最新情報
シナプス深部脳刺激に向けた埋め込み型バイオハイブリッド神経インターフェース
Sensory nerve regrowth is often limited by the inhibitory nature of the extracellular matrix, which restricts axonal regeneration. Although cortical and deep brain stimulation offer potential therapeutic approaches, their effectiveness in sensory restoration is hindered by challenges in spatial resolution, cell specificity, and accessibility. In a recent study published in Advanced Functional Materials, researchers introduced an implantable biohybrid neural interface that integrates neural spheroids with a stretchable stimulation array and a microfluidic axon guidance system...
ヒト脊髄下部運動ニューロンの迅速な誘導とシングルセルイメージングによるALS細胞のロバストなスクリーニング
Swift induction of human spinal lower motor neurons and robust ALS cell screenin…
高密度微小電極アレイとオプトジェネティクスの組み合わせによる単一ニューロンとネットワーク活性の相互作用の解明
In a recent study published in Nature Communications, researchers described an experimental setup in which they combined MaxOne Single-Well HD-MEA recordings and optogenetic stimulation using a digital mirror device, achieving parallel stimulation and recording at single-neuron resolution. Applied to rat cortical neuronal cultures, the authors demonstrated that neurons adapt their responses to optical stimulation, while network bursts disrupt this adaptation. Moreover...
Feng Guo教授にインタビュー
Interview Join the Conversation with Prof. Dr. Feng Guo Intelligent BioMedical S…
New Therapeutic Target in the Fight Against ALS
Scientists uncover a new protein in a pathway for neurotoxicity and cell death A…