Publication date: 15 February 2018
Source:Journal of Neuroscience Methods, Volume 296
Author(s): Ivanna K. Timotius, Fabio Canneva, Georgia Minakaki, Cristian Pasluosta, Sandra Moceri, Nicolas Casadei, Olaf Riess, Jürgen Winkler, Jochen Klucken, Stephan von Hörsten, Bjoern Eskofier
BackgroundSway is a crucial gait characteristic tightly correlated with the risk of falling in patients with Parkinsońs disease (PD). So far, the swaying pattern during locomotion has not been investigated in rodent models using the analysis of dynamic footprint recording obtained from the CatWalk gait recording and analysis system.New methodsWe present three methods for describing locomotion sway and apply them to footprint recordings taken from C57BL6/N wild-type mice and two different α-synuclein transgenic PD-relevant mouse models (α-synm-ko, α-synm-koxα-synh-tg). Individual locomotion data were subjected to three different signal processing analytical approaches: the first two methods are based on Fast Fourier Transform (FFT), while the third method uses Low Pass Filters (LPF). These methods use the information associated with the locomotion sway and generate sway-related parameters.ResultsThe three proposed methods were successfully applied to the footprint recordings taken from all paws as well as from front/hind-paws separately. Nine resulting sway-related parameters were generated and successfully applied to differentiate between the mouse models under study. Namely, α-synucleinopathic mice revealed higher sway and sway itself was significantly higher in the α-synm-koxα-synh-tg mice compared to their wild-type littermates in eight of the nine sway-related parameters.Comparison with existing methodPrevious locomotion sway index computation is based on the estimated center of mass position of mice.ConclusionsThe methods presented in this study provide a sway-related gait characterization. Their application is straightforward and may lead to the identification of gait pattern derived biomarkers in rodent models of PD.
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