Litcius/Paper detail

Uniaxial extending neural probes for bleeding-absent implantation

Xueyang Ren, Wen Bai, Shisheng Chen, Yuehui Yuan, Xiaodong Shao, Xuefei Zhu, Li Wang, Qin Jiang, Benhui Hu

2024npj Flexible Electronics10 citationsDOIOpen Access PDF

Abstract

Abstract Implantable neural probes, essential for brain electrophysiological research, have advanced with ultra-flexible designs to mitigate immune responses and postoperative complications. Strategies of shuttle-assisted implantation and temporary stiffening address issues in penetrating these probes into the target region, avoiding undesired bending. However, the risk of intraoperative bleeding remains due to these implants’ necessary rigidity during insertion. Here, we describe a neural probe with mechanical compliance accompanying self-implantation along the principal axis in the absence of bleeding. Crucial to the behavior is its anisotropic relaxation, which is dominated by the cross-sectional in-plane deformation inhibition due to interchain interactions between the parallel backbones in the globally aligned polymer system. We observed the ensured upright insertion of the probe into the brain while avoiding angiorrhexis with a two-photon microscope and a high-speed camera. The probes permit electrophysiological studies with minimal foreign body responses and imageological compatibility, underscoring their clinical potential.

Topics & Concepts

ElectrophysiologyRigidity (electromagnetism)Neural activityMaterials scienceBiomedical engineeringMedicineNanotechnologyNeuroscienceBiologyComposite materialInternal medicineNeuroscience and Neural EngineeringConducting polymers and applicationsEEG and Brain-Computer Interfaces