Latent Inhibition (LI) Test
Objective: Measurement of associative learning by testing whether prior non-reinforced exposure to a stimulus retards its subsequent association with an unconditioned stimulus
This is a Latent Inhibition (LI) Test protocol using mouse as the model organism. The procedure involves 1 procedural steps. Extracted from a 2007 paper published in Journal of Neuroscience.
Model and subjects
mouse • Not specified in provided text • unknown • adult offspring • Not specified in provided text
Study window
Estimated timing pending
Core workflow
Latent Inhibition Test Administration
Primary readouts
- Latent inhibition (LI) deficits in adult offspring
- Associative learning capacity
- Response to stimulus-unconditioned stimulus pairing after prior non-reinforced stimulus exposure
Key equipment and reagents
Verified items
0
Direct vendor links
0
Use this page as an execution guide, then fall back to the source paper whenever you need exact exclusions, dosing details, or assay-specific caveats.
Confirm first
- Verify the animal model, intervention setup, and collection timepoints against the source paper.
- Check that every direct vendor link matches the exact specification your lab plans to run.
Use the page like this
- Work through the protocol steps in order and use the inline vendor chips only when you need to source or verify an item.
- Jump to Experimental Context for readouts, data shape, and analysis flow before planning downstream analysis.
Protocol Steps
Start here. The step list is optimized for running the experiment, with direct vendor links available inline when you need to source a cited item.
Latent Inhibition Test Administration
Latent inhibition (LI) testing was conducted on adult offspring to measure associative learning deficits
Note: Test measures whether prior non-reinforced exposure to a stimulus retards its subsequent association with an unconditioned stimulus
View evidence from paper
“A single maternal injection of IL-6 on day 12.5 of mouse pregnancy causes prepulse inhibition (PPI) and latent inhibition (LI) deficits in the adult offspring”