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en:start [2020/02/12 11:41]
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en:start [2025/04/23 18:17] (aktuální)
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| ====== Bioelectromagnetism research team ====== | ====== The Bio-electromagnetism (BioEM) Research Team ====== |
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| | {{ youtube>bIWAeNl3Azw?medium}} |
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| {{ :obrazky:fbmi_cvut.jpg?direct&400|BIOELECTROMAGNETISM FBME CTU}} | {{ :obrazky:fbmi_cvut.jpg?direct&355|BIOELECTROMAGNETISM FBME CTU}} |
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| The Bio-Electromagnetism research team is primarily involved in the design of instrumentation and methods for medical therapy and diagnostics based on the interaction of electromagnetic fields with biological systems. | The Bio-electromagnetism Research Group focuses on the development of therapeutic and diagnostic methods that leverage the interaction between electromagnetic fields and biological systems. Our goal is to push the boundaries of medical technologies to make them effective, safe, and accessible. Our team consists of experts and students across various levels of study – we bridge research with clinical practice and contribute to improving the quality of healthcare. |
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| The main therapeutic application that this team is dedicated to is the so-called microwave hyperthermia, which is successfully used to treat cancer. Most often, this method is combined with radiotherapy, where the overall effectiveness of the treatment is increased even with radical dose reduction of radiotherapy. Reducing the dose of radiotherapy further leads to a reduction in adverse side effects of the treatment. The team also focuses on magnetic and electrical neuro-stimulation and radiofrequency ablation. | * [[research#microwave_hyperthermia| Microwave Hyperthermia]] |
| The main diagnostic applications include non-invasive temperature monitoring during thermotherapy, non-invasive blood glucose monitoring and detection and classification of strokes. Activities related to the diagnosis and classification of stroke are solved within the ELEDIA Network, where our team is labeled ELEDIA @ CTU.) | |
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| Last but not least, the team of Bio-electromagnetism is engaged in the design of anatomically and dielectrically realistic phantoms of biological tissues and body parts and in measurements of their dielectric properties. | * [[research#microwave_non-invasive_temperature_monitoring_during_hyperthermia_or_tissue_ablation| Microwave Non-Invasive Temperature Monitoring during Hyperthermia or Tissue Ablation]] |
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| | * [[research#microwave_system_for_detection_and_classification_of_stroke| Microwave System for Stroke Detection and Classification]] |
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| [[http://eledia.science.unitn.it/|{{:wiki:eledialogo.jpeg?150|Eledia Researches Center }}]] | * [[research#measurement_of_tissue_dielectric_parameters_and_phantom_development| Dielectric Properties Measurement of Tissues and Phantom Fabrication]] |
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| | * [[research#use_of_radar_methods_in_medicine| Application of Radar Techniques in Medicine]] |
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| Czech Technical University - Faculty of Biomedical Engineering in Prague, Department of Biomedical Technology. | * [[research#electroporation| Electroporation]] |
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| Nam. Sitna 3105, 272 01 Kladno, Czech Republic.[[https://goo.gl/maps/bvofFGXR5pA2|{{:wiki:googlemaps.png?direct&30|Maps }}]] | * [[research#low-field_magnetic_resonance_imaging| Low-Field Magnetic Resonance Imaging (MRI)]] |
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| </panel> | * [[research#assessment_of_blood_flow_and_3d_printing_of_hearts| Flow Assessment and 3D Heart Printing]] |
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| {{blog>[blog]?[10]}} | |
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| /* {{blog>[blog_en]?[10]}} */ | |
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| | ====== Student Research Conference REMMA ====== |
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| | We are organizing a student research conference Research in ElectroMagnetic Medical Applications (REMMA) dedicated to the use of microwave radiation in treatment and diagnostics. |
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| | * More information:[[remma2025| REMMA 2025]] |
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| | * More information:[[remma2024| REMMA 2024]] |
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| | * More information:[[remma2023| REMMA 2023]] |
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| | ====== Tonagena, s.r.o. - Spin-off CTU ====== |
| | {{ :obrazky:tonagena.jpg?250|}} |
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| | In 2023, the Bioelectromagnetism team founded the CTU spin-off, Tonagena s.r.o., to commercialize the developed technologies and devices. The team is actively involved in all aspects of product launch, from development and testing to certification, production, and sales. Since the foundation of the spin-off, the TonaPulse® system, including a unique electrode system for adherent cell cultures, has been commercialized. This system is already being used, for example, at the 3rd Faculty of Medicine, Charles University, and the 2nd Faculty of Medicine, Charles University, for research on irreversible electroporation for the treatment of cardiac arrhythmias, as well as for gene transfection research, which holds promise for treating cancers or currently incurable genetic diseases. |
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| | In addition to electroporation, Tonagena s.r.o. is involved in custom development of microwave applicators and radar solutions for significant local companies, where it has already delivered hardware in both areas. |
| | More information is available at [[https://www.tonagena.cz/|tonagena.cz]] |
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| | </panel> |