december 21, 2024

Groenhuis

Groenhuis is de toonaangevende aanbieder van kwalitatief Nederlands nieuws in het Engels voor een internationaal publiek.

Symptoomonderdrukking – een neurale chip om hersenaandoeningen te beheersen

Symptoomonderdrukking – een neurale chip om hersenaandoeningen te beheersen

neurale boom

neurale boom. Credits: Alan Herzog

EPFL-onderzoekers brengen de gebieden van low-power chipontwerp samen,[{” attribute=””>machine learning algorithms, and soft implantable electrodes to create a neural interface capable of identifying and mitigating symptoms of various neurological disorders.

Mahsa Shoaran, from the Integrated Neurotechnologies Laboratory in the School of Engineering, worked together with Stéphanie Lacour from the Laboratory for Soft Bioelectronic Interfaces to create NeuralTree, a closed-loop neuromodulation system-on-chip that is capable of detecting and alleviating symptoms of disease.

The system boasts a 256-channel high-resolution sensing array and an energy-efficient machine learning processor, enabling it to effectively extract and categorize a wide range of biomarkers from real patient data and in-vivo animal models of disease. This results in a high level of accuracy in symptom prediction.

“NeuralTree benefits from the accuracy of a neural network and the hardware efficiency of a decision tree algorithm,” Shoaran says. “It’s the first time we’ve been able to integrate such a complex, yet energy-efficient neural interface for binary classification tasks, such as seizure or tremor detection, as well as multi-class tasks such as finger movement classification for neuroprosthetic applications.”

Their results were presented at the 2022 IEEE International Solid-State Circuits Conference and published in the IEEE Journal of Solid-State Circuits, the flagship journal of the integrated circuits community.

Efficiency, scalability, and versatility

NeuralTree functions by extracting neural biomarkers – patterns of electrical signals known to be associated with certain neurological disorders – from brain waves. It then classifies the signals and indicates whether they herald an impending epileptic seizure or Parkinsonian tremor, for example. If a symptom is detected, a neurostimulator – also located on the chip – is activated, sending an electrical pulse to block it.

Shoaran explains that NeuralTree’s unique design gives the system an unprecedented degree of efficiency and versatility compared to the state-of-the-art. The chip boasts 256 input channels, compared to 32 for previous machine-learning-embedded devices, allowing more high-resolution data to be processed on the implant. The chip’s area-efficient design means that it is also extremely small (3.48mm2), giving it great potential for scalability to more channels. The integration of an ‘energy-aware’ learning algorithm – which penalizes features that consume a lot of power – also makes NeuralTree highly energy efficient.

In addition to these advantages, the system can detect a broader range of symptoms than other devices, which until now have focused primarily on epileptic seizure detection. The chip’s machine learning algorithm was trained on datasets from both epilepsy and Parkinson’s disease patients and accurately classified pre-recorded neural signals from both categories.

“To the best of our knowledge, this is the first demonstration of Parkinsonian tremor detection with an on-chip classifier,” Shoaran says.

Self-updating algorithms

Shoaran is passionate about making neural interfaces more intelligent to enable more effective disease control, and she is already looking ahead to further innovations.

“Eventually, we can use neural interfaces for many different disorders, and we need algorithmic ideas and advances in chip design to make this happen. This work is very interdisciplinary, and so it also requires collaborating with labs like the Laboratory for Soft Bioelectronic Interfaces, which can develop state-of-the-art neural electrodes or labs with access to high-quality patient data.”

As a next step, she is interested in enabling on-chip algorithmic updates to keep up with the evolution of neural signals.

“Neural signals change, and so over time, the performance of a neural interface will decline. We are always trying to make algorithms more accurate and reliable, and one way to do that would be to enable on-chip updates or algorithms that can update themselves.”

References: “NeuralTree: A 256-Channel 0.227-μJ/Class Versatile Neural Activity Classification and Closed-Loop Neuromodulation SoC” by Uisub Shin, Cong Ding, Bingzhao Zhu, Yashwanth Vyza, Alix Trouillet, Emilie C. M. Revol, Stéphanie P. Lacour and Mahsa Shoaran, 29 September 2022, IEEE Journal of Solid-State Circuits (JSSC).
DOI: 10.1109/JSSC.2022.3204508

“A 256-Channel 0.227µJ/class Versatile Brain Activity Classification and Closed-Loop Neuromodulation SoC with 0.004mm2-1.51 µW/channel Fast-Settling Highly Multiplexed Mixed-Signal Front-End” by Uisub Shin, Laxmeesha Somappa, Cong Ding, Yashwanth Vyza, Bingzhao Zhu, Alix Trouillet, Stephanie P. Lacour and Mahsa Shoaran, 17 March 2022, IEEE International Solid-State Circuits Conference (ISSCC).
DOI: 10.1109/ISSCC42614.2022.9731776

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