References
- A
llet L., Leemann B., Guyen E., Murphy L., Monnin D., Herrmann F.R., Schnider A., Effect of different walking aids on walking capacity of patients with poststroke hemiparesis, Arch. Phys. Med. Rehabil., 2009, 90 (8), 1408–1413. - B
autmans I., Jansen B., Van Keymolen B., Mets T., Reliability and clinical correlates of 3D-accelerometry based gait analysis outcomes according to age and fall-risk, Gait Posture, 2011, 33 (3), 366–372. - B
ekkers E.M.J., Hoogkamer W., Bengevoord A., Heremans E., Verschueren S.M.P., Nieuwboer A., Freezing-related perception deficits of asymmetrical walking in Parkinson’s disease, Neuroscience, 2017, 364, 122–129. - B
rauer C.A., Coca -Perraillon M., Cutler D.M., Rosen A.B., Incidence and mortality of hip fractures in the United States, JAMA, 2009, 302 (14), 1573–1579. - C
heng S.Y., Levy A.R., Lefaivre K.A., Guy P., Kuramoto L., Sobolev B., Geographic trends in incidence of hip fractures: a comprehensive literature review, Osteoporos Int. a J. Establ. as result Coop between Eur. Found Osteoporos Natl. Osteoporos Found USA, 2011, 22 (10), 2575–2586. - G
ausden E.B., Sin D., Levack A.E., Wessel L.E., Moloney G., Lane J.M., Lorich D.G., Gait Analysis After Intertrochanteric Hip Fracture: Does Shortening Result in Gait Impairment?, J. Orthop. Trauma, 2018, 32 (11), 554–558. - G
ougeon M.A., Zhou L., Nantel J., Nordic Walking improves trunk stability and gait spatial-temporal characteristics in people with Parkinson disease, NeuroRehabilitation, 2017, 41 (1), 205–210. - H
assid E., Rose D., Commisarow J., Guttry M.D.B., Improved Gait Symmetry in Hemiparetic Stroke Patients Induced During Body Weight-Supported Treadmill Stepping, J. Neurol. Rehabil., 1997, 11 (1), 21–26. - H
ausdorff J.M., Gait variability: methods, modeling and meaning, J. Neuroeng. Rehabil., 2005, 2, 19. - H
unt M.A., Birmingham T.B., Bryant D., Jones I., Giffin J.R., Jenkyn T.R., Vandervoort A.A., Lateral trunk lean explains variation in dynamic knee joint load in patients with medial compartment knee osteoarthritis, Osteoarthr. Cartil., 2008, 16 (5), 591–599. - I
ijima S., Shiomi M., Hara T., Verification of Reliability and Validity of Trunk Forward Tilt Angle Measurement During Gait Using 2-Dimensional Motion Analysis, J. Chiropr. Med., 2023, 22 (2), 89–95. - J
ohnell O., Kanis J.A., An estimate of the worldwide prevalence and disability associated with osteoporotic fractures, Osteoporos Int. a J. Establ. as result Coop between Eur. Found Osteoporos Natl. Osteoporos Found USA, 2006, 17 (12), 1726–1733. - K
agaya H., Takahashi H., Sugawara K., Dobashi M., Kiyokawa N., Ebina H., Predicting outcomes after hip fracture repair, Am. J. Phys. Med. Rehabil., 2005, 84 (1), 46–51. - K
anda Y., Investigation of the freely available easy-to-use software “EZR” for medical statistics, Bone Marrow Transplant., 2013, 48 (3), 452–458. - L
ugade V., Wu A., Jewett B., Collis D., Chou L.S., Gait asymmetry following an anterior and anterolateral approach to total hip arthroplasty, Clin. Biomech. (Bristol, Avon), 2010, 25 (7), 675–680. - M
enz H.B., Lord S.R., Fitzpatrick R.C., Acceleration patterns of the head and pelvis when walking on level and irregular surfaces, Gait Posture, 2003, 18 (1), 35–46. - M
ills K., Hettinga B.A., Pohl M.B., Ferber R., Between-limb kinematic asymmetry during gait in unilateral and bilateral mild to moderate knee osteoarthritis, Arch. Phys. Med. Rehabil., 2013, 94 (11), 2241–2247. - M
izuike C., Ohgi S., Morita S., Analysis of stroke patient walking dynamics using a tri-axial accelerometer, Gait Posture, 2009, 30 (1), 60–64. - M
izuta N., Hasui N., Nakatani T., Takamura Y., Fujii S., Tsutsumi M., Taguchi J., Morioka S., Walking characteristics including mild motor paralysis and slow walking speed in post-stroke patients, Sci. Rep., 2020, 10 (1), 11819. - M
oe -Nilssen R., Helbostad J.L., Estimation of gait cycle characteristics by trunk accelerometry, J. Biomech., 2004, 37 (1), 121–126. - N
ightingale E.J., Sturnieks D., Sherrington C., Moseley A.M., Cameron I.D., Lord S.R., Impaired weight transfer persists at least four months after hip fracture and rehabilitation, Clin. Rehabil., 2010, 24 (6), 565–573. - N
oriaki Kato , Chiho Fukusaki K.L., Yuma Kadokura N.I., Improvement in gait asymmetry during Nordic walking in patients with lower extremity osteoarthritis, J. Phys. Fit. Sport Med., 2020, 9 (2), 65–73. - N
urmi I., Narinen A., Lüthje P., Tanninen S., Functional outcome and survival after hip fracture in elderly: a prospective study of 106 consecutive patients, J. Orthop. Traumatol., 2004, 5 (1), 7–14. - O
bata H., Ogawa T., Yokoyama H., Kaneko N., Nakazawa K., Spatiotemporal characteristics of locomotor adaptation of walking with two handheld poles, Exp. Brain Res., 2020, 238 (12), 2973–2982. - P
eyré -Tartaruga L.A., Boccia G., Feijó Martins V., Zoppirolli C., Bortolan L., Pellegrini B., Margins of stability and trunk coordination during Nordic walking, J. Biomech., 2022, 134, 111001. - P
feufer D., Grabmann C., Mehaffey S., Keppler A., Böcker W., Kammerlander C., Neuerburg C., Weight bearing in patients with femoral neck fractures compared to pertrochanteric fractures: A postoperative gait analysis, Injury, 2019, 50 (7), 1324–1328. - R
oerdink M., Roeles S.,van der Pas S.C.H., Bosboom O., Beek P.J., Evaluating asymmetry in prosthetic gait with steplength asymmetry alone is flawed, Gait Posture, 2012, 35 (3), 446–451. - S
adeghi H., Allard P., Prince F., Labelle H., Symmetry and limb dominance in able-bodied gait: a review, Gait Posture, 2000, 12 (1), 34–45. - S
oleimanifar M., Mazaheri M.,van Schooten K.S., Asgari M., Mosallanezhad Z., Salavati M., Sedaghat -Nejad E., Parnianpour M., Magnitude, symmetry and attenuation of upper body accelerations during walking in women: The role of age, fall history and walking surface, Maturitas, 2020, 139, 49–56. - S
uetta C., Magnusson S.P., Rosted A., Aagaard P., Jakobsen A.K., Larsen L.H., Duus B., Kjaer M., Resistance training in the early postoperative phase reduces hospitalization and leads to muscle hypertrophy in elderly hip surgery patients – a controlled, randomized study, J. Am. Geriatr. Soc., 2004, 52 (12), 2016–2022. - S
zpala A., Winiarski S., Kołodziej M., Pietraszewski B., Jasiński R., Niebudek T., Lejczak A., Lorek K., Bałchanowski J., Wudarczyk S., Woźniewski M., No Influence of Mechatronic Poles on the Movement Pattern of Professional Nordic Walkers, Int. J. Environ. Res. Public Health, 2022, 20 (1). - T
hingstad P., Egerton T., Ihlen E.F., Taraldsen K., Moe -Nilssen R., Helbostad J.L., Identification of gait domains and key gait variables following hip fracture, BMC Geriatr., 2015, 15, 150. - T
olo E.T., Bostrom M.P., Simic P.M., Lyden J.P., Cornell C.M., Thorngren K.G., The short term outcome of elderly patients with hip fractures, Int. Orthop., 1999, 23 (5), 279–282. - V
ogt L., Brettmann K., Pfeifer K., Banzer W., Walking patterns of hip arthroplasty patients: some observations on the medio-lateral excursions of the trunk, Disabil. Rehabil., 2003, 25 (7), 309–317. - W
arlop T., Detrembleur C., Buxes Lopez M., Stoquart G., Lejeune T., Jeanjean A., Does Nordic Walking restore the temporal organization of gait variability in Parkinson’s disease?, J. Neuroeng. Rehabil., 2017, 14 (1), 17. - W
hite S.C., Lifeso R.M., Altering asymmetric limb loading after hip arthroplasty using real-time dynamic feedback when walking, Arch. Phys. Med. Rehabil., 2005, 86 (10), 1958–1963. - W
illson J., Torry M.R., Decker M.J., Kernozek T., Steadman J.R., Effects of walking poles on lower extremity gait mechanics, Med. Sci. Sports Exerc., 2001, 33 (1), 142– 147. - W
iniarski S., Czamara A., Evaluation of gait kinematics and symmetry during the first two stages of physiotherapy after anterior cruciate ligament reconstruction, Acta Bioeng. Biomech., 2012, 14 (2), 91–100. - Y
ogev G., Plotnik M., Peretz C., Giladi N., Hausdorff J.M., Gait asymmetry in patients with Parkinson’s disease and elderly fallers: when does the bilateral coordination of gait require attention?, Exp. Brain. Res., 2007, 177 (3), 336–346.