyperoxia and the effectiveness of oxygen reserve index guided FiO2 titration in preventing hyperoxia.

Effectiveness of the oxygen reserve index in detecting and preventing hyperoxia in critically ill patients on mechanical ventilation: a randomized controlled trial

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