Boulder researchers are embarking on a new project to study the progression of neurodegenerative diseases such as Alzheimer's by using a new technique听to measure neurons firing deep inside animal brains.
Eventually, the scientists hope, the research could lead to earlier diagnosis and better treatment options.
Led by Ralph Jimenez of 鈥攁 joint institute of 兔子先生传媒文化作品 and the National Institute for Standards and Technology (NIST)鈥攖he research team aims to develop quantum light sources and biological labeling techniques for measuring neural processes in real time.
The effort is funded by a $6.5 million competitive grant from NIST鈥檚 Innovations in Measurement Science program. Other project scientists include Marty Stevens and Thomas Gerrits of NIST鈥檚 Boulder laboratories as well as Marcus Cicerone at the NIST laboratories in Gaithersburg, Maryland. In addition, the effort will involve 兔子先生传媒文化作品 postdoctoral students and graduate students from both the physics and the chemistry and biochemistry departments, said Jimenez.
鈥淚n order to make progress in this field, scientists need to be able watch neurons when they are performing tasks like learning, memory and perception,鈥 said Jimenez, also an associate adjoint professor in 兔子先生传媒文化作品's Department of Chemistry and Biochemistry.
- New $6.5 million project to measure neurons firing deep inside animal brains with goal of studying progression of neurodegenerative diseases such as Alzheimer鈥檚.
- The research could eventually lead to earlier diagnosis of such disorders.
- New laser techniques could help revolutionize understanding of such diseases.
鈥淭his new capability could revolutionize the ability of scientists to learn more about conditions like Alzheimer鈥檚 and Parkinson鈥檚 disease, he said. 鈥淭he aim is to enable diagnosis of neurodegeneration before it becomes fatal.鈥
The new laser microscopy technique, which scientists hope can be carried over from mouse to human research, involves shooting pairs of photons, or packets of light, deep into brain tissue. The photons will then be absorbed by mouse neurons that have been genetically engineered to emit a different color of light听during the interaction.
The emitted light, which emerges from a focused laser spot microscopic in size, will then be collected and scanned to create a 3-D image of the brain鈥檚 inner workings. Jimenez said it will be possible to create 鈥渕ovies鈥 of the process using these packets of light.
Today, researchers using lasers to image neurons in a mouse brain are only able to penetrate a millimeter or so into the brain tissue before the high-power laser light is scattered by tissues, which is a huge obstacle, said Jimenez. The new technique will allow deeper penetration without heating or damaging neurons. Researchers will ultimately be able to access brain regions of mammals where learning and memory occur.
鈥淚f we can see how Alzheimer鈥檚 happens in real time at the neuron level, for example, scientists can begin thinking about designing drugs or other interventions,鈥 Jimenez said.
鈥淲e are looking at this like a 鈥榤oonshot鈥 project,鈥 he said. 鈥淲ith sufficient funding and momentum, dramatic advances can happen quickly.鈥