Introduction: The Rise of Ultrasound Therapy
Ultrasound therapy represents a major advance in modern medicine, that is attracting increasing attention. Since its initial application in medical imaging in the mid-20th century, ultrasound technology has evolved rapidly, demonstrating immense potential in the therapeutic field. By using the physical properties of sound waves, ultrasound therapy enables non-invasive treatments for various pathologies and has proven to be particularly effective in tumor ablation, drug delivery, neural diseases, tissue repair, and more.
The rise of ultrasound therapies reflects a trend toward less invasive and more targeted medical treatments that could revolutionize the way certain diseases are treated in the future.
Principles and Applications of Ultrasound Therapy
Ultrasound therapy is based on the thermal and mechanical effects of sound waves that concentrate energy in specific areas to create cavitation. The thermal effect of ultrasound causes an increase in the temperature of the medium, resulting in the targeted destruction of pathological tissue. In addition, the mechanical and cavitation effects can damage cellular structures, promote the destruction of pathological tissue, and enhance drug delivery.
Thanks to these multiple effects, ultrasound technology shows vast potential for application in fields such as oncology, cardiology, and neurology. It has proven particularly effective in the non-invasive treatment of prostate cancer, liver cancer, and uterine fibroids, thereby reducing the trauma and complications associated with traditional surgical interventions.
Our Customized Ultrasound Solutions for Medical R&D
In the field of medical R&D, needs can vary significantly from one project to another. To meet the specific requirements of each treatment, we deliver ultrasound solutions tailored to the specifics of each project.
Our high-precision multi-channel HIFU amplifiers and low frequency micro-board (Imbed Micro) provide powerful technical support for ultrasound treatments and research.
Multi-Channel HIFU Amplifier
Our amplifier, specifically designed for ultrasound therapy, offers instant and independent control of each generation channel. It supports up to 32 synchronized channels with a frequency range of up to 5 MHz and an output power of 400 WRMS per channel.
By integrating a signal generator and an external triggering function, it is suitable for applications such as thermal ablation, histotripsy, sonodynamic therapy, and targeted therapeutic delivery.
To ensure the precision and safety of treatments, the platform is equipped with NexTgen software, allowing real-time monitoring of output power and cavitation effects.
Micro Ultrasound Board (Imbed Micro)
Imbed Micro is a smart and compact board capable of delivering power from 5W to 30W with a frequency range from 20 kHz to 100 kHz. Designed for low-power applications, it also integrates NexTgen technology, making it particularly suitable for integration into various medical devices.
This board plays a key role in medical diagnostics and biological analysis, offering flexible configuration and real-time data acquisition to ensure precise control and traceability of the process.
Perspectives: Accelerating Medical Innovation with Ultrasound
As ultrasound technology progresses, its medical applications are becoming increasingly promising. The integration of recent technologies such as artificial intelligence (AI) and gene therapy will open increased opportunities to improve the precision and reproducibility of treatments.
SinapTec is dedicated to innovation, closely monitoring the evolution of these advances and associated research work. We are convinced that our technology will continue to play a key role in developing safer and more effective therapies, and we are ready to support you in this innovation.
Conclusion: Strengthening the Position of Ultrasound in Medical R&D
SinapTec is dedicated to supporting research in ultrasound and seeks to collaborate with researchers and institutions to fully exploit this technology.
We invite researchers and medical institutions to contact us to discover how our technology can support and enhance their projects. Together, we can accelerate progress in the medical field.