Cardiac Bioelectronics and Sensing

This research sub-field focuses on the integration of bioelectrical techniques and advanced sensing technologies in cardiac health monitoring and treatment. It encompasses various methodologies, including tissue ablation, bioelectrical impedance, and wearable sensors, aimed at improving the prognosis and management of cardiovascular diseases.

bioelectrical impedance

cardiac monitoring

tissue ablation

biomedical electronics

wearable sensors

mechanobiology

electrical techniques

sensing technologies

223,179 papers

Parent topic: Biomedical Engineering

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Sub-topics

Techniques in Thermal Ablation

This cluster encompasses research on various thermal and electrical methods for tissue ablation, with a specific focus on irreversible electroporation and its applications in clinical settings. Studies range from nanomechanical analyses to clinical practices involving tissue destruction.

9685 papers

Electrical Methods in Cardiac Study

Focused on the use of electrical techniques to study cardiac function and cellular responses, this cluster includes research on endothelial interactions and the effects of electrical fields on myocardial cells. It covers both basic studies and applications in cardiovascular research.

2242 papers

Mechanobiology of Cardiac Myocytes

This area investigates the mechanobiological aspects of cardiac myocytes, including how mechanical cues affect the behavior and repair processes of cardiac cells. This research often utilizes advanced imaging and micropatterning techniques to analyze cardiac cell function.

2048 papers

Innovative Sensing for Ablation

This area of research emphasizes advanced biomedical sensing technologies that enhance the efficacy of tissue ablation techniques. It includes studies on contact force sensors and methods for optimizing lesion formation during procedures such as radiofrequency ablation.

1958 papers

Wearable Sensors for Cardiology

This research cluster emphasizes the development of wearable bioelectronic sensors designed to monitor cardiovascular health in non-invasive ways. Studies involve bioresorbable systems and pH sensing technologies for cardiac applications in various settings.

1657 papers

Bioelectrical Impedance in Oncology

This cluster focuses on the use of bioelectrical impedance analysis, particularly the phase angle measurement, as a prognostic tool in cancer patients. Research explores its ability to predict survivability, quality of life, and overall functionality based on bioelectrical metrics.

1508 papers

Cardiac Electronics and Monitoring

Research in this cluster revolves around the development of biomedical electronics that facilitate real-time monitoring of cardiac physiology. Topics include conformal electronics and circuit models specifically designed for cardiac applications.

1176 papers