Air Flotation Cage-Large
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- Product Description
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Air Float Cage - A Large Platform for In Vivo Neurological Studies of Awake Living Mice - Compatible with all standard microscopes, more complex behavioral studies
Optical and electrical recordings in live rodents have revolutionized brain research. However, the use of general anesthetics severely affects brain function and greatly limits the relevance of in vivo experiments. Early solutions for head-fixing awake rodents led to groundbreaking research, unfortunately, these solutions were bulky and difficult to fit into experimental setups. In addition, they overly relied on visual stimulation and did not provide sensory input.
The air flotation cage can be easily placed under the microscope. It provides a realistic, tangible and familiar environment for mice to explore and navigate during live recording or imaging experiments.
Large Air Cage® equipped with motion tracking system
、Larger cages provide ample space for complex behavioral studies such as learning and memory, social interaction, etc. Motion tracking systems are also an optional module for large air flotation cages.
Unique advantages of Air Flotation Cage®
• No anesthesia required, studies performed in awake, moving, head-fixed animals
• Stable, firm, micron-precision head fixation
• Lightweight and compact, compatible with all major microscope types – no modification required
• Effectively reduces stress (mouse handling and training is reduced to 3-4 days without anesthesia)
• Real and natural environment (the cage provides tactile and olfactory stimulation, eliminating complete reliance on vision; by using a transparent cage, visual stimulation can be further combined in a specific environment)• Allows behavioral studies to be performed simultaneously with a variety of high-precision optical imaging and electrophysiological methodologies including:
- Two-photon microscopy
- Patch clamp
- Optogenetics
- Multi-channel microelectrodes
- Silicon probe
- Functional ultrasound imaging• Locomotion tracking system (optional) with high-speed recording and spatial resolution (free tracking software synchronized with external microscopy and electrophysiological recordings to control reward and stimulation systems in closed-loop experiments)
2D Planar Air Suspension Experimental Platform:
front
side
Compact design fits into almost any microscope
Quick, secure head fixation Can be rotated to access the outer part of the brain
Strong, ultra-light carbon fiber cage and foam cage
* Selected important documents:
Kislin. M. et al (2014) JoVE, PMID: 24998224
Dombeck et al/Tank (2007) Neuron, PMID: 17920014
Nimmerjahn et al (2009) Neuron, PMID: 19447095
Gentet et al/Petersen (2010) Neuron, PMID: 20159454
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