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Studies of prosthetic loading by means of pylon transducersMagnissalis, Evangelos A. January 1992 (has links)
No description available.
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Biomechanical analysis of the effect of orthotic shoe insertsRazeghi, Mohsen January 2001 (has links)
No description available.
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Reproducibility of electrodynogram testingTurchyniak, Ronald John January 1993 (has links)
This study investigated the reproducibility of test results of the Langer Electrodynogram (EDG) foot sensor system which quantifies discrete pressures and temporal episodes at the interface of the foot and appropriate surface. In phase one of the study, the effects of transducer placement errors were evaluated by manipulating sensors. In the single subject studied, results suggested that placement errors of a single transducer within ${ pm1}$ cm from its original location do not significantly affect the temporal components of gait, though errors as low as ${ pm0.5}$ cm from an initial position significantly affected pressures. / In phase two, ten healthy subjects performed 25 straight line barefoot walks on each of two separate days at an average natural cadence of 111.06 steps/min. with identical transducer placements on each day. Twenty-five gait variables were analysed for unilateral and asymmetries estimates. Analyses of variance revealed few significant differences among trials. Further, while there were no significant overall differences between days, there were significant subject-by-day interactions due to between-day differences in individual subjects, in part related to inherent subject-performance variability. Since clinicians are interested mainly in individual subject analyses rather than a mythical average subject, caution is advised in data interpretation when monitoring a subject on different days, even with as many as 25 trials per session and identical landmark placements. Pressures, while reliable within a single testing session, should not be used for inter-day comparisons and may not be appropriate for monitoring asymmetries because slight variations in placement will account for the measured differences between limbs.
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Characterization of gait in dextral and nondextral humans /Ayres, Mandy B Unknown Date (has links)
Thesis (PhD)--University of South Australia, 1994
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Characterization of gait in dextral and nondextral humans /Ayres, Mandy B Unknown Date (has links)
Thesis (PhD)--University of South Australia, 1994
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Comparison of flexible electrogoniometers to a 3D optical tracking system for measurements of ankle angles during level walking and runningOuckama, Ryan Andrew. January 1900 (has links)
Thesis (M.Sc.). / Written for the Dept. of Kinesiology and Physical Education. Title from title page of PDF (viewed 2008/05/28). Includes bibliographical references.
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Effects of Two Marker Placement and Data Analysis Methods on Running Gait AnalysisBecker, James N. M., 1979- 03 1900 (has links)
xiii, 143 p. : ill. A print copy of this thesis is available through the UO Libraries. Search the library catalog for the location and call number. / This study evaluated the effects of two marker placement methods and two data
analysis methods on running gait analysis. Markers placed on the shoe heel counter were
compared with markers placed directly on the calcaneous and visible through heel
windows cut into the shoe. When analyzed using a traditional group design no
significant differences were found between marker conditions for rear foot eversion
excursion, percent stance at which peak eversion occurred, maximal instantaneous
eversion velocity, or maximal instantaneous vertical loading rate. Ankle frontal plane
variability was significantly different between conditions. When analyzed with a single
subject design some individuals demonstrated significant differences between conditions
while others did not. In some individuals the heel windows condition revealed previously
masked coupling parameters thought to be related to injury. The results of this study
suggest the heel windows method and single subject analysis should be used for a
longitudinal study of runners. / Committee in Charge:
Dr. Li-Shan Chou, Chair;
Dr. Louis Ostemig;
Dr. Stanley James
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Portable inshoe gait analysis deviceLevin, Mark Raymond 27 September 2023 (has links) (PDF)
Gait analysers are devices or systems that quantify the planter /' pressures as they occur under the foot. The data obtained, be it. in visual or digital format, assists the medical practitioner in the diagnosis of an abnormality of gait. This thesis describes the development of a low-cost, portable, inshoe gait analysis device which overcomes all the limitations experienced by other systems currently in use. The non-availability of .robust, yet small pressure transducers, required the design and manufacture of these components. Capable of being embedded within an insole environment, it allows for the unobtrusive monitoring of localised planter pressures associated with all modes of gait. The transducer output, being analogy and continuous in nature, allows for the production of a real-time pressure display an important requirement for the therapeutic assessment and treatment of patients. The flexibility and accuracy of this system surpasses that of other systems. Its configuration provides for operation in remote environments, allowing for gait measurements under specific ambulation conditions. Use of a new transducer monitoring technique, in addition to a new video mixing technique, has enabled this device to compete with those systems making use of expensive processing and display equipment. Two prototype gait analysis systems have been built and extensively tested under clinical conditions. The results obtained provide unique, hitherto unavailable data, which can now be used for a more precise classification of gait disorders. It is already clear that the data will provide the basis for more accurate diagnosis and therefore more appropriate treatment of a variety of gait.
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The Influence of Partial Weight Bearing on Normal Gait: A Novel Approach for Gait Retraining in Neurological PatientsFinch, L. January 1986 (has links)
No description available.
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Reproducibility of electrodynogram testingTurchyniak, Ronald John January 1993 (has links)
No description available.
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