News
Robot helps nurses schedule tasks on labor floor
Jul 13, 2016
“The aim of the work was to develop artificial intelligence that can learn from people about how the labor and delivery unit works, so that robots can better anticipate how to be helpful or when to stay out of the way — and maybe even help by collaborating in making challenging decisions,” says MIT professor Julie Shah, the senior author on the study, which took place at Beth Israel Deaconess Medical Center in Boston.
Citation for the Full-text Article
Conner-Simons A., Robot helps nurses schedule tasks on labor floor. MIT News. July 13, 2016.
Related CRICO Link
Robotic Assistance in Coordination of Patient Care.
Latest News from CRICO
Get all your medmal and patient safety news here.
Improving CG-CAHPS, the Secret Sauce
News
The best way to improve clinician and group consumer assessment of healthcare providers and systems scores is to to stop talking about them and just focus on what matters, says Richard Corder, AVP of Business Development at CRICO Strategies, in HealthStream's inaugral issue of PX Advisor.
EHR-Related Events in Medical Malpractice Claims
News
Analysis of a CRICO medical malpractice claims study of cases involving health IT
“Circle Up”: Workflow Adaptation and Psychological Support via Briefing, Debriefing, and Peer Support
News
The “Circle Up” process featured in this commentary was implemented during the COVID-19 pandemic to aid frontline health care workers. It was informed by the findings of a CRICO-funded grant project that is researching “adverse events through in-situ debriefing and the spaced practice of speaking up.” The project is led by Jenny Rudolph, PhD at Massachusetts General Hospital.
Patient and Provider Perspectives on Mammographic Breast Density Notification Legislation
News
The objective of this CRICO co-funded research was to elicit qualitative information from multiple stakeholders to understand varied perspectives on the subject of mammographic breast density (MBD) notification and inform best practices around implementation.