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Bennett, M. B.; Ker, R. F.
The mechanical properties of the human subcalcaneal fat pad in compression
J Anat
. August 1990;171:131-138
Links
PubMed:
2081699
PubMedCentral:
PMC1257133
ISI:
A1990DY58900011
Affiliations
1
Department of Pure and Applied Biology, The University, Leeds LS2 9JT, UK
History
Received: 1990-01-16
Cited Works (4)
Year
Entry
1987
Ker RF, Bennett MB, Bibby SR, Kester RC, Alexander RM. The spring in the arch of the human foot.
Nature
. January 8, 1987;325:147-149.
1980
Cavanagh PR, Lafortune MA. Ground reaction forces in distance running.
J Biomech
. 1980;13(5):397-406.
1981
Nakamura S, Crowninshield RD, Cooper RR. An analysis of soft tissue loading in the foot: a preliminary report.
Bull Prosthet Res
. 1981;18(1):27-34.
1987
Woo SL-Y, Lee TQ, Gomez MA, Sato S, Field FP. Temperature dependent behavior of the canine medial collateral ligament.
J Biomech Eng
. February 1987;109(1):68-71.
Cited By (16)
Year
Entry
2004
Arnoux PJ, Cesari D, Behr M, Thollon L, Brunet C. Pedestrian lower limb injury criteria evaluation a finite element approach. In:
Proceedings of the 2004 International IRCOBI Conference on the Biomechanics of Impact
. September 22-24, 2004; Graz, Austria.193-205.
2001
Bandak FA, Tannous RE, Toridis T. On the development of an osseo-ligamentous finite element model of the human ankle joint.
Int J Solids Struct
. March 2001;38(10-13):1681-1697.
1999
Beillas P, Lavaste F, Nicolopoulos D, Kayventash K, Yang KH, Robin S. Foot and ankle finite element modeling using CT-scan data. In:
Proceedings of the 43rd Stapp Car Crash Conference
. October 25-27, 1999; San Diego, CA. Warrendale, PA: Society of Automotive Engineers:171-184. SAE 99SC11.
2001
Beillas P, Begeman PC, Yang KH, King AI, Arnoux P-J, Kang H-S, Kayvantash K, Brunet C, Cavallero C, Prasad P. Lower limb: advanced FE model and new experimental data.
Stapp Car Crash J
. 2001;45:469-494. SAE 2001-22-0022.
2007
Bose D, Arnoux P-J, Cardot J, Brunet C. Evaluation of knee injury threshold in pedestrian-car crash loading using numerical approach.
Int J Crashworthiness
. 2007;12(4):381-399.
2002
Dhaliwal TS, Beillas P, Chou CC, Prasad P, Yang KH, King AI. Structural response of lower leg muscles in compression: a low impact energy study employing volunteers, cadavers and the Hybrid III.
Stapp Car Crash J
. 2002;46:229-243. SAE 2002-22-0012.
2001
Gefen A, Megido-Ravid M, Itzchak Y. In vivo biomechanical behavior of the human heel pad during the stance phase of gait.
J Biomech
. 2001;34(12):1661-1665.
2000
Hsu T-C, Wang C-L, Shau Y-W, Tang F-T, Li K-L, Chen C-Y. Altered heel-pad mechanical properties in patients with Type 2 diabetes mellitus.
Diabetic Medicine
(Diabetic Med.). December 2000;17(12):854-859.
2002
Hsu T-C, Lee Y-S, Shau Y-W. Biomechanics of the heel pad for type 2 diabetic patients.
Clin Biomech
(Bristol, Avon). May 2002;17(4):291-296.
2004
Ledoux WR, Meaney DF, Hillstrom HJ. A quasi-linear, viscoelastic, structural model of the plantar soft tissue with frequency-sensitive damping properties.
J Biomech Eng
. 2004;126(6):831-837.
2007
Ledoux WR, Blevins JJ. The compressive material properties of the plantar soft tissue.
J Biomech
. 2007;40(13):2975-2981.
2002
Miller-Young JE, Duncan NA, Baroud G. Material properties of the human calcaneal fat pad in compression: experiment and theory.
J Biomech
. 2002;35(2):1523-1531.
2010
Pai S, Ledoux WR. The compressive mechanical properties of diabetic and non-diabetic plantar soft tissue.
J Biomech
. June 18, 2010;43(9):1754-1760.
1993
Scott SH, Winter DA. Biomechanical model of the human foot: kinematics and kinetics during the stance phase of walking.
J Biomech
. 1993;26(9):1091-1104.
2009
Sirimamilla PA.
Elaborate Experimentation for Mechanical Characterization of Human Foot Using Inverse Finite Element Analysis
[Master's thesis]. Cleveland, OH: Case Western Reserve University; 2009.
2012
Wee HB.
The Dynamic Model of the Foot and Ankle System
[PhD thesis]. Lehigh University; September 2012.