Correlation between rotational moments of the knee and other joints during gait, including the free moment of patients with a medial meniscus tear

[1] Anan M., Hattori H., Tanimoto K., Wakimoto Y., Ibara T., Kito N., Shinkoda K., The coordination of joint movements during sit-to-stand motion in old adults: the uncontrolled manifold analysis, Phys. Ther. Res., 2017, 20 (2), 44–50. Search in Google Scholar

[2] Andriacchi T.P., Mundermann A., The role of ambulatory mechanics in the initiation and progression of knee osteoarthritis, Curr. Opin. Rheumatol., 2006, 18 (5), 514–518. Search in Google Scholar

[3] Arnoczky S.P., Warren R.F., Microvasculature of the human meniscus, Am. J. Sports Med., 1982, 10 (2), 90–95. Search in Google Scholar

[4] Astephen J.L., Deluzio K.J., Caldwell G.E., Dunbar M.J., Hubley-Kozey C.L., Gait and neuromuscular pattern changes are associated with differences in knee osteoarthritis severity levels, J. Biomech., 2008, 41 (4), 868–876. Search in Google Scholar

[5] Astephen Wilson J.L., Hatfield G., Stanish W.D., Hubley-Kozey C.L., Asymptomatic individuals with radiographic evidence of knee osteoarthritis walk with different knee mechanics patterns than symptomatic individuals with the same radiographic evidence, Osteoarthritis Cartilage, 2013, 21, S49–S50. Search in Google Scholar

[6] Becker R., Berth A., Nehring M., Awiszus F., Neuromuscular quadriceps dysfunction prior to osteoarthritis of the knee, J. Orthop. Res., 2004, 22 (4), 768–773. Search in Google Scholar

[7] Bhattacharyya T., Gale D., Dewire P., Totterman S., Gale M.E., The clinical importance of meniscal tears demonstrated by magnetic resonance imaging in osteoarthritis of the knee, J. Bone Joint Surg., 2003, 85 (1), 4–9. Search in Google Scholar

[8] Carter T. E., Taylor K.A., Spritzer C.E., Utturkar G.M., Taylor D.C., Moorman C.T. 3rd, Garrett W.E., Guilak F., McNulty A.L., DeFrate L.E., In vivo cartilage strain increases following medial meniscal tear and correlates with synovial fluid matrix metalloproteinase activity, J. Biomech., 2015, 48 (8), 1461–1468. Search in Google Scholar

[9] Chahla J., Cinque M.E., Godin J.A., Geeslin A.G., Moatshe G., LaPrade R.F., Review of Arnoczky and Warren on the microvasculature of the human meniscus, J. Isakos, 2017, 2 (4), 229–232. Search in Google Scholar

[10] Costa R.A., Oliveira L.M., Watanabe S.H., Jones A., Natour J., Isokinetic assessment of the hip muscles in patients with osteoarthritis of the knee, Clinics, 2010, 65 (12), 1253–1259. Search in Google Scholar

[11] Furumatsu T., Okazaki Y., Okazaki Y., Hino T., Kamatsuki Y., Masuda S., Miyazawa S., Nakata E., Hasei J., Kunisada T., Ozaki T., Injury patterns of medial meniscus posterior root tears, Orthop. Traumatol. Surg. Res., 2019, 105 (1), 107–111. Search in Google Scholar

[12] Gök H., Ergin S., Yavuzer G., Kinetic and kinematic characteristics of gait in patients with medial knee arthrosis, Acta Orthop. Scand., 2002, 73 (6), 647–652. Search in Google Scholar

[13] Greis P.E., Bardana D.D., Holmstrom M.C., Burks R.T., Meniscal injury: I. Basic science and evaluation, J. Am. Acad. Orthop. Surg., 2002, 10 (3), 168–176. Search in Google Scholar

[14] Harding G.T., Hubley-Kozey C.L., Dunbar M.J., Stanish W.D., Astephen Wilson J.L., Body mass index affects knee joint mechanics during gait differently with and without moderate knee osteoarthritis, Osteoarthritis cartilage, 2012, 20 (11), 1234–1242. Search in Google Scholar

[15] Hinman R.S., Hunt M.A., Creaby M.W., Wrigley T.V., McManus F.J., Bennell K.L., Hip muscle weakness in individuals with medial knee osteoarthritis, Arthritis Care Res., 2010, 62 (8), 1190–1193. Search in Google Scholar

[16] Holden J.P., Cavanagh P.R., The free moment of ground reaction in distance running and its changes with pronation, J. Biomech., 1991, 24 (10), 887–897. Search in Google Scholar

[17] Kaufman K.R., Hughes C., Morrey B.F., Morrey M., An K.N., Gait characteristics of patients with knee osteoarthritis, J. Biomech., 2001, 34 (7), 907–915. Search in Google Scholar

[18] Landry S.C., McKean K.A., Hubley-Kozey C.L., Stanish W.D., Deluzio K.J., Knee biomechanics of moderate OA patients measured during gait at a self-selected and fast walking speed, J. Biomech., 2007, 40 (8), 1754–1761. Search in Google Scholar

[19] Lange A.K., Fiatarone Singh M.A., Smith R.M., Foroughi N., Baker M.K., Shnier R., Vanwanseele B., Degenerative meniscus tears and mobility impairment in women with knee osteoarthritis, Osteoarthritis Cartilage, 2007, 15 (6), 701–708. Search in Google Scholar

[20] Luc-Harkey B.A., Safran-Norton C.E., Mandl L.A., Katz J.N., Losina E., Associations among knee muscle strength, structural damage, and pain and mobility in individuals with osteoarthritis and symptomatic meniscal tear, BMC Musculoskelet. Disord., 2018, 19 (1), 258. Search in Google Scholar

[21] Magyar M.O., Knoll Z, Kiss R.M., The influence of medial meniscus injury and meniscectomy on the variability of gait parameters, Knee Surg. Sports Traumatol. Arthrosc., 2012, 20 (2), 290–297. Search in Google Scholar

[22] Marsh C.A., Martin D.E., Harner C.D., Tashman S., Effect of Posterior Horn Medial Meniscus Root Tear on In Vivo Knee Kinematics, Orthop. J. Sports Med., 2014, 2 (7), 2325967114541220. Search in Google Scholar

[23] Meireles S., Wesseling M., Smith C.R., Thelen D.G., Verschueren S., Jonkers I., Medial knee loading is altered in subjects with early osteoarthritis during gait but not during step-up-and-over task, PloS one, 2017, 12 (11), e0187583. Search in Google Scholar

[24] Milner C.E., Davis I.S., Hamill J., Free moment as a predictor of tibial stress fracture in distance runners, J. Biomech., 2006, 39 (15), 2819–2825. Search in Google Scholar

[25] Mine T., Kimura M., Sakka A., Kawai S., Innervation of nociceptors in the menisci of the knee joint: an immunohistochemical study, Arch. Orthop. Trauma Surg., 2000, 120 (3–4), 201–204. Search in Google Scholar

[26] Peña E., Calvo B., Martínez M.A., Palanca D., Doblaré M., Finite element analysis of the effect of meniscal tears and meniscectomies on human knee biomechanics, Clin. Biomech., 2005, 20 (5), 498–507. Search in Google Scholar

[27] Russell C., Pedoia V., Souza R.B., Majumdar S., Cross-sectional and longitudinal study of the impact of posterior meniscus horn lesions on adjacent cartilage composition, patient-reported outcomes and gait biomechanics in subjects without radiographic osteoarthritis, Osteoarthritis Cartilage, 2017, 25 (5), 708–717. Search in Google Scholar

[28] Stärke C., Kopf S., Lippisch R., Lohmann C.H., Becker R., Tensile forces on repaired medial meniscal root tears, Arthroscopy, 2013, 29 (2), 205–212. Search in Google Scholar

[29] Sturnieks D.L., Besier T.F., Hamer P.W., Ackland T.R., Mills P.M., Stachowiak G.W., Podsiadlo P., Lloyd D.G., Knee strength and knee adduction moments following arthroscopic partial meniscectomy, Med. Sci. Sports Exerc., 2008, 40 (6), 991–997. Search in Google Scholar

[30] Tateuchi H., Koyama Y., Akiyama H., Goto K., So K., Kuroda Y., Ichihashi N., Radiographic and clinical factors associated with one-leg standing and gait in patients with mild-to-moderate secondary hip osteoarthritis, Gait Posture, 2016, 49, 207–212. Search in Google Scholar

[31] Tevald M.A., Murray A., Luc B.A., Lai K., Sohn D., Pietrosimone B., Hip abductor strength in people with knee osteoarthritis: A cross-sectional study of reliability and association with function, Knee, 2016, 23 (1), 57–62. Search in Google Scholar

[32] Zhang K., Li L., Yang L., Shi J., Zhu L., Liang H., Wang X., Yang X., Jiang Q., Effect of degenerative and radial tears of the meniscus and resultant meniscectomy on the knee joint: a finite element analysis, J. Orthop. Translat., 2019, 18, 20–31. Search in Google Scholar