This study assessed the feasibility and effectiveness of using Mixed Reality (MR) through the use of HoloLens2TM technology to enhance emergency clinical care delivery in a simulated environment. This was achieved by inviting 22 resident grade doctors to complete two scenarios. Each scenario was supported either by standard care methods or Mixed reality. The participants were randomised to at the start of the scenarios to determine which support they would receive first. The main outcome was to see if there was difference in error rates. This was assessed using the ICECAP multidimensional error capture tool. Secondary outcomes included teamwork, scenario completion, stress/cognitive load, and Mixed reality device user acceptability.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
22
Participants assigned to Mixed Reality-supported care used the HoloLens2 device, which provided support using technology that was permitted by the device. This support included remote assistance and holographic versions of patient-specific investigation results, such as radiological findings, biochemistry, and guidelines for completing the procedure (insertion of chest drain).
The standard care for the intervention involved participants performing the invasive technical procedure to treat a tension pneumothorax using their standard clinical skills and knowledge, without the aid of the HoloLens2 device. The participants in the standard care group did not receive any additional support or guidance beyond what is typically available in a clinical setting. The goal of the study was to compare the effectiveness of the standard care approach with the use of Mixed Reality-supported care using the HoloLens2 device.
Department of Surgery and Cancer Imperial College London
London, United Kingdom
Error Rate
The primary outcome measure for this study was the error rate, which was assessed using the ICECAP tool (Imperial College Error CAPture). This is a validated, multidimensional tool that assesses errors across several domains, including equipment, communication, technical aspects, patient-related factors, procedure-independent pressures, and a category for capturing any other errors that are not specified. Using the ICECAP tool provides a comprehensive assessment of errors and allows for identifying areas of improvement across multiple domains. Each time an error is observed the participant is attributed 1 score per error within the respective category. The total number of errors is accumulated throughout completion of the scenario. The error is reported as a sum of the total errors observed, as well as per category to determine if there is any specific areas that error rate is impacted.
Time frame: Through study completion, an average of 8 minutes per scenario
Scenario completion success
The secondary outcome measure was the successful completion of the clinical scenario. This was determined by the simulation team assessing whether the participant was able to successfully insert the chest drain and complete a life-saving intervention in the simulated environment. If the participant was unable to appropriately insert the chest drain, this was considered an adverse outcome for the simulated patient, and thus the scenario was deemed unsuccessful.
Time frame: Through study completion, an average of 8 minutes per scenario
Scenario completion duration
The secondary outcome measure was the time taken to complete the clinical scenario. This was recorded by the simulation team from the initiation of the scenario to the successful completion, which involved both the insertion of the chest drain and the completion of the intervention. If the participant expressed their desire to discontinue the intervention, this was also recorded as the endpoint of the scenario.
Time frame: Through study completion, an average of 8 minutes per scenario
Team performance
The OTAS tool (Observational Teamwork Assessment for Surgery) is a validated scale that is commonly used to assess team performance in surgery. It is a structured observation tool that allows for the assessment of teamwork in the operating room setting, and it has been shown to have good inter-rater reliability and construct validity. The tool can also be used to compare the performance of individual team members and to determine how the use of technology influences cognitive load and individual perspective performance. For example, studies have used the OTAS tool to evaluate the impact of laparoscopic surgery on team performance and to determine how the use of surgical robots affects teamwork and communication in the operating room.
Time frame: Through study completion, an average of 8 minutes per scenario
Team performance
The T-SAW-C Tool (Teamwork Skills Assessment for Ward Care) was used by observers to assess teamwork during the simulated scenarios. This tool measures various aspects of teamwork, such as communication, coordination, and cooperation, and has been validated for use in healthcare settings. By including this information, it clarifies the measurement tool being used to assess the specific outcome measure of interest.
Time frame: Through study completion, an average of 8 minutes per scenario
Team workload
The NASA Task Load Index (TLX) is a subjective multidimensional assessment tool that rates perceived workload in order to assess a task, system, or team's effectiveness or other aspects of performance. It uses a Likert scale with six domains, each attributed a weight ranging from 0 to 5. The scale ratings are scored based on where the user marked the scale. Tick marks range from 0 to 100 by 5 point increments, and scores are given for the tick at or immediately above the mark. Higher scores indicate a greater perceived workload.
Time frame: Through study completion, an average of 8 minutes per scenario
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.