Gait and posture are often perturbed in many neurological, neuromuscular, and neuropsychiatric conditions. Rodents provide a tractable model for elucidating disease mechanisms and interventions. Here, we develop a neural-network-based assay that adopts the commonly used open field apparatus for mouse gait and posture analysis. We quantitate both with high precision across 62 strains of mice. We characterize four mutants with known gait deficits and demonstrate that multiple autism spectrum disorder (ASD) models show gait and posture deficits, implying this is a general feature of ASD. Mouse gait and posture measures are highly heritable and fall into three distinct classes. We conduct a genome-wide association study to define the genetic architecture of stride-level mouse movement in the open field. We provide a method for gait and posture extraction from the open field and one of the largest laboratory mouse gait and posture data resources for the research community

Darrell, Megan

Deats, Sean P

Gardin, Justin

Geuther, Brian Q

Kumar, Vivek

Lutz, Cathleen

Peer, Asaf

Sabnis, Gautam S

Sheppard, Keith

English

PubMed

This release contains data files for our publication: "Stride-level analysis of mouse open field behavior using deep learning-based pose estimation". Also note that our source code is made available at our github page under the repositories deep-hrnet-mouse and gaitanalysis.

Files:


	deep-hres-net-2019-06-28.simg: a singularity image containing everything needed to run our neural network
	infer-poseest-batch.sh: our inference script written to run on our cluster using the SLURM scheduler. This script will not work unchanged in other environments but it serves as a useful example of how to run the singularity image (deep-hres-net-2019-06-28.simg) on a cluster
	merged_pose_annos_2019-06-26.h5.gz: training data that was used to train the neural network that is embedded in deep-hres-net-2019-06-28.simg
	pose-est-conf.yaml: the configuration file used for training our pytorch model. This file is responsible for specifying most of the important hyperparameters during training
	pose-est-model.pth: the best model generated from our pytorch training. This file is embedded in our singularity image (deep-hres-net-2019-06-28.simg)
	strain-survey-gait-2019-11-12_summary.csv: a table of summary statistics for our gait metrics which were derived from our strain survey dataset
	vidplot-app.mp4: A video representation of gait extraction from pose estimation. The top panel shows a segment of video with a gait overlay. The bottom panel contains two plots that update with the video: an angular velocity plot and a hind paw speed plot. Green bouts are considered strides, left and right paws are orange and blue respectively

Sabnis, Gautam

Deats, Sean

Geuther, Brian

Lutz, Cathleen M.

NEUROSURGERY ENTHUSIASTIC WOMEN SOCIETY

Stride-level analysis of mouse open field behavior using deep learning-based pose estimation

This release contains data files for our publication: "Stride-level analysis of mouse open field behavior using deep learning-based pose estimation". Also note that our source code is made available at our github page under the repositories deep-hrnet-mouse and gaitanalysis.

Files:


	deep-hres-net-2019-06-28.simg: a singularity image containing everything needed to run our neural network
	deep-hrnet-mouse.tgz: a tar'd, gzip'd version of the repository at https://github.com/KumarLabJax/deep-hrnet-mouse (commit 13014885861f87bf9fd5a99afdfe3153cca852a5)
	gaitanalysis.tgz: a tar'd, gzip'd version of the repository at https://github.com/KumarLabJax/gaitanalysis (commit 18a7f9b0192b77d94dc85ff413f0875b958c4938)
	infer-poseest-batch.sh: our inference script written to run on our cluster using the SLURM scheduler. This script will not work unchanged in other environments but it serves as a useful example of how to run the singularity image (deep-hres-net-2019-06-28.simg) on a cluster
	merged_pose_annos_2019-06-26.h5.gz: training data that was used to train the neural network that is embedded in deep-hres-net-2019-06-28.simg
	pose-est-conf.yaml: the configuration file used for training our pytorch model. This file is responsible for specifying most of the important hyperparameters during training
	pose-est-model.pth: the best model generated from our pytorch training. This file is embedded in our singularity image (deep-hres-net-2019-06-28.simg)
	strain-survey-gait-2019-11-12_summary.csv: a table of summary statistics for our gait metrics which were derived from our strain survey dataset
	vidplot-app.mp4: A video representation of gait extraction from pose estimation. The top panel shows a segment of video with a gait overlay. The bottom panel contains two plots that update with the video: an angular velocity plot and a hind paw speed plot. Green bouts are considered strides, left and right paws are orange and blue respectively

The Jackson Laboratory: The Mouseion at the JAXlibrary

Stride-level analysis of mouse open field behavior using deep-learning-based pose estimation.

http://dx.doi.org/10.1016/j.celrep.2021.110231

Stride-level analysis of mouse open field behavior using deep-learning-based pose estimation.

Abstract

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NEUROSURGERY ENTHUSIASTIC WOMEN SOCIETY

NEUROSURGERY ENTHUSIASTIC WOMEN SOCIETY

The Jackson Laboratory: The Mouseion at the JAXlibrary

NEUROSURGERY ENTHUSIASTIC WOMEN SOCIETY