Abstract | STUDY DESIGN: Experimental laboratory study. OBJECTIVES: BACKGROUND: METHODS AND MEASURES: Ten female subjects with stage II PTTD walked in the laboratory wearing the AirLift PTTD brace during 3 testing conditions (air bladder inflation to 0, 4, and 7 PSI [SI equivalent: 0, 27,579, and 48,263 Pa]). Kinematics were recorded from the tibia, calcaneus (hindfoot), and first metatarsal (forefoot), using an Optotrak motion analysis system. Comparisons were made between air bladder inflation and the 0-PSI condition for each of the dependent kinematic variables (hindfoot eversion, forefoot abduction, and forefoot dorsiflexion). RESULTS: Greater hindfoot inversion was observed with air bladder inflation during the second rocker (mean, 1.7 degrees; range, -0.7 degrees to 6.1 degrees). Less consistent changes in forefoot plantar flexion and forefoot adduction occurred with air bladder inflation. The greatest change toward forefoot plantar flexion was observed during the third rocker (mean, 1.4 degrees; range, -3.8 degrees to 3.9 degrees). The greatest change towards adduction was observed during the third rocker (mean, 2.3 degrees; range, -3.4 degrees to 6.5 degrees). CONCLUSIONS: On average, the air bladder component of the AirLift PTTD brace was successful in reducing the amount of hindfoot eversion observed in subjects with stage II PTTD; however, the effect on forefoot motion was more variable. Some subjects tested had marked improvement in foot kinematics, while 2 subjects demonstrated negative results. Specific foot characteristics are hypothesized to explain these varied results.
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Authors | Christopher Neville, A Samuel Flemister, Jeff R Houck |
Journal | The Journal of orthopaedic and sports physical therapy
(J Orthop Sports Phys Ther)
Vol. 39
Issue 3
Pg. 201-9
(Mar 2009)
ISSN: 0190-6011 [Print] United States |
PMID | 19252264
(Publication Type: Journal Article, Research Support, Non-U.S. Gov't)
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Topics |
- Analysis of Variance
- Biomechanical Phenomena
- Female
- Humans
- Middle Aged
- Orthotic Devices
- Posterior Tibial Tendon Dysfunction
(physiopathology, therapy)
- Walking
(physiology)
- Weight-Bearing
(physiology)
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