Many challenges arise when trying to appropriately measure a patients INR and titirate their medications. Additionally, many complications arise when this is not done correctly. The microINR provides a possible informatics solution to many of these problems.
Improving Accuracy and Saving Time: Electronic Vitals Documentation
Vitals signs are perhaps the most fundamental component of patient evaluation. Although there
is overwhelming agreement that vital signs are crucial to both detecting and responding to patient
status, the methods in which vital signs are documented in electronic health records (EHR) has
received limited attention in the research literature. Current practice is to document vital signs on
a piece of paper as they are being taken and then later transcribed to the EHR. This practice utilizes
poor use of clinical time, increases the chance of errors and causes a delay in clinical decision
making possibly leading to escalation of care.
This project intends to use evidence based technology methods to electronically document vital
signs in real time. This method of adopting an informatics based solution in a general medical
surgical unit will demonstrate quality improvement, improved safety and cost containment.
There was a lack of standardization of care for patients on venoarterial extracorporeal membrane oxygenation (VA ECMO) at Kettering Medical Center. This project discusses the creation and implementation of a standardized VA ECMO physician order set, VA ECMO anticoagulation embedded physician order set, nursing policy and guideline, and standardized electronic health record (EHR) documentation within an ECMO-specific Epic flowsheet.
Excerpts from live audio visual improvisation on May 5, 2017 at the Mockabee in Cincinnati, OH.
David McDonnell - reeds and electronics
Ofir Klemperer - electronics
Zach Larabee - percussion
Charles Woodman, Loraine Wible, Sayak Shome - images
This paper presents a prime aspect of Augmented and Virtual Reality development in the field of healthcare. We explored several recent works and articles and a comparison between generic application development and immersive technology-based application is included. The paper talks about more practical approaches that can be taken to enhance the effectiveness of the application.
The resources (infrastructure) to complete this study are provided by the University of Cincinnati’s Center for Simulation and Virtual Environment Research (UCSIM). And several experiments and projects in the field of health care are used as a reference to make conclusions.