Search Results - neural+stimulation

3 Results

Sort By:

A Tissue-Like Multimodal Neural Probe (Case No. 2024-108)

Summary: UCLA researchers in the Department of Materials Science and Engineering have developed a novel self-softening and biocompatible polymer to be used in a neural probe. Background: Implantable bioelectronics are revolutionizing the diagnosis and treatment of neurological and neuropsychiatric disorders. Compared with noninvasive approaches,...

Published: 9/20/2024 | Inventor(s): Anne Andrews, Qibing Pei, Zhixin Xie, Chuanzhen Zhao

Keywords(s): bioelectronics, neural stimulation, Neuroimaging, Neurointervention, neurological disorders, Neuromodulation, Neuropsychological Test, Polymer, Smart Material, soft robotics, thermal stability, Tissue (Biology)

Category(s): Chemical, Chemical > Polymers, Medical Devices > Neural Stimulation, Therapeutics > CNS and Neurology, Materials > Nanotechnology

Intelligent Stent System for Chronic On-Demand Drug Delivery (Case No. 2021-069)

Summary: UCLA researchers in the Department of Neurology have developed an intelligent stent system for chronic on-demand drug delivery, addressing the challenge of the blood-brain barrier hindering drug therapy in the central nervous system. Background: The blood-brain barrier poses a significant obstacle to effective drug delivery to the central...

Published: 7/9/2024 | Inventor(s): Jose Morales, Haotian Lu, Huachen Cui, Xiaoyu (Rayne) Zheng

Keywords(s): blood flow management, blood-brain barrier, Drug, Drug Delivery, Drug monitoring, Invasiveness Of Surgical Procedures, MEMS, minimally invasive device, minimally invasive drug delivery systems, neural signals, neural stimulation, Neurocognitive, Neurodegeneration, neurological disorders, Neurology, neuro-oncology, Neuropathology, Neurosurgery, non-invasive, non-invasive drug monitoring, on-demand drug delivery, Pharmaceutical Drug, piezoelectric ultrasound transducers

Category(s): Platforms, Platforms > Drug Delivery, Medical Devices, Therapeutics, Therapeutics > CNS and Neurology, Therapeutics > Oncology, Therapeutics > Musculoskeletal Disease

Soft, Stretchable, and Strain-Insensitive Bioelectronics 2022-201

Summary: UCLA Researchers in the Department of Electrical and Computer Engineering have developed a library of soft, stretchable biomaterials that decouple bioelectronic interfaces resulting in improved sensing and neural stimulation devices that can withstand significant strain. Background: The interface between electronic devices and biological...

Published: 9/18/2024 | Inventor(s): Sam Emaminejad, Qibing Pei, Brian Bo Wang, Yichao Zhao

Keywords(s): Bioelectromagnetics, bioelectronics, Biomaterial, Biosensor, electrodes, Functional Materials, Materials, Medical Devices and Materials, Nanomaterials, Nanosensor, nanostructured materials, neural stimulation, strain insensitive, tissue-electronic interface

Category(s): Materials, Materials > Functional Materials, Electrical, Electrical > Electronics & Semiconductors, Materials > Nanotechnology, Medical Devices, Medical Devices > Neural Stimulation