Want to learn more about CatWalk? We have a great variety of materials for you to read and watch.
These materials will help you better understand the ins and outs of your gait analysis system. CatWalk Here is an overview of some recent publications with CatWalk. If you feel like your publication should be on this list, send us an e-mail at: [email protected]. Timotius, I.K.; Roelofs, R.F.; Richmond-Hacham, B.; Noldus, L.P.; von Hörsten, S.; Bikovski, L. CatWalk Gait Parameters: A Review of Reported Parameters in Pre-Clinical Studies of Multiple Central Nervous System and Peripheral Nervous System Disease Models. Front. Behav. Neurosci. 2023, 17, 1147784. Zheng, G.; Zhang, H.; Tail, M.; Wang, H.; Walter, J.; Skutella, T.; Unterberg, A.; Zweckberger, K.; Younsi, A. Assessment of Hindlimb Motor Recovery after Severe Thoracic Spinal Cord Injury in Rats: Classification of CatWalk® Gait Analysis Parameters. Neural Regen. Res. 2023, 18, 1084. Dolińska, A.; Górka, D.; Trzęsicki, M.; Białoń, N.; Górka, M. The Role of Training and Hyperbaria in the Rehabilitation Process after Crushing Injury of the Sciatic Nerve in Mice. J. Educ. Health Sport 2023, 13, 150–159. Brody, A.H.; Nies, S.H.; Guan, F.; Smith, L.M.; Mukherjee, B.; Salazar, S.A.; Lee, S.; Lam, T.K.T.; Strittmatter, S.M. Alzheimer Risk Gene Product Pyk2 Suppresses Tau Phosphorylation and Phenotypic Effects of Tauopathy. Mol. Neurodegener. 2022, 17, 32. Haas, E.; Incebacak, R.D.; Hentrich, T.; Huridou, C.; Schmidt, T.; Casadei, N.; Maringer, Y.; Bahl, C.; Zimmermann, F.; Mills, J.D.; et al. A Novel SCA3 Knock-in Mouse Model Mimics the Human SCA3 Disease Phenotype. Mol. Neurobiol. 2022, 59, 495–522. Walter, J.; Mende, J.; Hutagalung, S.; Grutza, M.; Younsi, A.; Zheng, G.; Unterberg, A.W.; Zweckberger, K. Focal Lesion Size Poorly Correlates with Motor Function after Experimental Traumatic Brain Injury in Mice. PLOS ONE 2022, 17, e0265448. Zhu, Q.; Song, J.; Chen, J.-Y.; Yuan, Z.; Liu, L.; Xie, L.-M.; Liao, Q.; Ye, R.D.; Chen, X.; Yan, Y.; et al. Corynoxine B Targets at HMGB1/2 to Enhance Autophagy for α-Synuclein Clearance in Fly and Rodent Models of Parkinson's Disease. Acta Pharm. Sin. B 2023, 13, 2701–2714. Ko, J.-Y.; Wang, F.-S.; Lian, W.-S.; Fang, H.-C.; Kuo, S.-J. Cartilage-Specific Knockout of MiRNA-128a Expression Normalizes the Expression of Circadian Clock Genes (CCGs) and Mitigates the Severity of Osteoarthritis. Biomed. J. 2023, 100629. Pawletko, K.; Jędrzejowska-Szypulka, H.; Bogus, K.; Pascale, A.; Fahmideh, F.; Marchesi, N.; Grajoszek, A.; Gendosz de Carrillo, D.; Barski, J.J. After Ischemic Stroke, Minocycline Promotes a Protective Response in Neurons via the RNA-Binding Protein HuR. Int. J. Mol. Sci. 2023, 24, 9446. Yerofeyeva, A.-M.V.; Pinchuk, S.V.; Rjabceva, S.N.; Molchanova, A.Y. The Role of Cannabinoid CB1 Receptors in the Antinociceptive and Reparative Actions of Mesenchymal Stem Cells in Rats with Peripheral Neuropathic Pain. Ibrain. There are over 6,480 publications based on CatWalk, which is at least 4 times more than with any other gait analysis system! Check out our resources section for an overview of publications for a variety of models, like sciatic nerve injury, Parkinson's Disease, Ataxia, and many more. Source: Google Scholar 2024 Pediatric Storage Disorders Laboratory Washington University School of Medicine, St. Louis, USA Interested in CatWalk? Want to learn more about how CatWalk can support your gait analysis research? Contact us for a free demo or pricing information.Resources and publications
Selected publications
Most cited gait analysis system
Bayer
Brown University
Caltech
Charles River
University of Washington
Novartis
Bayer
Brown University
Caltech
Charles River
University of Washington
Novartis
Your guide to everything gait analysis: A free guidebook
"Our lab has been using CatWalk since 2015, and we have found that it is an invaluable tool for our research and provides a reliable and detailed analysis of gait and how it varies in our disease models."
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