Friday, 21 December 2012

Barnes Maze Edition of the "The Water Maze" Cartoon

Maurice and the Barnes Maze

CAN you write a caption for the Barnes Maze special edition of "The Water Maze" strip? The excellent standard of entries in our previous competitions suggests that many of you can. Here's a new chance for the world to see your wit. As before, it's up to you to provide the caption: please leave your suggestions in the comments thread below. The captions should be as short and snappy as possible, and ideally no more than about 30 characters long per frame. The best contribution will appear in the cartoon here and in the print editions. If you make any erudite jokes or refer to specific papers or behaviors  fell free to - but don't forget to reference and explain for the rest of us!

If you want to see more of these or more originals make sure that you comment here and suggest captions, follow these blogs and and link back to this page from your own blog or site!

Thursday, 8 November 2012

Primary path length and Barnes maze acquisition

For those of you who were asking about primary path length in Barnes maze I'm going to be putting together a beginners FAQ and glossary for the blog shortly. The short answer is that it's one of the three parameters proposed by Harrison et al. where latency, path length and number of errors to
the first encounter of the escape hole are measured and called called primary latency, primary path length and primary errors respectively.

Carol Barnes' "Barnes Maze" (1979) [with Barnes Maze Video]

Carol Barnes' "Barnes Maze" is a dry land escape paradigm used in behavioral laboratory experiments to quantitatively assess spatial learning and memory. Rodents explore a brightly lit slotted disk. On the exposed circular open platform surface there is a small dark recessed chamber located under one of the 18 holes around the perimeter of the platform.

Typically the animal's movement is recorded using a video tracking system. Subjects are normally rats or mice, which either serve as a control or may have some genetic variable or deficiency present in them which will cause them to react differently to the maze. Visual cues are required to optimize cognitive performance. Pompl and co-workers showed better performance in mice tested with intra- and extra-maze cues than mice trained with no spatial cues present. The task is non-invasive and humane and is used for evaluating novel chemical entities for their effects on cognition as well as identifying cognitive deficits in transgenic strains of rodents that model for disease such as Alzheimer's disease.

There is an excellent reference at