Theory & Data Analysis Tools

PROJECT SUMMARY Stroke is the leading cause of motor disability in the United States. While brain stimulation to enhance motor function after stroke has shown promise in small studies, two recent large stroke trials did not find evidence for significant benefits. A key uncertainty is about how to exactly tailor brain stimulation to effectively modulate neural dynamics associated with movement preparation and control.

We plan to provide software support services for Neuropixels probes, a groundbreaking new tool for recording electrical signals from the brain. These probes—which were created by IMEC, a world-renowned nanoelectronics research center, in collaboration with four funding agencies (HHMI, Allen Institute, Gatsby Foundation, and Wellcome Trust)—will become publicly available in July 2018. Each device consists of a single hair-like shank containing nearly 1000 recording sites, each of which can measure voltage changes with sub-millisecond precision.

The goal of this proposal is to disseminate high resolution large volume serial section electron microscopy data to neuroscientists. Using our electron microscopy facility, we will provide user training on the use of these new technologies and provide access to our specialized facilities so that they may generate permanent ultrathin sections and create data sets amenable for neural circuit analysis or neural and glial cell type analysis.

The central nervous system (CNS) changes throughout life, and its interactions with the world produce activity- dependent plasticity that enables it to acquire and maintain useful behaviors. Recent scientific and technical advances support the development of systems that create novel interactions with the CNS that can induce and guide beneficial plasticity.

Two-photon laser scanning microscopy powers many projects in the.

Recombinant Immunolabels for Nanoprecise Brain Mapping Across Scales Understanding brain function and dysfunction requires an understanding of the circuitry of the brain from molecules to cells to circuits. While no single technique can achieve this, a strategic combination of techniques applied across scales can provide information that when integrated can lead to a more complete picture.

Understanding the function of the nervous system requires a sophisticated understanding of its main output, behavior. Although our ability to record from and to manipulate neurons and neural circuits has accelerated at a spectacular pace over the last decade, progress has lagged in coupling the interrogation of the nervous system to similarly high-resolution measures of behavior.

Project Summary Blindness in the United States is a large and increasing problem. Any significant vision loss is debilitating, but profound blindness is devastating to an individual’s ability to be independent and to perform everyday tasks and activities. Hundreds of thousands of people in the United States suffer from profound blindness, and most of these currently have no hope of vision recovery. Recently, a retinal prosthesis has become available in Europe, U.S., and Canada for people with profound vision loss from Retinitis Pigmentosa, a degenerative retinal disease.

PROJECT SUMMARY / ABSTRACT Recent advances in design and actuation have led to important improvements in prosthetic limbs. However, these devices lack a means for providing direct sensory feedback, requiring users to infer information about limb state from pressure on the residual limb. Lack of sensation limits their ability to control the prosthesis and leads to slow gait and increased risk of falling. There is also evidence that lack of sensory feedback contributes to phantom limb pain (PLP), and that electrical stimulation at the dorsal root ganglia (DRG) can reduce PLP.

Abstract DBS therapy for Parkinson's disease is now the primary surgical approach for Parkinson's disease, recently FDA approved at 4 years after onset of disease. However, this therapy is still limited to treatment of a subset of motor symptoms (ie, tremor, rigidity, bradykinesia and dyskinesias) and requires considerable postoperative clinical adjustment to program and maintain function. A number of improvements to DBS for PD are being tested, including changes in patterns of stimulation and specific targets.