The Oxygen Reserve Index (ORi) is a groundbreaking, non-invasive monitoring parameter that provides anesthesiologists with crucial insights into a patient’s oxygenation status. As a relatively recent innovation in the field of perioperative monitoring, ORi offers a new dimension to oxygen monitoring, especially in the moderate hyperoxia range, where traditional pulse oximetry reaches its limitations. By improving the early detection of oxygenation changes, ORi enables better decision-making and enhances patient safety during various anesthetic and critical care scenarios.
Historical Background
The development of ORi stems from a longstanding challenge in anesthesiology: accurately monitoring oxygenation in patients, especially in the upper ranges of oxygen saturation (SpO2). Traditional pulse oximetry, which became widespread in the 1980s, revolutionized patient monitoring by providing continuous, non-invasive measurements of SpO2. However, its utility diminishes at higher SpO2 levels, particularly above 98%, where it becomes less sensitive to changes in oxygenation.
In response to this limitation, Masimo Corporation introduced ORi as part of their advanced pulse CO-oximetry technology. ORi was designed to bridge the gap between pulse oximetry and arterial blood gas (ABG) analysis by providing a real-time estimate of the oxygen reserve in the moderate hyperoxic range. This development has marked a significant step forward in patient monitoring, particularly in anesthesia and critical care.
Understanding ORi
ORi is measured on a unitless scale ranging from 0.00 to 1.00, corresponding to a partial pressure of arterial oxygen (PaO2) in the range of approximately 100 to 200 mmHg. This metric complements traditional pulse oximetry, which becomes less informative at higher oxygen saturation levels (SpO2 > 98%). By providing additional information about the oxygen reserve, ORi alerts clinicians to impending desaturation earlier than standard pulse oximetry.
How ORi Works
ORi is derived from the analysis of light absorption in blood, similar to how pulse oximetry works. However, ORi utilizes multiple wavelengths of light beyond those used in conventional pulse oximetry (which typically uses red and infrared light). The additional wavelengths allow ORi to detect subtle changes in the absorption characteristics of hemoglobin that occur at higher oxygen levels, where traditional pulse oximetry is less sensitive.
Specifically, ORi technology involves the following steps:
- Multi-Wavelength Spectroscopy: ORi-capable sensors, such as those in the Root® with Radical-7® Pulse CO-Oximeter® (Masimo Corp.), emit multiple wavelengths of light through the patient’s tissue. These wavelengths are carefully selected to provide information on both arterial and venous blood, enhancing the sensitivity to changes in oxygenation within the hyperoxic range.
- Light Absorption Analysis: The sensor detects the amount of light absorbed by the blood at each wavelength. The absorption patterns are then analyzed using advanced algorithms that account for the specific optical properties of hemoglobin at various oxygenation levels.
- ORi Calculation: Based on the analysis, the ORi value is calculated, reflecting the patient’s oxygen reserve status. This calculation is particularly useful in the PaO2 range of 100 to 200 mmHg, where traditional SpO2 monitoring offers limited insight.
- Real-Time Monitoring: ORi provides real-time feedback on the patient’s oxygenation status, allowing clinicians to make timely adjustments to oxygen therapy and other interventions.
Clinical Applications
1. Predicting Hypoxemia
ORi has been shown to predict impending hypoxemia approximately 30 seconds before a decrease in SpO2 is observed. This early warning capability is invaluable during high-risk procedures, such as rapid sequence induction (RSI) or in pediatric patients, where oxygen desaturation can occur rapidly and unexpectedly. Anesthesiologists can use ORi to anticipate and prevent critical oxygen deficits, improving overall patient outcomes.
2. Optimizing Preoxygenation
During the induction of anesthesia, ORi can be utilized to monitor the adequacy of preoxygenation. Effective preoxygenation is crucial to prevent hypoxemia during intubation, and ORi provides real-time feedback that can guide adjustments in oxygen delivery before the airway is secured.
3. Managing Oxygen Administration
ORi allows for precise titration of oxygen therapy, avoiding both hypoxemia and hyperoxia. Excessive oxygen administration can be harmful, particularly in patients with chronic obstructive pulmonary disease (COPD) or premature infants at risk of retinopathy. With ORi, anesthesiologists can tailor oxygen delivery to maintain optimal levels, improving patient safety across a variety of clinical scenarios.
4. One-Lung Ventilation
ORi has demonstrated utility during one-lung ventilation, where it can detect decreases in PaO2 earlier than conventional SpO2 monitoring. This early detection allows anesthesiologists to intervene more promptly, reducing the risk of hypoxic complications.
5. ICU Applications
In the intensive care unit (ICU), ORi can be helpful during endotracheal suctioning and other procedures that may impact oxygenation. By providing early indications of oxygenation changes, ORi can assist in timely interventions, potentially reducing the incidence of severe desaturation.
Limitations and Considerations
While ORi offers significant advantages, it is important to acknowledge its limitations:
- SpO2 Threshold: ORi only provides positive values when SpO2 is above 98%. Below this threshold, the index does not offer additional information, limiting its applicability in certain hypoxic conditions.
- Interference: Factors such as patient movement, low blood perfusion, and the administration of pigmented intravenous drugs can interfere with ORi readings. Anesthesiologists must be aware of these variables and interpret ORi data accordingly.
- Device Compatibility: Different versions of ORi-capable sensors and software may produce varying results. Careful consideration is necessary when comparing data across different devices and studies.
Future Perspectives
The potential of ORi extends beyond the operating room. Its non-invasive nature makes it suitable for use in general ward monitoring and even during infectious disease management, such as the COVID-19 pandemic. By reducing the need for frequent invasive blood gas analyses, ORi may lower the risk of infection transmission and improve patient comfort.
Conclusion
The Oxygen Reserve Index represents a significant advancement in the field of oxygenation monitoring for anesthesiologists. By offering early warning of impending hypoxemia and enabling more precise oxygen administration, ORi has the potential to enhance patient safety and optimize oxygen therapy in various clinical settings. Anesthesiologists should become familiar with both the advantages and limitations of ORi to effectively incorporate this novel tool into their practice. Further research is needed to fully understand its impact on patient outcomes and its role in different clinical scenarios.
References
- Oxygen Reserve Index | Anesthesiology – ASA Publications. Available at: https://pubs.asahq.org/anesthesiology/article/124/4/779/14330/Oxygen-Reserve-IndexA-Novel-Noninvasive-Measure-of
- ORi™: A New Indicator of Oxygenation | Journal of Anesthesia. Available at: https://link.springer.com/article/10.1007/s00540-021-02938-4
- The Oxygen Reserve Index (ORI): A New Tool to Monitor Oxygen Therapy. Available at: https://link.springer.com/article/10.1007/s10877-017-0049-4
- Perioperative Monitoring of the Oxygen Reserve: Where Do We Stand? Available at: https://link.springer.com/article/10.1007/s10877-023-01085-3
- Usefulness of Oxygen Reserve Index (ORi) in Clinical Practice. Available at: https://www.termedia.pl/Usefulness-of-oxygen-reserve-index-ORi-in-clinical-practice,67,52153,1,1.html
- Oxygen Reserve Index, A New Method of Monitoring Oxygenation Status. Available at: https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7028177/
- Oxygen Reserve Index: Utility as an Early Warning for Desaturation. Available at: https://pubmed.ncbi.nlm.nih.gov/32815872/
- Oxygen Reserve Index as a Tool to Monitor Four Techniques … – MDPI. Available at: https://www.mdpi.com/2076-2615/13/19/3077
- Clinical Evidence – Oxygen Reserve Index™ (ORi™) – Masimo. Available at: [https://professional.masimo.com/evidence/pulse-co-oximetry/ori/](https://professional.masimo.com/evidence/pulse-co-ox