A recent study uses data science and mathematical models to find the most suitable rehabilitation method for each osteoarthritis patient.

A novel method, developed in collaboration between the Faculty of Information Technology and the Faculty of Sport and Health Sciences at the University of Jyväskylä, supports healthcare professionals in comparing and choosing the most preferred type of exercise based on a osteoarthritis patient’s personalized needs.

The study was published in Annals of Medicine.

“The research will help us move towards more personalized treatment and therapy recommendations. Our method can help healthcare professionals to find the most appropriate rehabilitation method for each patient, which best meets the patient’s needs,” says Professor Kaisa Miettinen from the University of Jyväskylä.

Osteoarthritis is the most usual form of arthritis and a leading source of chronic pain and disability worldwide. Knee osteoarthritis causes a heavy burden to the population, as pain and stiffness in this large weight-bearing joint often lead to significant disability requiring surgical interventions.

Various exercise therapy modalities have shown their effectiveness in pain reduction, disability improvement, and enhancing the quality of life.

“There are slight differences in the effectiveness between different exercise therapy modalities, but in practice the choice of treatment is also influenced by, for example, the length and costs of treatment. Previously, there has not been tool available to support clinical decision-making that would seek the most suitable alternative for an individual patient,” Miettinen says.

Data Science Decision Support Tool

This study is the first application of multiobjective optimization methods to support decision-making and treatment analysis in knee osteoarthritis that can take into account multiple and conflicting treatment goals.

“The novelty in the current results can be counted as the new wave of digitalization and decision analytics that connect researchers from different disciplines to make the best use of data and improve traditional methods to select intervention types that should be most beneficial and cost-effective for each patient,” says Miettinen, summing up the benefits of the study.

This is the first step in a three-step process of developing a data science decision support tool for clinicians to choose a personalized optimal exercise therapy modality for each patient. The following steps will be using more detailed individual data from several trials to make personalized recommendations, followed by designing an easy-to-use user interface for clinicians.

[Source(s): University of Jyväskylä – Jyväskylän Yliopisto, EurekAlert]