Manual dexterity of mice during food-handling involves the thumb and a set of fast basic movements

Abstract: The small first digit (D1) of the mouse's hand resembles a volar pad, but its thumb-like anatomy suggests ethological importance for manipulating small objects. To explore this possibility, we recorded high-speed close-up video of mice eating seeds and other food items. Analyses of ethograms and automated tracking with DeepLabCut revealed multiple distinct microstructural features of food-handling. First, we found that mice indeed made extensive use of D1 for dexterous manipulations. In particular, mice used D… Show more

“…Mice offer a favorable model for investigating these hand-related transcortical circuits, as they display a variety of hand and forelimb movements including highly dexterous manipulation behaviors, directional reaching, and more (e.g. Whishaw et al, 1998 ; Guo et al, 2015 ; Galiñanes et al, 2018 ; Barrett et al, 2020 ). Mice have a well-defined hand and forelimb representation in S1, and corticospinal neurons projecting to cells and circuits in the cervical spinal cord feeding into motor neurons innervating forelimb muscles ( Ueno et al, 2018 ).…”

Circuit organization of the excitatory sensorimotor loop through hand/forelimb S1 and M1

“…Mice offer a favorable model for investigating these hand-related transcortical circuits, as they display a variety of hand and forelimb movements including highly dexterous manipulation behaviors, directional reaching, and more (e.g. Whishaw et al, 1998 ; Guo et al, 2015 ; Galiñanes et al, 2018 ; Barrett et al, 2020 ). Mice have a well-defined hand and forelimb representation in S1, and corticospinal neurons projecting to cells and circuits in the cervical spinal cord feeding into motor neurons innervating forelimb muscles ( Ueno et al, 2018 ).…”

Circuit organization of the excitatory sensorimotor loop through hand/forelimb S1 and M1

“…This error is the root mean square error between user and DeepLabCut using images naive to the DeepLabCut neural network training); top camera trained pixel error of 2.06, test pixel error of 30.31 (which is a max error of 2.81%). These values were comparable to a previous primate study, and thus were judged sufficient for additional tracking on the remaining videos [15]. The commaseparated values (CSV) file output from DeepLabCut was then imported into MATLAB for further analysis.…”

“…Recently, more advanced computational techniques such as DeepLabCut allow for the tracking of anatomical locations without the use of physical markers during movement [11]. Previous uses of DeepLabCut include reach and grasp tasks for mice (3D information) and more naturalistic studies conducted on non-human primates (2D information) [9]- [15]. In both animal models, DeepLabCut was able to achieve sufficient tracking so that further quantitative analysis could be performed.…”

Quantifying the kinematic features of dexterous finger movements in nonhuman primates with markerless tracking

“…Laboratory mice display skilled motor behaviors such as reach, grasp, and manipulate to consume food and water 2,36,37 . Recent technical advances in machine learning-powered behavior tracking and analysis 38 , wide-field imaging of neural activities 39–41 , and cell-type targeted recording and manipulation enable a multi-faceted and integrated analysis of the neural circuit basis of these behaviors 42 .…”

Cortical network and projection neuron types that articulate serial order in a skilled motor behavior