Evaluating skilled prehension in mice using an auto-trainer

Robert Hubbard; Jason Dunthorn; Richard J. O’brien; Dan Tasch; Uri Tasch; Steven R. Zeiler

doi:10.3791/59784

Evaluating skilled prehension in mice using an auto-trainer

Robert Hubbard, Jason Dunthorn, Richard J. O’brien, Dan Tasch, Uri Tasch, Steven R. Zeiler

School of Medicine

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We describe a method to introduce naïve mice to a novel prehension (reach-to-grasp) task. Mice are housed singly in cages with a frontal slot that permits the mouse to reach out of its cage and retrieve food pellets. Minimal food restriction is employed to encourage the mice to perform the food retrieval from the slot. As the mice begin to associate coming to the slot for food, the pellets are manually pulled away to stimulate extension and pronation of their paw to grasp and retrieve the pellet through the frontal slot. When the mice begin to reach for the pellets as they arrive at the slot, the behavioral assay can be performed by measuring the rate at which they successfully grasp and retrieve the desired pellet. They are then introduced to an auto-trainer that automates both the process of providing food pellets for the mouse to grasp, and the recording of successful and failed reaching and grasping attempts. This allows for the collection of reaching data for multiple mice with minimal effort, to be used in experimental analysis as appropriate.

Original language	English (US)
Article number	e59784
Journal	Journal of Visualized Experiments
Volume	2019
Issue number	151
DOIs	https://doi.org/10.3791/59784
State	Published - 2019

Keywords

Auto-trainer
Behavior
Behavior
Issue 151
Motor training
Mouse
Prehension
Reach-to-grasp
Stroke

ASJC Scopus subject areas

General Neuroscience
General Chemical Engineering
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology

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10.3791/59784

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title = "Evaluating skilled prehension in mice using an auto-trainer",

abstract = "We describe a method to introduce na{\"i}ve mice to a novel prehension (reach-to-grasp) task. Mice are housed singly in cages with a frontal slot that permits the mouse to reach out of its cage and retrieve food pellets. Minimal food restriction is employed to encourage the mice to perform the food retrieval from the slot. As the mice begin to associate coming to the slot for food, the pellets are manually pulled away to stimulate extension and pronation of their paw to grasp and retrieve the pellet through the frontal slot. When the mice begin to reach for the pellets as they arrive at the slot, the behavioral assay can be performed by measuring the rate at which they successfully grasp and retrieve the desired pellet. They are then introduced to an auto-trainer that automates both the process of providing food pellets for the mouse to grasp, and the recording of successful and failed reaching and grasping attempts. This allows for the collection of reaching data for multiple mice with minimal effort, to be used in experimental analysis as appropriate.",

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author = "Robert Hubbard and Jason Dunthorn and O{\textquoteright}brien, {Richard J.} and Dan Tasch and Uri Tasch and Zeiler, {Steven R.}",

note = "Funding Information: The auto-training device was constructed by Jason Dunthorn, Uri Tasch, and Dan Tasch at Step Analysis, LLC, with design input support and instructions provided by Robert Hubbard, Richard O'Brien, and Steven Zeiler. Teresa Duarte of the Champalimaud Centre for the Unknown provided valuable insight and ideas about describing and categorizing mouse reaching actions. Publisher Copyright: {\textcopyright} 2019 Journal of Visualized Experiments.",

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AU - Zeiler, Steven R.

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N2 - We describe a method to introduce naïve mice to a novel prehension (reach-to-grasp) task. Mice are housed singly in cages with a frontal slot that permits the mouse to reach out of its cage and retrieve food pellets. Minimal food restriction is employed to encourage the mice to perform the food retrieval from the slot. As the mice begin to associate coming to the slot for food, the pellets are manually pulled away to stimulate extension and pronation of their paw to grasp and retrieve the pellet through the frontal slot. When the mice begin to reach for the pellets as they arrive at the slot, the behavioral assay can be performed by measuring the rate at which they successfully grasp and retrieve the desired pellet. They are then introduced to an auto-trainer that automates both the process of providing food pellets for the mouse to grasp, and the recording of successful and failed reaching and grasping attempts. This allows for the collection of reaching data for multiple mice with minimal effort, to be used in experimental analysis as appropriate.

AB - We describe a method to introduce naïve mice to a novel prehension (reach-to-grasp) task. Mice are housed singly in cages with a frontal slot that permits the mouse to reach out of its cage and retrieve food pellets. Minimal food restriction is employed to encourage the mice to perform the food retrieval from the slot. As the mice begin to associate coming to the slot for food, the pellets are manually pulled away to stimulate extension and pronation of their paw to grasp and retrieve the pellet through the frontal slot. When the mice begin to reach for the pellets as they arrive at the slot, the behavioral assay can be performed by measuring the rate at which they successfully grasp and retrieve the desired pellet. They are then introduced to an auto-trainer that automates both the process of providing food pellets for the mouse to grasp, and the recording of successful and failed reaching and grasping attempts. This allows for the collection of reaching data for multiple mice with minimal effort, to be used in experimental analysis as appropriate.

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Evaluating skilled prehension in mice using an auto-trainer

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Keywords

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