亚洲知识产权资讯网为知识产权业界提供一个一站式网上交易平台，协助业界发掘知识产权贸易商机，并与环球知识产权业界建立联系。无论你是知识产权拥有者正在出售您的知识产权，或是制造商需要购买技术以提高操作效能，又或是知识产权配套服务供应商，你将会从本网站发掘到有用的知识产权贸易资讯。

返回搜索结果

NMR Nanocoil Arrays for Neurotransmitter Brain Mapping

技术优势: Providesreal time monitoring of metabolism and neurotransmitter releaseArraycan be placed into an MRI scanner and used to select the coil location and tointerrogate itNMRcoils can be manufactured at 10 microns in diameter Capableof detecting chemical activity of the brain3Dimagining of the brain is possibleCan be performed on anywild-type or transgenic animalNo need to clone or purchaseexpensive or rare animals for testing

详细技术说明: A novel Nuclear Magnetic Resonance (NMR) Arrayto be used in the mapping of brain metabolism.

*Abstract: Thistechnology has the potential to monitor metabolism and neurotransmitter release inreal time on a cell by cell basis to measure the chemical signaling that takesplace during signal transduction from cell to cell. Advantages over the existing “optogenetic”methods include the ability to image the time dependent 3D distributions of alarge variety of small molecules in the brain giving near cellular resolutionfor brain mapping. These NMR array coils can be manufactured at a diameter of 10 microns,eliminating the problems caused by the small size of brain cells. This invention allows for the detection of notjust the electrical activity, but the chemical activity at a resolutiondictated by the dimensions of the microcoils.

*Background: Brain mapping is a set of neuroscience techniquesthat use the biological processes, for either humans or non-humans, of thebrain resulting in maps. Using these maps allows for a much clearer understanding ofthe relationships between brain structures and how these structuresfunction. Neuroscientists have maderemarkable progress in recent years toward understanding how the brain works. Currently, technologies exist that can showdetails as small as 20 micrometers that can provide scientists with afar more accurate road map for studying the brain’s different functions; however,technologies that can depict true cellular resolution is desired. While thereare optical techniques that probe brain anatomy, there is at present a marketneed for refinements in brain mapping technologies that can allow scientists tostudy and understand the brain’s metabolism in three-dimensions. These advancements would allow for earlierdetection and treatment of psychological and psychiatric disorders, diseases,and surgical interventions.

欲了解更多信息，请点击这里