Publications

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[ Author(Asc)] Title Type Year
Y
Yan D, Willett TL, Gu X-M, et al. Phenotypic variation of fluoride responses between inbred strains of mice. Cells Tissues Organs. 2011;194(2-4):261-267.
W
Wynnyckyj C, Omelon S, Willett TL, et al. Mechanism of bone collagen degradation due to KOH treatment. Biochimica et Biophysica Acta (BBA)-General Subjects. 2011;1810(2):192-201.
Wynnyckyj C, Willett TL, Omelon S, et al. Changes in bone fatigue resistance due to collagen degradation. Journal of Orthopaedic Research. 2011;29(2):197-203.
Wynnyckyj C, Omelon S, Willett TL, Kyle K, Grynpas MD. How collagen degradation affects the mechanical properties of bone?. Bone. 2009;(44):S255-S256.
Wynnyckyi CA, Omelon S, Wang J, Willett TL, Grynpas MD. The Effect of Collagen Degradation on the Fatigue Behaviour of Emu Bone. JOURNAL OF BONE AND MINERAL RESEARCH. 2008;23:S492-S492.
Woodside M, Willett TL. Fracture Toughness Testing of Cortical Bone. In: Experimental Methods in Orthopaedic Biomechanics. Academic Press; 2017:185-200.
Woodside M, Willett TL. Elastic–plastic fracture toughness and rising JR-curve behavior of cortical bone is partially protected from irradiation–sterilization-induced degradation by ribose protectant. Journal of the mechanical behavior of biomedical materials. 2016;64:53-64.
Willett TL, Dapaah DY, Uppuganti S, Granke M, Nyman JS. Bone collagen network integrity and transverse fracture toughness of human cortical bone. Bone. 2019;120:187-193.
Willett T, Josey D, Lu RXing Ze, Minhas G, Montesano J. The micro-damage process zone during transverse cortical bone fracture: No ears at crack growth initiation. Journal of the mechanical behavior of biomedical materials. 2017;74:371-382.
Willett T. Compositions and methods for improving toughness of irradiated sterilized bone allografts. 2016.
Willett TL, Burton B, Woodside M, et al. γ-Irradiation sterilized bone strengthened and toughened by ribose pre-treatment. journal of the mechanical behavior of biomedical materials. 2015;44:147-155.
Willett TL, Pasquale J, Grynpas MD. Collagen modifications in postmenopausal osteoporosis: advanced glycation endproducts may affect bone volume, structure and quality. Current osteoporosis reports. 2014;12(3):329-337.
Willett TL, Sutty S, Gaspar A, Avery N, Grynpas M. In vitro non-enzymatic ribation reduces post-yield strain accommodation in cortical bone. Bone. 2013;52(2):611-622.
Willett TL, Kandel R, De Croos JNA, Avery NC, Grynpas MD. Enhanced levels of non-enzymatic glycation and pentosidine crosslinking in spontaneous osteoarthritis progression. Osteoarthritis and cartilage. 2012;20(7):736-744.
Willett TL, Decroos A, Avery N, Kandel R, Grynpas M. 117 A NEW MODEL TO STUDY THE EFFECTS OF ADVANCED GLYCATION ENDPRODUCTS ON THE PROGRESSION OF SPONTANEOUS OSTEOARTHRITIS. Osteoarthritis and Cartilage. 2011;19:S61.
Willett TL, Wynnyckyj C, Wang J, Grynpas MD. The fatigue resistance of rabbit tibiae varies with age from youth to middle age. Osteoporosis international. 2011;22(4):1157-1165.
Willett TL, Labow RS, Aldous IG, Avery NC, J Lee M. Changes in collagen with aging maintain molecular stability after overload: evidence from an in vitro tendon model. Journal of biomechanical engineering. 2010;132(3).
Willett TL, Labow RS, Lee JM. Thermal stability of collagen in an in vitro tensile overload tendon model. J Bone Joint Soc Br. 2009;91:217-20.
Willett TL, Labow RS, Lee JM. PATHOMECHANICS OF SPRAINS AND STRAINS: CHANGES IN MOLECULAR STATE DUE TO COLLAGEN FIBRE OVEREXTENSION. Orthopaedic Proceedings. 2009;91(SUPP_II):217-217.
Willett TLarson. Molecular-level changes in collagen due to in vitro tensile overload in a tendon model. 2009.

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