Objective Measurement of Physician Stress in the Emergency Department Using a Wearable Sensor

Kaczor, Eric E.; Carreiro, Stephanie; Stapp, Joshua; Chapman, Brittany P.; Indic, Premananda

doi:10.24251/hicss.2020.456

Cited by 27 publications

(16 citation statements)

References 20 publications

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“…From a future research perspective, continued refinement and testing of appropriate measures is a critical future step for this area of research, and may benefit from increased inclusion of less obtrusive, more objective measures. For example, researchers have examined the potential use of psychophysiological responses as a measure of physicians’ cognitive demands while on the job (Johannessen, Szulewski, Radulovic, White, Braund, Howes, Rodenburg, & Davies, 2020), while others are developing methods for objectively capturing physician stress using wearable sensors (Kaczor, Carreiro, Stapp, Chapman, & Indic, 2020). These types of metrics may be very useful for dynamically monitoring healthcare professionals’ physical demands and workload during virus epidemics and pandemics.…”

Section: Discussionmentioning

confidence: 99%

Job Demands and Resources among Healthcare Professionals during Virus Pandemics: A Review and Examination of Fluctuations in Mental Health Strain during COVID‐19

et al. 2021

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The present article examines how job demands and resources are related to indices of strain among healthcare professionals during virus pandemics. The article also presents the results of a study examining the relationships between COVID‐19 demands (e.g., lack of personal protective equipment, concerns about infecting family members), resources (meaningful work, social support), and mental health strain within a sample of emergency medicine personnel over six consecutive weeks. COVID‐related demands and hours worked were hypothesized to be positively related to mental health strain, whereas meaningful work and social support were hypothesized to be negatively related to mental health strain. Hours worked the prior week were hypothesized to exacerbate the positive relationships between COVID‐19 demands and mental health strain, whereas the resources of meaningful work and social support were expected to buffer the relationships. Multilevel models controlling for mental health strain the prior week revealed that COVID‐19 demands, along with hours worked, were each related to higher mental health strain during the week. Hours worked magnified the within‐person relationship between personal COVID‐19 demands and mental health strain. Contrary to hypotheses, social support and meaningful work were not related to mental health strain. Discussion focuses the implications of the findings for healthcare professionals.

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Section: Discussionmentioning

confidence: 99%

Job Demands and Resources among Healthcare Professionals during Virus Pandemics: A Review and Examination of Fluctuations in Mental Health Strain during COVID‐19

et al. 2021

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“…As a medical-grade wearable device, it enables researchers to collect multiple physiological data such as BVP for HRV analysis, and EDA that reflects the constantly fluctuating electrical properties of a certain area of skin and peripheral skin temperature. Besides, it also captures motion activity with a 3-axis accelerometer [ 80 , 81 , 82 , 83 ].…”

Section: Medical Devices or Wearable Sensors Used In Pain And Strementioning

confidence: 99%

“… Notes: Empatica E4 wrist band is used in [ 80 , 81 , 82 , 83 ]; AutoSense is used in [ 84 , 85 , 86 ]; SleepSense is used in [ 87 , 88 ]; BN-PPGED is used in [ 89 ]; Cardiosport TP3 is used in [ 90 ]; Q-sensor is used in [ 70 ]; Wahoo chest belt is used in [ 91 ]; BioHarness 3, Shimmer sensor, and MindWave mobile EEG headset are being used as an integrated system for stress monitoring in [ 92 ]; DataLOG is used in [ 93 ]; Device 1 is a EEG wearable sensor developed in Online Predictive Tools for Intervention in Mental Illness (PTIMI) project funded by European Union [ 94 ]; Device 2 is a noninvasive physiological sensor for stress assessment presented in [ 95 ]; Device 3 is used in [ 96 ] which they collect the EMG signals of the left trapezius muscle and then remove the contained ECG signal components. …”

Section: Medical Devices or Wearable Sensors Used In Pain And Strementioning

confidence: 99%

Pain and Stress Detection Using Wearable Sensors and Devices—A Review

Chen

Abbod

Shieh

2021

Sensors

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Pain is a subjective feeling; it is a sensation that every human being must have experienced all their life. Yet, its mechanism and the way to immune to it is still a question to be answered. This review presents the mechanism and correlation of pain and stress, their assessment and detection approach with medical devices and wearable sensors. Various physiological signals (i.e., heart activity, brain activity, muscle activity, electrodermal activity, respiratory, blood volume pulse, skin temperature) and behavioral signals are organized for wearables sensors detection. By reviewing the wearable sensors used in the healthcare domain, we hope to find a way for wearable healthcare-monitoring system to be applied on pain and stress detection. Since pain leads to multiple consequences or symptoms such as muscle tension and depression that are stress related, there is a chance to find a new approach for chronic pain detection using daily life sensors or devices. Then by integrating modern computing techniques, there is a chance to handle pain and stress management issue.

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“…Most studies in the literature that try to determine stress levels use a combination of several parameters extracted from one or more physiological signals. Features extracted from EDA are used most often [5,6,8,15,22,23,[41][42][43][44][45][46][47], closely followed by features extracted from the cardiac cycle [5, 6, 15, 16, 21-23, 41, 42, 44, 46, 47]. These last studies mainly use an ECG monitor in different forms to extract the signal [5, 6, 15, 16, 21-23, 41, 42].…”

Section: Journal Of Sensorsmentioning

confidence: 99%

Making Wearable Technology Available for Mental Healthcare through an Online Platform with Stress Detection Algorithms: The Carewear Project

Debard

Witte²,

Sels

et al. 2020

Journal of Sensors

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Over the past years, mobile health (mHealth) applications and specifically wearables have become able and available to collect data of increasing quality of relevance for mental health. Despite the large potential of wearable technology, mental healthcare professionals are currently lacking tools and knowledge to properly implement and make use of this technology in practice. The Carewear project is aimed at developing and evaluating an online platform, allowing healthcare professionals to use data from wearables in their clinical practice. Carewear implements data collection through self-tracking, which is aimed at helping people in their behavioral change process, as a component of a broader intervention or therapy guided by a mental healthcare professional. The Empatica E4 wearables are used to collect accelerometer data, electrodermal activity (EDA), and blood volume pulse (BVP) in real life. This data is uploaded to the Carewear platform where algorithms calculate moments of acute stress, average resting heart rate (HR), HR variability (HRV), step count, active periods, and total active minutes. The detected moments of acute stress can be annotated to indicate whether they are associated with a negative feeling of stress. Also, the mood of the day can be elaborated on. The online platform presents this information in a structured way to both the client and their mental healthcare professional. The goal of the current study was a first assessment of the accuracy of the algorithms in real life through comparisons with comprehensive annotated data in a small sample of five healthy participants without known stress-related complaints. Additionally, we assessed the usability of the application through user reports concerning their experiences with the wearable and online platform. While the current study shows that a substantial amount of false positives are detected in a healthy sample and that usability could be improved, the concept of a user-friendly platform to combine physiological data with self-report to inform on stress and mental health is viewed positively in our pilots.

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Objective Measurement of Physician Stress in the Emergency Department Using a Wearable Sensor

Cited by 27 publications

References 20 publications

Job Demands and Resources among Healthcare Professionals during Virus Pandemics: A Review and Examination of Fluctuations in Mental Health Strain during COVID‐19

Job Demands and Resources among Healthcare Professionals during Virus Pandemics: A Review and Examination of Fluctuations in Mental Health Strain during COVID‐19

Pain and Stress Detection Using Wearable Sensors and Devices—A Review

Making Wearable Technology Available for Mental Healthcare through an Online Platform with Stress Detection Algorithms: The Carewear Project

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