Litcius/Paper detail

Non-invasive estimation of relative pressure for intracardiac flows using virtual work-energy

David Marlevi, Maximilian Balmus, Andreas Hessenthaler, Federica Viola, Daniel Fovargue, Adelaide de Vecchi, Pablo Lamata, Nicholas S. Burris, Francis D. Pagani, Jan Engvall, Elazer R. Edelman, Tino Ebbers, David Nordsletten

2020Medical Image Analysis27 citationsDOIOpen Access PDF

Abstract

Intracardiac blood flow is driven by differences in relative pressure, and assessing these is critical in understanding cardiac disease. Non-invasive image-based methods exist to assess relative pressure, however, the complex flow and dynamically moving fluid domain of the intracardiac space limits assessment. Recently, we proposed a method, νWERP, utilizing an auxiliary virtual field to probe relative pressure through complex, and previously inaccessible flow domains. Here we present an extension of νWERP for intracardiac flow assessments, solving the virtual field over sub-domains to effectively handle the dynamically shifting flow domain. The extended νWERP is validated in an in-silico benchmark problem, as well as in a patient-specific simulation model of the left heart, proving accurate over ranges of realistic image resolutions and noise levels, as well as superior to alternative approaches. Lastly, the extended νWERP is applied on clinically acquired 4D Flow MRI data, exhibiting realistic ventricular relative pressure patterns, as well as indicating signs of diastolic dysfunction in an exemplifying patient case. Summarized, the extended νWERP approach represents a directly applicable implementation for intracardiac flow assessments.

Topics & Concepts

Intracardiac injectionComputer scienceBenchmark (surveying)Flow (mathematics)Noise (video)Domain (mathematical analysis)SimulationArtificial intelligenceImage (mathematics)MathematicsMedicineCardiologyGeologyGeometryGeodesyMathematical analysisAdvanced MRI Techniques and ApplicationsCardiovascular Function and Risk FactorsCardiac Valve Diseases and Treatments