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6.3 video tracking

Manufactured by ANY-maze
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ANY-maze 6.3 is a video tracking software designed for behavioral analysis. It captures and analyzes the movements and activities of subjects in real-time. The software is capable of tracking multiple subjects simultaneously and provides detailed data on parameters such as position, velocity, and distance traveled.

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Lab products found in correlation

2 protocols using 6.3 video tracking

1

Novel Object Recognition Task in Mice

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The NOR task was performed as previously described (Barker and Warburton, 2011 (link)). Very briefly, the day prior to training, mice were habituated to experimental apparatus consisting of a white rectangular open field (60 cm × 50 cm x 26 cm) for 10 min in the absence of any objects. On the second day, mice were placed in the experimental apparatus in the presence of two identical objects and allowed to explore them for 10 min. After a retention interval of 24 h, mice were placed again in the apparatus, where one of the objects was replaced by a novel object. Exploration of the objects was defined as the mice facing and sniffing the objects within 2-cm distance and/or touching them. Sitting and turning around on the object were not considered exploratory behavior. All training and testing sessions were recorded using the automated ANY-maze 6.3 VIDEO tracking software. The ability of the mouse to recognize the novel object was determined by dividing the mean time exploring the novel object by the mean of the total time exploring the novel and familiar objects during the test session. This value was multiplied by 100 to obtain a percentage preference for the novel object (Tnovel/[Tnovel + Tfamiliar] × 100). The positions of the objects in the test phase and the objects used as novel or familiar were counterbalanced between the animals.
Simoes S., Guo J., Buitrago L., Qureshi Y.H., Feng X., Kothiya M., Cortes E., Patel V., Kannan S., Kim Y.H., Chang K.T., Hussaini S.A., Moreno H., Di Paolo G., Andersen O.M, & Small S.A. (2021). Alzheimer’s vulnerable brain region relies on a distinct retromer core dedicated to endosomal recycling. Cell reports, 37(13), 110182.
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2

Novel Object Recognition Task in Mice

Check if the same lab product or an alternative is used in the 5 most similar protocols
The NOR task was performed as previously described (Barker and Warburton, 2011 (link)). Very briefly, the day prior to training, mice were habituated to experimental apparatus consisting of a white rectangular open field (60 cm × 50 cm x 26 cm) for 10 min in the absence of any objects. On the second day, mice were placed in the experimental apparatus in the presence of two identical objects and allowed to explore them for 10 min. After a retention interval of 24 h, mice were placed again in the apparatus, where one of the objects was replaced by a novel object. Exploration of the objects was defined as the mice facing and sniffing the objects within 2-cm distance and/or touching them. Sitting and turning around on the object were not considered exploratory behavior. All training and testing sessions were recorded using the automated ANY-maze 6.3 VIDEO tracking software. The ability of the mouse to recognize the novel object was determined by dividing the mean time exploring the novel object by the mean of the total time exploring the novel and familiar objects during the test session. This value was multiplied by 100 to obtain a percentage preference for the novel object (Tnovel/[Tnovel + Tfamiliar] × 100). The positions of the objects in the test phase and the objects used as novel or familiar were counterbalanced between the animals.
Simoes S., Guo J., Buitrago L., Qureshi Y.H., Feng X., Kothiya M., Cortes E., Patel V., Kannan S., Kim Y.H., Chang K.T., Hussaini S.A., Moreno H., Di Paolo G., Andersen O.M, & Small S.A. (2021). Alzheimer’s vulnerable brain region relies on a distinct retromer core dedicated to endosomal recycling. Cell reports, 37(13), 110182.
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