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New Study Investigates Impact of General Ward Clinical Monitoring

Article-New Study Investigates Impact of General Ward Clinical Monitoring

Masimo Root.jpg
Using Masimo Root®, Radius-7®, and Patient SafetyNet™ on Clinical Workflow and Patient Care

Recently published study by researchers at Dartmouth-Hitchcock Medical Center investigated the impact of an integrated clinical monitoring system, using various Masimo technologies and devices, on clinical workflow and patient care in the general ward. The researchers sought to “demonstrate the application of systems-level design and analysis to measure the impact of clinical monitoring on key workflow and system characteristics that contribute to early detection of patient deterioration.”1

To evaluate workflow impact through use of the enhanced monitoring system, Dr. McGrath and colleagues collected data in a study unit consisting of two general wards with 71 beds total for five months prior to and five months after implementation. They also collected the same data for the full 10 months in a control unit consisting of two general wards with 61 beds total, which did not have any system changes. 

In both the study and control units, prior to implementation, the baseline monitoring system consisted primarily of Masimo Rad-87® Pulse CO-Oximeters®, for continuous and spot-check (vital signs) measurements using Masimo SET® pulse oximetry, and Masimo Patient SafetyNet™, a supplemental remote monitoring and clinician notification system, used for data processing and archiving. 

The enhanced monitoring system, implemented in the study unit, added Masimo Root® with Radius-7® wearable Pulse CO-Oximeters. Root is a patient monitoring and connectivity platform that includes features such as built-in blood pressure and temperature measurements, a barcode reader and integration with the hospital’s admission-discharge-transfer (ADT) system, and integration with Patient SafetyNet and the hospital’s electronic medical record (EMR) system for automated capture of patient monitoring and vital signs data, including from connected third-party devices. Radius-7 is a tetherless, wearable monitor that allows patients to be mobile while still being continuously monitored, with data sent wirelessly via Bluetooth® or WiFi to Root, eliminating the need for nurses to manually place bedside monitors in standby mode and disconnect sensors each time a patient leaves the bed.

Key points of comparison and results included:
Monitoring system utilization: The researchers noted a significant increase in the number of hours patients were continuously monitored after implementation. Monitored hours per patient day increased from mean 17.26 hours to 19.57 hours (p < 0.0001) and monitored hours per month from mean 15,931.25 hours to 19,053.3 hours (p < 0.0001). 

Vital signs documentation: With the implementation of Root and its ability to automatically upload patient data, including pulse oximetry and blood pressure and temperature measurements, to Patient SafetyNet and the EMR, researchers noted a significant decrease in the time required to obtain and record vital signs: mean assessment time dropped from 178.8 seconds to 128.9 seconds (p < 0.0001), representing an average time savings of 3 hours per day in a 36-bed unit. 

Patient information: The researchers measured the rate at which certain patient data fields were filled out in the EMR for one month before and after implementation. Patient last name presence increased from 98.92 percent to 100 percent presence (p = 0.0083). Patient first name and room and bed presence increased from 33.75 percent and 57.27 percent, respectively, to 100 percent (p < 0.0001). 

Clinical staff satisfaction: Three months after implementation, hospital staff feedback was solicited in a 16-question survey which had a 65 percent response rate and overall “very high” satisfaction with the enhanced monitoring system. 

Alarms: The researchers found that there was a significant increase in the number of clinical alarms per patient day (rate ratio 1.46, p = 0.0263) but not per monitored hour (rate ratio 1.34, p = 0.1090), which they believe is “logical when considering [the] additional time each patient [was] monitored.”

The researchers concluded, “The enhanced monitoring system received high staff satisfaction ratings and significantly improved key clinical elements related to early recognition of changes in patient state, including reducing average vital signs data collection time by 28 percent, increasing patient monitoring time (rate ratio 1.22), and availability and accuracy of patient information. Impact on clinical alarms was mixed, with no significant increase in clinical alarms per monitored hour.”

In previous studies conducted at Dartmouth-Hitchcock, researchers found that continuous monitoring of adult post-surgical patients using Masimo SET®, in conjunction with Masimo Patient SafetyNet, resulted in a 65 percent reduction in rapid response team activations and a 48 percent reduction in transfers back to the ICU.2 Over five years, they achieved their goal of zero preventable deaths or brain damage due to opioids,3 and over 10 years, they maintained a 50 percent reduction in unplanned transfers and a 60 percent reduction in rescue events, despite increase in patient acuity and occupancy.4

Joe Kiani, Founder, and CEO of Masimo, said, “We are incredibly grateful to Dartmouth-Hitchcock for their continued long-term research into the utility of continuous patient monitoring on the general floor and the benefits that holistic, integrated monitoring systems can provide. Continuous monitoring of all patients on opioids is clearly the path forward, with the potential to make significant improvements in patient safety and quality of care. We look forward to continuing to learn from Dartmouth-Hitchcock’s data and to improve our technologies and integrated solutions.”

The use of the trademark Patient SafetyNet is under license from University HealthSystem Consortium.

References
1. McGrath S, Perreard I, Garland M, Converse K, and Mackenzie T. Improving patient safety and clinician workflow in the general care setting with enhanced surveillance monitoring. J Biomed Health Infor. DOI 10.1109/JBHI.2018.2834863.
2. Taenzer A et al. Impact of Pulse Oximetry Surveillance on Rescue Events and Intensive Care Unit Transfers: A Before-And-After Concurrence Study. Anesthesiology. 2010; 112(2):282-287.
3. Taenzer A et al. Postoperative Monitoring – The Dartmouth Experience. Anesthesia Patient Safety Foundation Newsletter. Spring-Summer 2012.
4. McGrath S et al. Surveillance Monitoring Management for General Care Units: Strategy, Design, and Implementation. The Joint Commission Journal on Quality and Patient Safety. 2016 Jul;42(7):293-302.

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