The study of the impact of electromagnetic fields on the body is gaining ground at a scientific level. The growing interest stems from the observation of the therapeutic benefits gained from electromagnetic stimulation. Experiments are also being conducted on cellular and molecular models to better understand the biological implications behind bioelectromagnetic interactions. This research deals with a new biomedical technology based on the use of induced currents in specific parts of the human body. Consequently, the study focused on the design and implementation of a device that can harness the action of induced currents for therapeutic applications. The aim is to provide further knowledge on a subject of study that is currently little used in the biomedical field. The experimentation stems from the creation of a system capable of improving the healing process and also being particularly simple to use. The research provided outstanding results, particularly when it came to the direct impact of electromagnetic stimulation on osteoblast, chondrocyte, and calmodulin activation as well as bone morphogenetic protein production. The model supported the idea that eddy current distributions accelerate osteogenesis.

Analysis and study of an integrated system based on eddy current for the osteogenesis process / Pellicano, D; Calcagno, S; De Carlo, D; Lagana, F. - 2023 IEEE International Workshop on Biomedical Applications, Technologies and Sensors, BATS 2023:(2023), pp. 89-94. (Intervento presentato al convegno International workshop on biomedical applications, technologies and sensors BATS 2023) [10.1109/BATS59463.2023.10303224].

Analysis and study of an integrated system based on eddy current for the osteogenesis process

Calcagno S;De Carlo D;
2023-01-01

Abstract

The study of the impact of electromagnetic fields on the body is gaining ground at a scientific level. The growing interest stems from the observation of the therapeutic benefits gained from electromagnetic stimulation. Experiments are also being conducted on cellular and molecular models to better understand the biological implications behind bioelectromagnetic interactions. This research deals with a new biomedical technology based on the use of induced currents in specific parts of the human body. Consequently, the study focused on the design and implementation of a device that can harness the action of induced currents for therapeutic applications. The aim is to provide further knowledge on a subject of study that is currently little used in the biomedical field. The experimentation stems from the creation of a system capable of improving the healing process and also being particularly simple to use. The research provided outstanding results, particularly when it came to the direct impact of electromagnetic stimulation on osteoblast, chondrocyte, and calmodulin activation as well as bone morphogenetic protein production. The model supported the idea that eddy current distributions accelerate osteogenesis.
2023
eddy current, integrated electronic system, osteogenesis process
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.12318/143046
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