Feasibility of Wireless Continuous Vital Sign Monitoring and Impact on Patients Undergoing Adult Spinal Surgery in a General Ward

Overview

The goal of this feasibility study is to explore the use of wireless continuous vital sign monitoring in an orthopaedic setting among orthopaedic nurses and patients undergoing adult spinal deformity surgery. In addition to the standard care National Early Warning Score the participants in this study will be monitored by CPC12S a wearable sensor that is worn on the chest using electrodes measuring electrocardiography single lead (ECG), Heart rate, respiratory rate, SpO2, blood pressure and temperature. Main hypotheses: The use of wireless continuous vital sign monitoring in daily clinical practice for patients undergoing ASD surgery is feasible in terms of increased acceptability among orthopeadic surgical nurses measured over 12 months with a response rate of at least 80% with an average score of ≥5 at the last measurement in each of the four dimensions of the USE questionnaire: Usefulness, ease of use, ease of learning and satisfaction. The following parameters will be evaluated: Primary outcome: 1. The feasibility in terms of acceptability of the concept of wCVSM among orthopedic surgical ward nurses. Secondary outcomes: 2. The feasibility in terms of acceptability of the concept of wCVSM in patients undergoing ASD surgery. 3. The technical fidelity of wCVSM, assessed by data collected of vital signs, display of alerts to staff nurses and response to the alerts. 4. The frequency of vital sign deviations in patients after ASD surgery using wCVSM compared to NEWS2. 5. Clinical outcomes of patients undergoing ASD surgery including surgical complications, reinterventions, ICU admissions, unplanned ward transfer, and admissions to another department.

Patients undergoing adult spinal deformity surgery (ASD) is associated with high complication rate and long postoperative recovery (Bess et al., 2023). Patients undergoing ASD surgery are particularly susceptible to adverse events such as electrolyte imbalance, cardiac arrhythmia, anemia, hypotension, fever of unknown origin (Karstensen et al., 2016; Solumsmoen et al., 2021). Additionally, patients undergoing ASD surgery is also associated with severe postoperative pain, often requiring high levels of pain medication (Lamperti et al., 2017; Waelkens et al., 2021), there can lead to decreased respiration rate, sedation, and dizziness (Benyamin et al., 2008).Patients undergoing ASD surgery have a readmission percent within 30 days of 11,8 % and a 2-year all-cause mortality of 3% (Bari et al., 2020). To ensure safety in patients undergoing ASD surgery, nurses must monitor vital signs to assess patients' health condition and act promptly when signs of clinical deterioration become evident. NEWS2 system is used to identify these early signs of clinical deterioration (Smith et al., 2019). The scoring system relies on six simple physiological parameters, including blood pressure, pulse, respiratory rate, peripheral oxygen saturation, temperature, level of consciousness and an associated algorithm (Smith et al., 2019). Since measurements with NEWS2 are intermittent, they often provide a temporary view of the patient's condition, and the system may therefore overlook changes in the patient's condition that occur between measurement (Downey et al., 2017). Wireless continuous vital sign monitoring (wCVSM) offers an alternative to intermittent measurements. wCVSM systems can be defined as wearable technologies that enable continuous, real-time vital sign monitoring without direct contact between patients and health-care providers. These systems transmit vital sign data to an application on the nurses´ mobile phones, enabling the recognition of clinical deterioration in real time and facilitating a prompt response to patients' needs (Haahr-Raunkjaer et al., 2022; Leenen et al., 2020). To evaluate the feasibility of wCVSM, it is essential to assess its acceptability among orthopaedic surgical nurses and patients undergoing ASD surgery. Their perceptions and willingness to adopt this technology are essential for ensuring its practical integration, consistent use, and long-term sustainability in enhancing clinical outcomes and patient safety. This study will contribute to our understanding of wCVSM's potential to enhance patient safety, its applicability in clinical practice, and provide necessary considerations when implementing new technological equipment. In the current study patients undergoing ASD Surgery will, in addition to standard care the National Early Warning Score 2 (NEWS2) be monitored by wireless continuous vital sign monitoring (wCVSM) using the multiparameter ambulatory telemonitoring system CPC12S system and WARD-CSS application postoperatively. CPC12S is a wearable sensor that is worn on the chest using electrodes measuring electrocardiography single lead (ECG), Heart rate, respiratory rate, SpO2, blood pressure and temperature. The system can also be used to registration of body position and movement, but this will not be used in this study. Vital signs are updated every 20 seconds and measurements are transmitted via Bluetooth to an Android cell phone that is uploading the data via WIFI to a secured server. Once every 20 second the vital signs measurements will be transmitted to the CPC12S software system and when to the WARD application displayed on the electronic device Zebra carried by the nurses. The WARD-CSS application is combining innovative technology with evidence-based algorithms and allow earlier and more frequent detection of patient deterioration trough predictive algorithms (https://ward247.com/wp-content/uploads/2024/11/Instructions-for-Use-WARD-CSS-Version-1.3.x-English-US-v6-20241118\_185730.pdf.) The following parameters will be evaluated: Primary outcome: 1. The feasibility in terms of acceptability of the concept of wCVSM among orthopedic surgical ward nurses. Secondary outcomes: 2. The feasibility in terms of acceptability of the concept of wCVSM in patients undergoing ASD surgery. 3. The technical fidelity of wCVSM, assessed by data collected of vital signs, display of alerts to staff nurses and response to the alerts. 4. The frequency of vital sign deviations in patients after ASD surgery using wCVSM compared to NEWS2. 5. Clinical outcomes of patients undergoing ASD surgery including surgical complications, reinterventions, ICU admissions, unplanned ward transfer, and admissions to another department. Study design This feasibility study is designed as a single-arm prospective clinical cohort. Nurse acceptability: Acceptability by nurses will be measured longitudinally. Acceptability by nurses will be measured by the usefulness, satisfaction, and ease of use questionnaire. The questionnaire is translated into Danish guided by internationally accepted guidelines. All nurses and nurses' assistants employed on the ward (approx. n=50) will receive the (USE) questionnaire by e-mail at T1 baseline, T2 at 6 months, and T3 at 12 months. Patient acceptability: Patient acceptability will be measured cross-sectional by the System Usability Scale (SUS) questionnaire (Brooke, 1995). Patients will receive the SUS questionnaire on paper before discharge. Fidelity: Fidelity will be measured prospectively and will focus on the functioning of the continuous monitoring system and will be obtained by analysis of the collected data. Outcomes will be total monitoring time, total number of artefacts (if nonvalid measurement is recorded), number of alerts (system and vital sign), and response to alerts will be assessed using the response buttons on the WARD application. Frequency of deviations in vital signs in patients after ASD surgery using wCVSM compared to NEWS2 will be measured by following: 1. How many deviations are detected per patient per day with wCVSM. 2. How many deviations are detected per patient per day with NEWS2 3. How often does wCVSM detect deviations that do not appear in NEWS2 measurements. Clinical outcomes include length of stay, surgical complications according to the Clavien Dindo classification, reinterventions, unplanned ward transfer, and unplanned ICU admissions. Analysis Data analysis will be conducted using descriptive statistics. Continuous data will be calculated for normal distribution by medians and interquartile or means and standard deviations (SD). Every parameter will be checked for normality by the Shapiro-Wilk test and visually by a histogram. The results from the questionnaires will be analyzed and reported as continuous data.