Biological Electromagnetic Interactions

Bioelectromagnetic interaction is a cutting-edge field in modern biomedicine and physics, exploring how organisms respond to the influence of external electromagnetic fields. Research in this field is not only of great significance for disease treatment and prevention, but also plays an increasingly important role in drug delivery, neural regulation and biosensor design. CD Biomodeling focuses on providing accurate bioelectromagnetic interaction modeling and simulation services to reveal the potential effects of electromagnetic fields on organisms.

Fig.1 Current theories for explaining the bioeffects of EMR. (Liu L, et al., 2024)

Our Services

• Simulation of bioelectromagnetic signals and cell-level responses
  Provide in-depth cell-level simulation services to study how external electromagnetic fields affect key bioelectric activities such as cell membrane potential, ion channel opening, and calcium ion influx. By quantifying the microscopic effects of electromagnetic waves in cells, we can understand the subtle effects of electromagnetic radiation on cell physiology and provide theoretical support for more accurate electromagnetic therapy and bioelectric effect research.
• Analysis of electromagnetic wave absorption and distribution characteristics of biological tissues
  We conduct in-depth research on the absorption, scattering and transmission characteristics of electromagnetic waves in biological tissues. Through fine modeling of the electromagnetic responses of different biological tissues (such as nerves, muscles, bones, blood, etc.), we evaluate the propagation path and energy distribution of electromagnetic waves in the human body, help optimize the radiation mode of medical equipment, and maximize the treatment effect.
• Research on the effects of microwaves and high-frequency electromagnetic waves on organisms
  The study of the biological effects of high-frequency electromagnetic waves (such as microwaves and radio frequencies) has always been a hot topic in medical research. We provide biological impact assessments for high-frequency electromagnetic waves (such as 5G signals and wireless communication frequency bands), explore the potential effects of these bands on neural tissues, cell metabolism and DNA, and provide a scientific basis for the compatibility assessment of communication equipment and medical equipment.
• Modeling of electromagnetic radiation therapy and intervention mechanisms
  Our services also include research on the therapeutic effects of electromagnetic radiation in vivo, especially in wound repair. By simulating the biological effects of electromagnetic waves in vivo, including cell proliferation, apoptosis, oxidative stress and other reactions, we provide theoretical guidance for the optimization of electromagnetic radiation therapy methods and promote the development of new non-invasive treatment methods.
• Dynamic bioelectromagnetic response and feedback control simulation
  We provide modeling and simulation of the dynamic response of organisms under electromagnetic fields, especially in the application of feedback control systems. For example, we study how to regulate specific biological processes in the body (such as neural activity, drug release, etc.) through external electromagnetic fields. We help develop new electromagnetic feedback mechanisms that enable devices to automatically adjust their output according to real-time biological responses, improving treatment effects and patient safety.

Advantages

• Precise simulation technology: Using industry-leading simulation tools and multi-physics simulation technology to ensure the accuracy and reliability of electromagnetic radiation analysis.
• Interdisciplinary team support: Combining expertise in electromagnetics, biomedical engineering and clinical applications, we provide customers with a full range of solutions.
• Customized services: According to the characteristics and application scenarios of different medical devices, we provide personalized simulation services to ensure that the results of each project fully meet customer needs.
• International standards compliance: We ensure that all simulation and evaluation results comply with international electromagnetic radiation safety standards, and provide customers with technical documents and reports that meet the requirements.

Results Delivery

After completing your medical device electromagnetic radiation simulation, CD Biomodeling will provide a series of detailed and easy-to-understand deliverables to ensure that you can effectively use the simulation data and make scientific decisions.

Bioelectromagnetic interaction involves the interaction between electromagnetic waves and organisms, covering everything from the biological effects of electromagnetic fields on cells to the responses of organ systems. Through precise modeling and simulation, we help customers deeply understand the effects of electromagnetic radiation on organisms and provide strong technical support for new treatment technologies, medical device optimization, electromagnetic safety assessment, etc.

Whether it is the potential effects of low-frequency electromagnetic fields on the human body or the role of high-frequency electromagnetic waves in biological systems, CD Biomodeling can provide a full range of solutions to ensure that your research and application in electromagnetic environments are safe and efficient. If you need further information about our services, please feel free to contact us!

For Research Use Only!

Related Services

• Modeling of Electromagnetic Properties of Organisms
• Simulation of Electromagnetic Radiation from Medical Devices