Biomedical Engineering Reference
In-Depth Information
16. Woo SLY, Buckwalter JA (1988) Injury and repair of the musculoskeletal soft tissues.
J Orthop Res 6(6):907-931
17. Newton PO, Woo SLY, Mackenna DA, Akeson WH (1995) Immobilization of the knee joint
alters the mechanical and ultrastructural properties of the rabbit anterior cruciate ligament.
J Orthop Res 13(2):191-200
18. Woo SLY, Ritter MA, Amiel D, Sanders TM, Gomez MA, Kuel SC, Garfin SR, Akeson WH
(1980) The biomechanical and biochemical properties of swine tendons—long-term effects of
exercise on the digital extensors. Connect Tissue Res 7(3):177-183
19. Woo SLY, Amiel D, Akeson WH, Kuei SC, Tipton CM (1979) Effect of long-term exercise on
ligaments, tendons, and bones of swine. Med Sci Sports Exerc 11(1):105
20. Woo SLY, Gomez MA, Amiel D, Ritter MA, Gelberman RH, Akeson WH (1981) The effects
of exercise on the biomechanical and biochemical properties of swine digital flexor tendons.
J Biomech Eng-T ASME 103(1):51-56
21. Frank C, Akeson WH, Woo SLY, Amiel D, Coutts RD (1984) Physiology and therapeutic
value of passive joint motion. Clin Orthop Relat Res 185:113-125
22. Lee TQ, Woo SLY (1988) A new method for determining cross-sectional shape and area of
soft-tissues. J Biomech Eng-T ASME 110(2):110-114
23. Woo SLY, Danto MI, Ohland KJ, Lee TQ, Newton PO (1990) The use of a laser micrometer
system to determine the cross-sectional shape and area of ligaments—a comparative-study
with 2 existing methods. J Biomech Eng-T ASME 112(4):426-431
24. Moon DK, Abramowitch SD, Woo SLY (2006) The development and validation of a charge-
coupled device laser reflectance system to measure the complex cross-sectional shape and area
of soft tissues. J Biomech 39(16):3071-3075. doi:
10.1016/j.jbiomech.2005.10.029
25. Danto MI, Woo SLY (1993) The mechanical-properties of skeletally mature rabbit anterior
cruciate ligament and patellar tendon over a range of strain rates. J Orthop Res 11(1):58-67
26. Noyes FR, Delucas JL, Torvik PJ (1974) Biomechanics of anterior cruciate ligament failure—
analysis of strain-rate sensitivity and mechanisms of failure in primates. J Bone Joint Surg Am
56(2):236-253
27. Noyes FR, Grood ES (1976) Strength of anterior cruciate ligament in humans and Rhesus-
monkeys. J Bone Joint Surg Am 58(8):1074-1082
28. Noyes FR, Butler DL, Grood ES, Zernicke RF, Hefzy MS (1984) Biomechanical analysis of
human ligament grafts used in knee-ligament repairs and reconstructions. J Bone Joint Surg
Am 66A(3):344-352
29. Lam TC, Shrive NG, Frank CB (1995) Variations in rupture site and surface strains at failure in
the maturing rabbit medial collateral ligament. J Biomech Eng-T ASME 117(4):455-461
30. Harner CD, Baek GH, Vogrin TM, Carlin GJ, Kashiwaguchi S, Woo SLY (1999) Quantitative
analysis of human cruciate ligament insertions. Arthroscopy 15(7):741-749
31. Spalazzi JP, Gallina J, Fung-Kee-Fung SD, Konofagou EE, Lu HH (2006) Elastographic
imaging of strain distribution in the anterior cruciate ligament and at the ligament-bone
insertions. J Orthop Res 24(10):2001-2010. doi:
10.1002/jor.20260
32. Hastings DE (1980) The non-operative management of collateral ligament injuries of the knee-
joint. Clin Orthop Relat Res 147:22-28
33. Weiss JA, Woo SLY, Ohland KJ, Horibe S, Newton PO (1991) Evaluation of a new injury
model to study medial collateral ligament healing—primary repair versus nonoperative treat-
ment. J Orthop Res 9(4):516-528
34. Edson CJ (2006) Conservative and postoperative rehabilitation of isolated and combined
injuries of the medial collateral ligament. Sports Med Arthrosc 14(2):105-110
35. Firoozbakhsh KK, DeCoster TA, Moneim MS, McGuire MS, Naraghi FF (1996) Staple leg
profile influence on pullout strength—a biomechanical study. Clin Orthop Relat Res
331:300-307
36. Beynnon BD, Meriam CM, Ryder SH, Fleming BC, Johnson RJ (1998) The effect of screw
insertion torque on tendons fixed with spiked washers. Am J Sports Med 26(4):536-539
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