Video-based marker-free tracking and multi-scale analysis of mouse locomotor activity and behavioral aspects in an open field arena: A perspective approach to the quantification of complex gait disturbances associated with Alzheimer's disease

Bogachev, Mikhail I.; Sinitca, Aleksandr M.; Grigarevichius, Konstantin; Pyko, Nikita S.; Lyanova, Asya I.; Tsygankova, Margarita; Davletshin, Eldar; Петров, К. А.; Агеева, Т. С.; Pyko, Svetlana A.; Kaplun, Dmitry; Kayumov, Airat R.; Mukhamedshina, Yana

doi:10.3389/fninf.2023.1101112

Cited by 6 publications

(3 citation statements)

References 70 publications

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“…One of the initial difficulty of such analysis in this study was detection of the mouse in changing background image of bedding [35]. In previous open-field experiments, the mouse was detected by computer vision and machine learning method on plane floor with high contract background [36,37,38].…”

Section: Establishment Of Cnn Model For the Detection Of The Mousementioning

confidence: 99%

Convolutional neural network model detected lasting behavioral changes in mouse with kanamycin-induced unilateral inner ear dysfunction

Noda,

Mari,

Sajjaviriya

et al. 2023

Preprint

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In acute aminoglycoside ototoxicity to unilateral inner ear, physical abnormalities, such as nystagmus and postural alteration, are relieved within a few days by neural compensation. To examine exploratory behavior over an extended period, freely moving behavior of a mouse after unilateral kanamycin injection was recorded in a home-cage environment. A tail was excluded from deep learning-mediated object detection because of its delayed movement relative to the body. All detection results were confirmed by convolutional neural network classification model. In kanamycininjected mice, total distance moved in 15 minutes increased at 3 days after surgery. Moreover, the injured mouse turned frequently toward healthy side up to 17 days after surgery. Tail suspension and twist toward healthy side induced fast rotation of trunk around longitudinal axis with dorsal bending after 14 days. Our analysis strategy employing deep learning is useful to evaluate neuronal compensatory process and screen a drug candidate with therapeutic potency.

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Section: Establishment Of Cnn Model For the Detection Of The Mousementioning

confidence: 99%

Convolutional neural network model detected lasting behavioral changes in mouse with kanamycin-induced unilateral inner ear dysfunction

Noda,

Mari,

Sajjaviriya

et al. 2023

Preprint

View full text Add to dashboard Cite

show abstract

“…Precise simultaneous pose tracking of multiple animals is essential for analyzing naturalistic and social behaviors across species. Recent advancements in machine learning have produced high-precision and versatile single-animal pose tracking tools, such as DeepLabCut (DLC) (1) and LEAP Estimates Animal Poses (LEAP) (2), allowing detailed analysis of complex postures and movements across a wide range of species (3)(4)(5)(6). Building on this progress, multi-animal tracking tools such as multi-animal DeepLabCut (maDLC) (7) and Social LEAP (SLEAP) (8) have been introduced.…”

Section: Introductionmentioning

confidence: 99%

vmTracking: Virtual Markers Overcome Occlusion and Crowding in Multi-Animal Pose Tracking

Azechi,

Takahashi

2024

Preprint

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Overcoming occlusion and crowding in multi-animal tracking remains challenging. Thus, we aim to introduce virtual marker tracking (vmTracking) as a solution to these problems. This method integrates markerless multi-animal pose estimation, including multi-animal DeepLabCut (maDLC) or Social LEAP Estimate Animal Poses (SLEAP), with single-animal tracking techniques, such as DeepLabCut and LEAP. Initially, maDLC or SLEAP is employed to create videos in which the tracking results are labeled as “virtual markers.” Subsequently, these virtual markers are used to ensure consistent animal identification across frames, and the animals are tracked using single-animal tracking. vmTracking significantly reduces the need for manual corrections and the number of annotation frames required for training. It more efficiently improves occlusion and crowding compared with traditional markerless multi-animal tracking, which relies on motion state estimation. The findings of this research have the potential to substantially enhance the precision and dependability of tracking methods used in the analysis of intricate naturalistic and social behaviors in animals.

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“…While large image bases are becoming increasingly available and representative, it is always questionable to which extent are they representative in the context of particular studies, and relevant subselections represent a separate issue. Altogether, the above limitations remain the common drivers of continuous interest in more general and universal computer vision methods suitable for various scenarios where using ad- (Sinitca et al, 2023, Bogachev et al, 2023a, Bogachev et al, 2023b. In a recent work, we have suggested a simple algorithm for a semi-automatic segmentation and quantification of patchy areas in biomedical images considering the local edge density as a quantitative metric of patchiness (Sinitca et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Multi-Class Segmentation of Heterogeneous Areas in Biomedical and Environmental Images Based on the Assessment of Local Edge Density

Sinitca,

Lyanova,

Kaplun

et al. 2023

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. Imaging techniques employed in biomedical and ecological applications typically require complex equipment and experimental approaches, including sophisticated multispectral cameras, as well as physical markup of samples, altogether limiting their broad availability. Accordingly, computerized methods allowing to obtain similar information from images obtained in visible light spectrum with reasonable accuracy are of considerable interest. Edge detection methods are commonly used to find discriminating curves in image segmentation. Here we follow an alternative route and employ edge detection results as a separate metric characterizing local structural properties of the image. In turn, their characteristics such as density or orientation averaged in a gliding window are used as a virtual channel substituting multispectral imaging and/or physical markup of samples, and the following image segmentation procedures are performed by thresholding. In complex segmentation scenarios, a single fixed threshold often appears sufficient, and thus relevant adaptive multi-threshold algorithms are of interest, with slope difference distribution (SDD) thresholding algorithm representing a prominent example.

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Video-based marker-free tracking and multi-scale analysis of mouse locomotor activity and behavioral aspects in an open field arena: A perspective approach to the quantification of complex gait disturbances associated with Alzheimer's disease

Cited by 6 publications

References 70 publications

Convolutional neural network model detected lasting behavioral changes in mouse with kanamycin-induced unilateral inner ear dysfunction

Convolutional neural network model detected lasting behavioral changes in mouse with kanamycin-induced unilateral inner ear dysfunction

vmTracking: Virtual Markers Overcome Occlusion and Crowding in Multi-Animal Pose Tracking

Multi-Class Segmentation of Heterogeneous Areas in Biomedical and Environmental Images Based on the Assessment of Local Edge Density

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