Kinematische Analyse von 3D-rekonstruierten Bewegungen der Lendenwirbelsäule und des Beckens beim Beagle in Schritt und Trab

It is generally accepted that mammalian locomotion is characterized by a complex interaction between limb and back movements and that small intervertebral movements additively result in whole spine movements and pelvic displacements, (i. e. in the sagittal body plane during asymmetrical gaits). In c...

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Bibliographic Details
Main Author: Wachs, Katja
Other Authors: Nolte, I.
Format: Doctoral or Postdoctoral Thesis
Language:German
Published: Tierärztliche Hochschule 2015
Subjects:
thesis
Doktorarbeit
ddc:630
Verzeichnis wissenschaftlicher Veröffentlichungen
Hochschulbibliographie allgemein
Dreidimensionale Rekonstruktion
Fortbewegung
Kinematik
Lendenwirbelsäule
Becken
Beagle
Hochschulschrift
Dissertation
Canis lupus familiaris
Lokomotion
vertebral column
canine
locomotion
spine
Canis lupus
Online Access:https://nbn-resolving.org/urn:nbn:de:gbv:95-106994
https://elib.tiho-hannover.de/receive/etd_mods_00000442
https://elib.tiho-hannover.de/servlets/MCRFileNodeServlet/etd_derivate_00000442/wachsk_ss15.pdf
http://gso.gbv.de/DB=2.1/PPNSET?PPN=829335919
Description
Summary:It is generally accepted that mammalian locomotion is characterized by a complex interaction between limb and back movements and that small intervertebral movements additively result in whole spine movements and pelvic displacements, (i. e. in the sagittal body plane during asymmetrical gaits). In comparison to the large amount of studies that investigated kinematics and kinetics of limb movements, as well as recordings of muscle activities of several limb muscles during locomotion, our knowledge of the axial system is surprisingly small, especially regarding pelvic and intervertebral movements. It was hence the aim of this study to quantify and analyze in vivo three-dimensional (3D) lumbar intervertebral and pelvic movements occurring during locomotion utilizing symmetrical gaits in dogs with a non-invasive method. For this, we used ‘Scientific Rotoscoping’, a non-invasive method in the X-ray reconstruction of moving morphology (XROMM). By using a digital high-speed, high-resolution system, we recorded biplanar x-ray videos of the movements of the lumbar spine and pelvis of three Beagles while walking and trotting on a horizontal treadmill. By using CT-scans of each dog, 3D bones were reconstructed and aligned by using ‘virtual joints’ with integrated measurement coordinate systems (ACS) to a digital marionette. Step by step alignment of the digital marionette to the movements of the bony structures seen in the x-ray videos allowed a detailed animation of the occurring joint movements and simultaneous measurement of 3D joint kinematics. Synchronous to the x-ray-video-recordings, two standard-light high-speed video cameras recorded the foot placements used by each dog during locomotion, allowing analysis of joint kinematics in relation to the footfall events. For the first time, we quantified 3D intervertebral movements of the lumbar spine and associated pelvic displacements of dogs using symmetrical gaits and provided novel, non-invasive, in vivo data for their motion patterns. In both gaits, maximal ...

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