Monifa Vaughn-Cooke scite author profile

Assessing the performance at self-management of patients with CKD is essential for effective strategies to safeguard care. We evaluated the use of a sick-day protocol with structured usability testing by patients with CKD. The Sick-Day Protocol is a selfmanagement protocol developed by National Health Service Highland in Scotland to prevent AKI, and it is made available through the Scottish Patient Safety Program on a "Medicine Sick Day Rules" card (1). The Sick-Day Protocol card describes a gastrointestinal or fever-related and volume-depleting illness; then, it directs patients to withhold specified medications and resume them when well (after 24-48 hours of eating and drinking normally). Five medication classes and examples are listed, including angiotensinconverting enzyme inhibitors, angiotensin receptor blockers, diuretics, nonsteroidal anti-inflammatory drugs, and metformin. We recruited volunteers with stages 3-5 CKD from the Safe Kidney Care program (2). All participants independently scheduled and completed testing. The protocol was deemed exempt by the University of Maryland Baltimore Institutional Review Board. Usability testing sessions were conducted in a private room by a moderator and recorder. Participants were educated about the purpose of the Sick-Day Protocol and qualifying illnesses. The moderator presented the card to all participants and requested each to summarize it in their own words. The study team developed four scenarios representing commonly encountered medical problems. All were reviewed and adjudicated by two physicians (C.J.D. and J.C.F.) for clinical validity and population suitability. Participants were presented the scenarios, including one for which the Sick-Day Protocol would be appropriately activated (index) and one with nonqualifying illnesses, including nephrolithiasis, congestive heart failure, and a "minor" gastrointestinal illness. One half of the sample had scenarios presented in a fixed sequence, starting with the index. The remainder had the scenarios presented randomly. The moderator reviewed the mock patient's medications and comorbidities in each scenario and then, provided mock medication bottles. Participants were asked about the appropriateness of the Sick-Day Protocol, if any of the mock medications should be withheld in each scenario, and if so, which ones. Completion of each task was classified as a success or error. After completing

show abstract

Evaluating Medical Devices Remotely: Current Methods and Potential Innovations

McLaughlin

DeLucia

Drews

et al. 2020

Hum Factors

View full text Add to dashboard Cite

Objective We present examples of laboratory and remote studies, with a focus on studies appropriate for medical device design and evaluation. From this review and description of extant options for remote testing, we provide methods and tools to achieve research goals remotely. Background The FDA mandates human factors evaluation of medical devices. Studies show similarities and differences in results collected in laboratories compared to data collected remotely in non-laboratory settings. Remote studies show promise, though many of these are behavioral studies related to cognitive or experimental psychology. Remote usability studies are rare but increasing, as technologies allow for synchronous and asynchronous data collection. Method We reviewed methods of remote evaluation of medical devices, from testing labels and instruction to usability testing and simulated use. Each method was coded for the attributes (e.g., supported media) that need consideration in usability studies. Results We present examples of how published usability studies of medical devices could be moved to remote data collection. We also present novel systems for creating such tests, such as the use of 3D printed or virtual prototypes. Finally, we advise on targeted participant recruitment. Conclusion Remote testing will bring opportunities and challenges to the field of medical device testing. Current methods are adequate for most purposes, excepting the validation of Class III devices. Application The tools we provide enable the remote evaluation of medical devices. Evaluations have specific research goals, and our framework of attributes helps to select or combine tools for valid testing of medical devices.

show abstract

A cognitive decomposition to empirically study human performance in control room environments

Knisely

Joyner

Rutkowski

et al. 2020

International Journal of Human-Computer Studies

View full text Add to dashboard Cite

Information architecture for an Alzheimer’s communication monitoring system (ACMS)

Rahimi¹,

Vaughn-Cooke²

2007

View full text Add to dashboard Cite

Cognitive task analysis and workload classification

2021

View full text Add to dashboard Cite

Automation can be utilized to relieve humans of difficult and repetitive tasks in many domains, presenting the opportunity for safer and more efficient systems. This increase in automation has led to new supervisory roles for human operators where humans monitor feedback from autonomous systems and provide input when necessary. Optimizing these roles requires tools for evaluation of task complexity and resulting operator cognitive workload. Cognitive task analysis is a process for modeling the cognitive actions required of a human during a task. This work presents an enhanced version of this process: Cognitive Task Analysis and Workload Classification (CTAWC). The goal of developing CTAWC was to provide a standardized process to decompose cognitive tasks in enough depth to allow for precise identification of sources of cognitive workload. CTAWC has the following advantages over conventional CTA methodology: Integrates standard terminology from existing taxonomies for task classification to describe expected operator cognitive workload during task performance. Provides a framework to evaluate adequate cognitive depth when decomposing cognitive tasks. Provides a standard model upon which to build an empirical study to evaluate task complexity.

show abstract

scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.

Contact Info

customersupport@researchsolutions.com

10624 S. Eastern Ave., Ste. A-614

Henderson, NV 89052, USA

This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.

Blog Terms and Conditions API Terms Privacy Policy Contact Cookie Preferences Do Not Sell or Share My Personal Information

Made with 💙 for researchers

Part of the Research Solutions Family.