The effect of flatfoot deformity and tendon loading on the work of friction measured in the posterior tibial tendon

Abstract Background There is limited information regarding the mechanical factors contributing to the progression of posterior tibial tendon dysfunction. Therefore, an investigation of the mechanical forces on the posterior tibial tendon may improve our understanding of this pathology. Methods The g...

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Published in:Clinical biomechanics (Bristol) 2007-06, Vol.22 (5), p.592-598
Main Authors: Arai, Kenichiro, Ringleb, Stacie I, Zhao, Kristin D, Berglund, Lawrence J, Kitaoka, Harold B, Kaufman, Kenton R
Format: Article
Language:English
Subjects:
Adult
Aged
Aged, 80 and over
Biomechanics
Cadaver
Computer Simulation
Flatfoot
Flatfoot - etiology
Flatfoot - physiopathology
Foot
Friction
Humans
In Vitro Techniques
Middle Aged
Models, Biological
Physical Medicine and Rehabilitation
Posterior tibial tendon dysfunction
Posterior Tibial Tendon Dysfunction - complications
Posterior Tibial Tendon Dysfunction - physiopathology
Tendon
Tendons - physiopathology
Tibia - physiopathology
Weight-Bearing
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Summary:Abstract Background There is limited information regarding the mechanical factors contributing to the progression of posterior tibial tendon dysfunction. Therefore, an investigation of the mechanical forces on the posterior tibial tendon may improve our understanding of this pathology. Methods The gliding resistance and excursion of the posterior tibial tendon in the retromalleolar region was measured in seven cadaveric lower limbs in the coronal, transverse, and sagittal planes. These data were used to calculate the work of friction and to characterize the effect of different tendon loading levels (0.5, 1.0, and 2.0 kg) in the intact and flatfoot conditions. Findings Flatfoot deformity significantly increased the excursion of the posterior tibial tendon ( P < 0.05), increased forefoot and hindfoot range of motion in the coronal and transverse planes ( P < 0.05) and the work of friction in the coronal and transverse planes ( P < 0.05), but not in the sagittal plane. There was a significant increase in the work of friction between 0.5 and 2 kg ( P < 0.05) in all three planes of motion. Interpretation The motions in the coronal and transverse planes have a greater effect on the work of friction of the posterior tibial tendon than sagittal plane motion in the flatfoot condition. This study suggests that aggressive treatment of early stage PTT dysfunction with bracing designed to limit coronal and transverse motions, while permitting sagittal motion should be investigated further. Such bracing may decrease the potential of progressive deformity while allowing for more normal ambulation.
ISSN:0268-0033
1879-1271
DOI:10.1016/j.clinbiomech.2007.01.011