Workflow assessment of an augmented reality application for planning of perforator flaps in plastic reconstructive surgery: Game or game changer?
Matthias Fabian BergerRaimund WinterAlexandru-Cristian TucaBirgit MichelitschBernhard SchenkenfelderRobert HartmannMichael GiretzlehnerGernot ReishoferLars-Peter KamolzDavid Benjamin LumentaPublished in: Digital health (2023)
In this pilot, we calculated development investments based on project-approved grant-funded personnel hours with a moderate to good usability outcome resulting from some limitations: assessment was based on one-time testing with no previous training, a time lag of AR visualizations on the body and difficulties in spatial AR orientation. The use of AR systems can provide new opportunities for future surgical planning, but has more potential for educational (e.g., patient information) or training purposes of medical under- and postgraduates (spatial recognition of imaging data associated with anatomical structures and operative planning). We expect future usability improvements with refined user interfaces, faster AR hardware and artificial intelligence-enhanced visualization techniques.
Keyphrases
- virtual reality
- artificial intelligence
- electronic health record
- big data
- health information
- machine learning
- high resolution
- deep learning
- minimally invasive
- current status
- healthcare
- coronary artery disease
- risk assessment
- breast reconstruction
- study protocol
- case report
- social media
- soft tissue
- quality improvement
- atrial fibrillation
- surgical site infection
- percutaneous coronary intervention