Reversible Cooling-induced Deactivations to Study Cortical Contributions to Obstacle Memory in the Walking Cat

6.4K views

Cited by 3

09:43 min

December 11th, 2017

10.3791/56196-v

December 11th, 2017

6.4K views

Complex locomotion in naturalistic environments requiring careful coordination of the limbs involves regions of the parietal cortex. The following protocol describes the use of reversible cooling-induced deactivation to demonstrate the role of parietal area 5 in memory-guided obstacle avoidance in the walking cat.

Explore More Videos

Cortical Deactivation

Chapters in this video

0:05

Title

0:37

Training Procedures

1:29

Behavioral Training and Testing of Visual Obstacle Memory

2:51

Behavioral Training and Testing of Tactile Obstacle Memory

4:34

Experimental Setup for Cortical Cooling

6:13

Behavioral Testing During Cortical Cooling

8:01

Results: Reversibe, Cooling-induced Deactivation of Parietal Area 5 Results in Obstacle Memory deficits

9:14

Conclusion

Related Videos