Researchers develop novel tool which could improve serious illness conversations

·2-min read
Representative image
Representative image

Washington [US], July 6 (ANI): Conversations between seriously ill people, their families and palliative care specialists lead to a better quality of life. Understanding what happens during these conversations - and particularly how they vary by cultural, clinical, and situational contexts - is essential to guide healthcare communication improvement efforts.

To gain true understanding, new methods to study conversations in large, inclusive, and multi-site epidemiological studies are required. A new computer model offers an automated and valid tool for such large-scale scientific analyses.

The results of this model were published recently in the journal 'PLOS ONE'.

Developed by a team of computer scientists, clinicians and engineers at the University of Vermont, the approach - called CODYM (COnversational DYnamics Model) analysis - uses simple behavioral state-based models (Markov Models) to capture the flow of information during different conversations, based on patterns in the lengths of alternating speaker turns.

To date, the conversation analysis process has typically relied on time-consuming manual transcription, detailed annotations, and required access to the highly private content of conversations.

"CODYMs are the first Markov Model to use speaker turn length as the fundamental unit of information and the first model of any type to provide concise, high-level, quantitative summaries of overall dependencies in sequences of speaker turn lengths," said Laurence Clarfeld, Ph.D., lead author on the study and a University of Vermont postdoctoral associate whose doctoral dissertation in computer science focused on this research topic.

Using a time-based definition of speaker turn length means that real-time automation and analysis of conversational dynamics can occur without transcription or stored audio, thus protecting the privacy of the conversation content, add the authors.

"We developed a computational model of information flow in serious illness that could become a fundamental tool in conversational epidemiology," said coauthor Robert Gramling, M.D., D.Sc., professor of family medicine, Miller Chair in Palliative Medicine, and director of the Vermont Conversation Lab at the University of Vermont's Larner College of Medicine. "It predicts important and complex conversational processes, like emotion expression and future patterns of speaker turns."

For the study, the researchers performed analyses to validate the CODYM model, "identify normative patterns of information flow in serious illness conversations and show how these patterns vary across narrative time and differ under expressions of anger, fear and sadness," the authors wrote.

In addition to serving as a means for assessing and training healthcare providers, CODYMs could also be used to compare "conversational dynamics across language and culture, with the prospect of identifying universal similarities and unique 'fingerprints' of information flow," the study authors stated.

This publication represents the latest of several serious illness conversation dynamics studies conducted collaboratively by members of the University of Vemont's Larner College of Medicine (Gramling) and College of Engineering and Mathematical Sciences (Margaret Eppstein, Ph.D., Laurence Clarfeld, Ph.D., and Donna Rizzo, Ph.D.) over the past several years. (ANI)

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