Abstract
BackgroundA new version of the CatWalk XT system was evaluated as a tool for detecting very subtle alteration in gait based on higher speed sample rate; the system could also demonstrate minor changes in neurological function. In this study, we evaluated the neurological outcome of sciatic nerve injury intervened by local injection of hyaluronic acid. Using the CatWalk XT system, we looked for differences between treated and untreated groups and differences within the same group as a function of time so as to assess the power of the Catwalk XT system for detecting subtle neurological change.MethodsPeripheral nerve injury was induced in 36 Sprague–Dawley rats by crushing the left sciatic nerve using a vessel clamp. The animals were randomized into one of two groups: Group I: crush injury as the control; Group II: crush injury and local application with hyaluronic acid. These animals were subjected to neurobehavior assessment, histomorphology evaluation, and electrophysiology study periodically. These data were retrieved for statistical analysis.ResultsThe density of neurofilament and S-100 over the distal end of crushed nerve showed significant differences either in inter-group comparison at various time points or intra-group comparison from 7 to 28 days. Neuronal structure architecture, axon counts, intensity of myelination, electrophysiology, and collagen deposition demonstrate significant differences between the two groups. There was significant difference of SFI and angle of ankle in inter- group analysis from 7 to 28 days, but there were no significant differences in SFI and angle of ankle at time points of 7 and 14 days. In the Cat Walk XT analysis, the intensity, print area, stance duration, and swing duration all showed detectable differences at 7, 14, 21, and 28 days, whereas there were no significant difference at 7 and 14 days with CatWalk 7 testing. In addition, there were no significant differences of step sequence or regularity index between the two versions.ConclusionHyaluronic acid augmented nerve regeneration as early as 7 days after crush injury. This subtle neurological alteration could be detected through the CatWalk XT gait analysis but not the SFI, angle of ankle, or CatWalk 7 methods.
Highlights
A new version of the CatWalk XT system was evaluated as a tool for detecting very subtle alteration in gait based on higher speed sample rate; the system could demonstrate minor changes in neurological function
Treatment with hyaluronic acid (HA) exerted a significant improvement on sciatic function index (SFI) compared with findings obtained with crush injury alone (p < 0.001, F = 19) (Figure 1A) in the intergroup analysis
Following a similar trend of improvement, the parameters of CAMP, conduction latency, and muscle weight were restored by HA from 28 ± 3% to 49 ± 4% (p < 0.001), 260 ± 12% to169.2 ± 19% (p < 0.001), and 57 ± 3% to 73 ± 2% (p < 0.001), respectively (Figures 1C) at 28 days following nerve injury
Summary
A new version of the CatWalk XT system was evaluated as a tool for detecting very subtle alteration in gait based on higher speed sample rate; the system could demonstrate minor changes in neurological function. The most frequently used behavioral test for evaluation of sciatic nerve injury is the walking tract analysis from which the sciatic function index (SFI) has been calculated [3]. Additional tests have been developed including gait-stance duration and kinematic ankle measurement [5,6]. Each of these tests assesses aspects of behavioral deficits, there is still no speed-controlled behavioral test detecting a wide range of both dynamic and static gait after nerve injury
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