A differential process mining analysis of COVID-19 management for cancer patients. Academic Article uri icon

Overview

abstract

  • During the acute phase of the COVID-19 pandemic, hospitals faced a challenge to manage patients, especially those with other comorbidities and medical needs, such as cancer patients. Here, we use Process Mining to analyze real-world therapeutic pathways in a cohort of 1182 cancer patients of the Lausanne University Hospital following COVID-19 infection. The algorithm builds trees representing sequences of coarse-grained events such as Home, Hospitalization, Intensive Care and Death. The same trees can also show probability of death or time-to-event statistics in each node. We introduce a new tool, called Differential Process Mining, which enables comparison of two patient strata in each node of the tree, in terms of hits and death rate, together with a statistical significance test. We thus compare management of COVID-19 patients with an active cancer in the first vs. second COVID-19 waves to quantify hospital adaptation to the pandemic. We also compare patients having undergone systemic therapy within 1 year to the rest of the cohort to understand the impact of an active cancer and/or its treatment on COVID-19 outcome. This study demonstrates the value of Process Mining to analyze complex event-based real-world data and generate hypotheses on hospital resource management or on clinical patient care.

authors

  • Cuendet, Michel Alain
  • Gatta, Roberto
  • Wicky, Alexandre
  • Gerard, Camille L
  • Dalla-Vale, Margaux
  • Tavazzi, Erica
  • Michielin, Grégoire
  • Delyon, Julie
  • Ferahta, Nabila
  • Cesbron, Julien
  • Lofek, Sébastien
  • Huber, Alexandre
  • Jankovic, Jeremy
  • Demicheli, Rita
  • Bouchaab, Hasna
  • Digklia, Antonia
  • Obeid, Michel
  • Peters, Solange
  • Eicher, Manuela
  • Pradervand, Sylvain
  • Michielin, Olivier

publication date

  • December 7, 2022

Identity

PubMed Central ID

  • PMC9768429

Scopus Document Identifier

  • 85144310608

Digital Object Identifier (DOI)

  • 10.3389/fonc.2022.1043675

PubMed ID

  • 36568192

Additional Document Info

volume

  • 12