Whole-brain optoacoustic imaging of neuronal dynamics
Optoacoustic neuroimaging of mice expressing a genetically encoded calcium indicator allows for rapid, high-resolution whole-brain 3D snapshots of neuronal calcium activity and haemodynamics.
Published in Bioengineering & Biotechnology
Like
Be the first to like this
Chief Editor, Nature Biomedical Engineering, Nature Research
Follow the Topic
Biotechnology
Life Sciences > Biological Sciences > Biotechnology
-
Nature Biomedical Engineering
This journal aspires to become the most prominent publishing venue in biomedical engineering by bringing together the most important advances in the discipline, enhancing their visibility, and providing overviews of the state of the art in each field.
Related Collections
With Collections, you can get published faster and increase your visibility.
Implantable wireless communication technologies
This collection brings together research that addresses critical engineering challenges in implantable wireless communications. It demonstrates how electromagnetic, optical, acoustic, or hybrid methods can be engineered to achieve reliable wireless communications and power delivery through biological tissues.
Publishing Model: Hybrid
Deadline: Nov 28, 2026
Microphysiological systems for advanced modeling, high-throughput evaluation, and clinical translation
This cross-journal Collection highlights engineering advances, promote high-throughput evaluation for translational applications, or enhance biological and clinical relevance of next-generation Microphysiological Systems, such as 3D culture systems, organs-on-chips, and microfluidic platforms.
Publishing Model: Hybrid
Deadline: Dec 30, 2026
Please sign in or register for FREE
If you are a registered user on Research Communities by Springer Nature, please sign in
The cover illustrates high-resolution snapshots of neuronal calcium activity across the brain acquired via the optoacoustic imaging of live mice expressing a genetically encoded calcium indicator.
See Gottschalk et al.
Images: Daniel Razansky, Univerity of Zurich and ETH Zurich.