Scientists develop lab-grown model of the human sensory pathway to investigate how pain signals are transmitted to the brain.

Researchers have recreated the human ascending sensory pathway in a lab dish, using organoids that model the key brain and ...

A recent study offers new hope for treating frontotemporal lobar degeneration (FTLD), a severe brain disease that affects ...

Immediate use for the newly developed assembloids could include studying neurodevelopmental disorders such as autism.

According to the report, the team began by reprogramming skin cells into stem cells, then guided them using chemical signals to form four types of organoids — miniature 3D structures mimicking key ...

A Stanford University research team created a functional replica of the human nervous system for pain perception for the ...

Summary: Scientists have discovered a new protein pathway involved in neurodegeneration by studying “mini-brain” organoids made from patients with frontotemporal lobar degeneration (FTLD). They found ...

在人类文明发展历程中，对大脑的探索始终是最具挑战性的科学命题。这个重约14千克的器官，承载着意识、记忆与创造力，其复杂程度超越已知宇宙中任何已知结构。 近二十年来，随着干细胞技术、生物工程与人工智能的突破性进展，人类正以前所未有的方式逼近大脑奥秘的核心。

Researchers integrated four organoids that represent the four components of the human sensory pathway, along which pain signals are conveyed to the brain. Stimulation of the sensory organoid (top) by ...

For the first time, scientists have generated a functional neural pathway for sensing pain in a dish. This could help unravel ...

Stanford Medicine investigators have replicated, in a lab dish, one of humans' most prominent nervous pathways for sensing pain. This nerve circuit transmits sensations from the body's skin to the ...