Electrophysiology recordings are crucial in neuroscience research, enabling the study of field potentials in various brain regions and the electrical signal flow between neurons. These recordings are essential for analyzing neural circuit functions and their association with neurodegenerative diseases.
ACROBiosystems, through its Acro Certify program, has partnered with Diagnostic Biochips to offer comprehensive solutions for in vivo electrophysiology recordings. These solutions include high-quality multi-channel electrodes, a data acquisition box, and cloud-based data analytics. This partnership facilitates efficient and high-quality analysis of neural circuit structures and functions, electrophysiological marker discovery, and drug screening.
Product features
Plug & Play hardware
Image Credit: ACROBiosystems
Making the right connections between electrodes, data acquisition hardware, and software can be challenging. To simplify this process, all ACROBiosystems hardware is designed to be 'plug & play,' allowing users to focus on elucidating brain connections rather than dealing with electrical ones.
Big-data ready software
Image Credit: ACROBiosystems
Electrophysiology recordings across numerous channels represent a form of big data science, necessitating the analysis of millions of data points to find what you need. Diagnostic Biochips’ software streamlines this process by providing users with access to scalable storage, GPU acceleration, and advanced analytical tools.
Product types
Multi-channel electrodes
High-density, microfabricated neural probes are available for both deep structure and surface recordings. These cutting-edge electrodes have been designed by the DBC team over decades to ensure top-tier performance and precision.
- Multi-channel Electrodes: There are up to 128 channels available for long-term, continuous recording
- Lightweight, Flexible Design: 64/128 channel electrodes do not require a head stage to alleviate animal headload
- Multi / Deep Recordings: Deep-array electrodes to complete recordings across 128 channels of 90 mm depth
- Cost Effective: Increase the value of the product with low prices, improved performance, and ease of operation
- Starters Kit: Construct the RIGHT platform for users at the lowest possible cost
Source: ACROBiosystems
| |
Silicon Probes |
Janus Double-sided |
Deep Array |
Micro ECoG |
| Channels |
16, 32, 64, 128 |
128 |
32, 64, 128 |
64, 128 |
| Length |
Up to 12 mm |
Up to 12 mm |
Up to 90 mm |
N/A |
| Intended Targets |
Small animals, cortex in NHP and other large animals |
Small animals and cortex of NHP and large animals |
Deep structures in NHP and other large animals |
Cortical surface |
| Substrate Material |
Single crystal silicon |
Single crystal silicon |
Sharpened stainless steel or tungsten wire |
Flexible polymer |
| Site Material |
Electroplated pedot |
Electroplated pedot |
Electroplated pedot |
Electroplated pedot |
| Available Options |
Optical fiber attach, EEG lead (2 for 64 channel, 4 for 128 channel), accelerometer |
N/A |
Optical fiber attach, EEG lead (2 for 64 channel, 4 for 128 channel) |
N/A |