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Biodegradable electronic tent technology offers less invasive brain disease diagnosis

by Medical Xpress
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The electronic tent smoothly attached along the curved surface of brain-mimicking tissue (1% agarose gel). Credit: Seoul National University College of Engineering

A team from The College of Engineering at Seoul National University has developed a biodegradable electronic tent technology that enables brain disease diagnosis using a needle.

The technology, developed by Professor Kang’s research team (including Dr. Jae-Young Bae, Ph.D. candidate Young-Seo Kim, and Professor Seung-kyun Kang) in collaboration with researchers from UNIST (Dr. Gyeong-Seok Hwang and Professor Ju-Young Kim) and Dankook University Hospital (Professor Jung Keun Hyun), was published in the journal Nature Electronics on August 5.

The team’s research was driven by the insight that few people would be willing to undergo surgery to implant a brain chip, as recently demonstrated in by Neuralink, the neuroscience startup founded by Elon Musk, CEO of Tesla. To implant a (BCI) device, a dangerous surgery is required to remove part of the skull and insert an .

Additionally, once the device is no longer needed, it may cause immune reactions, necessitating further surgery to remove it. The research team recognized the need for an alternative to overcome the highly invasive nature of existing methods, which require surgery, for the widespread adoption of bio and brain engineering technologies.

Biodegradable electronic tent for non-surgical brain disease diagnosis using a needle
Process of minimally invasive large-area brain surface electrode insertion using a biodegradable electronic tent. Credit: Seoul National University College of Engineering

From a clinical perspective, current diagnostic methods for epilepsy and Parkinson’s disease necessitate the use of large-area brain electrodes, which require the removal of a significant portion of the skull. This carries the risk of severe side effects such as , brain infection, cerebrospinal fluid leakage, and complications like postoperative intracranial hypertension.

To alleviate the burden of such surgeries, the research team developed the “biodegradable electronic tent,” proposing an innovative method for diagnosing brain diseases non-invasively.

Professor Kang’s research team at Seoul National University has now developed brain diagnostic technology using electronic devices. The joint first authors of this research paper, including Dr. Jae-Young Bae, Ph.D. candidate Young-Seo Kim, and Dr. Gyeong-Seok Hwang, are affiliated with domestic research institutions, highlighting the potential of this research outcome to significantly strengthen South Korea’s technological leadership in and research convergence.

During the development of the “biodegradable electronic tent technology,” the research team focused on designing the electronic tent to spread evenly and without damage within the narrow space of a few millimeters between the skull and the brain. This was achieved by using biodegradable shape-memory polymers and ultrathin biodegradable inorganic electronic devices. The electronic tent, injected through a small hole in the skull using a needle, unfolds to cover the entire brain over a large area, the size of a palm, within the space between the skull and the brain.

Biodegradable electronic tent for non-surgical brain disease diagnosis using a needle
(a) Shape recovery process of the electronic tent in a skull and brain mimic model (b) Biodegradation process of the electronic tent in phosphate buffered solution (PBS). Credit: Seoul National University College of Engineering

Since the device naturally decomposes in the body after the diagnosis is complete, it minimizes the issues associated with residual medical devices causing side effects when left in the body for an extended period, as seen in traditional diagnostic methods for epilepsy and Parkinson’s disease.

The research team also successfully measured brainwave signals for two weeks after inserting electrodes using the biodegradable electronic tent into the brains of animal models. Additionally, they confirmed the potential for in vivo application by monitoring the biodegradation process of the electronic tent in real-time over an extended period.

The biodegradable electronic tent is expected to be utilized in various ways in the medical field in the future. In particular, the biodegradable electronic tent is anticipated to bring significant changes to the diagnostic methods for intractable epilepsy and Parkinson’s disease.

Unlike the traditional invasive surgical methods that always carry risks, this technology offers a minimally invasive way to insert electronic devices using a needle, providing patients with a better diagnostic environment. Moreover, since the electronic device naturally decomposes in the body after fulfilling its role, it eliminates the need for additional surgeries to remove residual medical devices, making it a safer option for patients.

This technology is also expected to be applicable in diagnosing other brain conditions such as stroke and hydrocephalus. In addition to its applications in diagnosis and treatment, it could also reduce public aversion to the traditional electrode insertion methods used in brain-computer interface (BCI) technologies, such as those tested in Neuralink’s brain implantation experiments, thereby enhancing the feasibility of these technologies.

More information:
Jae-Young Bae et al, A biodegradable and self-deployable electronic tent electrode for brain cortex interfacing, Nature Electronics (2024). DOI: 10.1038/s41928-024-01216-x

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Seoul National University College of Engineering

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Biodegradable electronic tent technology offers less invasive brain disease diagnosis (2024, August 12)
retrieved 12 August 2024
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