CT

Semantic Cluster4 Research Papers

Studies in this Category

ID: digital-twin-based-investigation-of-seismocardiogram-sensitivity-to-tissue-mechanics-and-myocardial-motion2025

Digital Twin-Based Investigation of Seismocardiogram Sensitivity to Tissue Mechanics and Myocardial Motion

This study shows how personalized computer models based on CT scans can simulate heart vibrations (SCG) and improve non-invasive heart monitoring by accounting for individual anatomy and tissue properties.

#scg#ct

ID: investigating-seismocardiogram-patterns-a-computational-modeling-of-cardiac-wall-motion-propagation-to-the-chest-surface2024

Investigating Seismocardiogram Patterns: A Computational Modeling of Cardiac Wall Motion Propagation to the Chest Surface

This study uses advanced modeling to simulate heart vibrations on the chest, helping improve non-invasive heart monitoring methods like SCG.

#scg#accelerometer#ct

ID: echocardiography-as-an-indication-of-continuous-time-cardiac-quiescence2016

Echocardiography as an indication of continuous-time cardiac quiescence

This research shows that ultrasound can help identify heart motion phases for better CT scans, potentially reducing radiation and improving accuracy in diagnosing heart disease.

#scg#echocardiography#impedance-cardiography

ID: a-system-for-seismocardiography-based-identification-of-quiescent-heart-phases-implications-for-cardiac-imaging2012

A System for Seismocardiography-Based Identification of Quiescent Heart Phases: Implications for Cardiac Imaging

This study shows that SCG, a chest vibration signal, can better identify heart motion phases for clearer CT scans, potentially reducing radiation and improving heart disease diagnosis.

#scg#ecg#accelerometer