Artificial intelligence lowers barrier to ultrasonic brain treatment

Ultrasound energy and focused ultrasound technology are used in a non invasive therapeutic approach to treat neurological disorders. However, the distortion of ultrasound waves caused by the shape of patients' skulls has limited its use. A research team has developed an acoustic simulation technology based on generative AI to predict and correct this distortion in real time.

The technology reduces computational time and increases the possibility of clinical application. A medical image based navigation system was also developed to provide real time acoustic simulations during focused ultrasound therapy. SEJONG: Using ultrasound energy to target specific millimetres of the brain, including deep areas, focused ultrasound technology is a non invasive therapeutic approach that treats neurological disorders without necessitating opening the skull.

Because it doesn't harm nearby good tissue and reduces side effects like infections and difficulties, it has been used to treat a range of resistant brain disorders, including depression and Alzheimer's disease . Its use has been restricted, nevertheless, because it is challenging to reflect in real time the distortion of ultrasonic waves caused by the various shapes of patients' skulls.

An acoustic simulation technology based on generative AI has been developed by a research team led by Dr. Kim, Hyungmin of the Bionics Research Centre at the Korea Institute of Science and Technology (KIST). This technology can be used to predict and correct the distortion of the ultrasound focus position caused by the skull during focused ultrasound therapy in real time.

Thus far, there has been no validation of the clinical usefulness of AI simulation models in the field of non invasive focused ultrasound therapy technologies. However, its application has been limited thus far since it is difficult to reflect the distortion of ultrasound waves generated by the varied shapes of patients' skulls in real time.

A research team led by Dr. Kim, Hyungmin of the Bionics Research Center at the Korea Institute of Science and Technology (KIST) has developed a real time acoustic simulation technology based on generative AI to predict and correct the distortion of the ultrasound focus position caused by the skull in real time during focused ultrasound therapy.

Until now, the clinical applicability of AI simulation models in the field of non invasive focused ultrasound therapy technology has not been validated. To predict the location of the invisible acoustic focus, navigation systems based on medical images taken before treatment are currently utilized, which provide information about the relative position of the patient and the ultrasound transducer.

However, they are limited by their inability to account for the distortion of ultrasound waves caused by the skull, and while various simulation techniques have been used to compensate for this, they still require significant computational time, making them difficult to apply in actual clinical practice.

The research team developed a real time focused ultrasound simulation technology through an artificial intelligence model based on a generative adversarial neural network (GAN), a deep learning model widely used for image generation in the medical field. The technology reduces the update time of three dimensional simulation information reflecting changes in ultrasound acoustic waves from 14 s to 0.1 s while showing an average maximum acoustic pressure error of less than 7 per cent and a focal position error of less than 6mm, both of which are within the error range of existing simulation technologies, increasing the possibility of clinical application.

The research team also developed a medical image based navigation system to verify the performance of the developed technology to rapidly deploy it to real world clinical practice. The system can provide real time acoustic simulations at the rate of 5 Hz depending on the position of the ultrasound transducer, and succeeded in predicting the position of the ultrasound energy and focus within the skull in real time during focused ultrasound therapy.

Previously, due to the long calculation time, the ultrasound transducer had to be precisely positioned in a pre planned location to utilize the simulation results. However, with the newly developed simulation guided navigation system, it is now possible to adjust the ultrasound focus based on the acoustic simulation results obtained in real time.

In the future, it is expected to improve the accuracy of focused ultrasound and provide safe treatment for patients by being able to quickly respond to unexpected situations that may occur during the treatment process. "As the accuracy and safety of focused ultrasound brain disease treatment has been improved through this research, more clinical applications will emerge," said Dr.

Kim, Hyungmin of KIST. "For practical use, we plan to verify the system by diversifying the ultrasound sonication environment, such as multi array ultrasound transducers." Explore Your Financial Landscape with Personalized Credit Insights. FOLLOW US ON SOCIAL MEDIA Elections Chhattisgarh CM News MP CM News Rajasthan Election Results MP Election Result 2023 Chhattisgarh Election Result Mizoram Election Result TOP TRENDS PM Modi Ayodhya Visit Vijayakant News PM Modi Mann Ki Baat Live India Breaking News Today PM Narendra Modi Delhi Couple Accident News.