Bruker Unveils OptoVolt for Enhanced Neuroscience Research
Bruker Unveils OptoVolt for Enhanced Neuroscience Research
At a prominent neuroscience conference, Bruker Corporation (Nasdaq: BRKR) introduced its latest innovation, the OptoVolt module. This advanced technology is designed to enhance the research capabilities of neuroscientists working on neural communication and activity. With groundbreaking imaging speeds exceeding 1000 frames per second, the OptoVolt is set to transform how researchers study the dynamics of neural interactions.
Transforming Voltage Imaging
The OptoVolt module addresses the longstanding challenges associated with voltage imaging, allowing researchers to accurately detect individual neural signals at unprecedented speed and sensitivity. This cutting-edge scanner technology is pivotal for examining the rapid activities occurring in the neural networks and offers a remarkable signal-to-noise ratio necessary for observing minute neuronal events.
Integration with Advanced Technology
Bruker’s OptoVolt module works seamlessly with the Ultima multiphoton microscope platform, enhancing its functionality for in-depth neuroscience applications. When paired with Bruker’s NeuraLight 3D Ultra spatial light modulator, the comprehensive platform empowers scientists to explore intricate relationships between neural inputs and outputs at both spatial and temporal scales never seen before.
Expert Insights on Voltage Imaging
Professor Thomas Clandinin from Stanford University remarked on the importance of voltage imaging, stating, "The ability to investigate neural circuits at the level of individual action potentials paves the way for deeper understanding in neuroscience. The advancements represented by the OptoVolt module are truly exciting for our field." This highlights the enthusiasm within the scientific community regarding these technological advancements.
Advancements in Neural Circuit Imaging
Bruker’s commitment to innovation is evident in the development of the OptoVolt module. Dr. Xiaomei Li, Bruker's Vice President and General Manager of Fluorescence Microscopy, explained, "Introducing OptoVolt marks a significant step forward in our imaging capabilities, allowing for the detection of millisecond events in neural communication with single-neuron resolution." This reflects Bruker’s dedication to addressing researchers' evolving needs.
About the OptoVolt Module
The OptoVolt module harnesses innovative voltage indicator proteins, including ASAP4 and JEDI-2P. These advancements enable imaging at kilohertz speeds while maintaining the detailed depth and resolution that have long been staples of two-photon imaging. The modular design not only accommodates rapid imaging but also facilitates adjustments for optimal signal intensity.
Bruker Corporation: Embracing the Future of Science
Bruker Corporation has positioned itself as a leader in post-genomic research and advancements. Their scientific instruments and analytical solutions empower scientists to delve deeper into the molecular and cellular mechanisms of life. Through collaborations with researchers, Bruker promotes innovation and efficiency across multiple applications, including life sciences, biopharma, and advanced semiconductor technologies. Bruker enables groundbreaking discoveries that enhance human health and the understanding of biological processes.
Frequently Asked Questions
What is the OptoVolt module?
The OptoVolt module is Bruker's latest technology designed for high-speed voltage imaging, allowing researchers to observe neural communication dynamics more effectively.
How does the OptoVolt enhance neuroscience research?
By enabling imaging speeds of over 1000 frames per second, the OptoVolt allows scientists to capture intricate neural interactions with unprecedented temporal resolution.
Who developed the technology behind OptoVolt's voltage indicators?
The OptoVolt module integrates novel voltage indicator proteins such as ASAP4 from Stanford University and JEDI-2P from Baylor University.
What are the key benefits of using the OptoVolt module?
The key benefits include enhanced imaging speed, improved signal-to-noise ratio, and the ability to perform simultaneous optogenetic manipulation and voltage imaging.
How does Bruker contribute to scientific innovation?
Bruker collaborates closely with researchers to understand their needs and develop tools that enhance research capabilities, promoting advancements in various science fields.
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