neurac 2 vibration|诺迪克医疗科技(常熟)有限公司-pg电子下载
时间:2018-07-31 来源:诺迪克医疗 关键词:neurac 2 浏览量:302
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1. arent-nielsen l, graven-nielsen t. muscle pain: sensory implication and interaction with motor control. clin j pain 2008;24(4):291-8
2. beinert k. et al. neck muscle vibration can improve sensorimotor function in patients with neck pain. the spine journal 2015;15:514-21
3. belavy dl et al. superficial lumbopelvic muscle overactivity and decreased cocontraction after 8 weeks of bed rest. spine 2007;32(1):23-9
4. belavy dl et al. tonic to phasic shift of lumbal-pelvic muscle activity during 8 weeks of bed-rest and 6-month follow up. j appl physiol. 2007;103:48-52
5. boucher et al. the effects of vibration and muscle fatigue on trunk sensorimotor control in low back pain patients. plos one 2015 aug 26;10(8):e0135838. doi: 10.1371/journal.pone.0135838
6. brodal p. smertens nevrobiologi. tidsskr nor lægeforen 2005;17(125):2370-3
7. brumagne s et al. the role of paraspinal muscle spindles in lumbosacral position sense in individuals with and without low back pain. spine 2000;25:989-94
8. burke d et al. the responses of human muscle spindle endings to vibration of noncontracting muscles. j physiol 1976;261(3):673-93
9. butler hl et al. changes in electromyographic activity of trunk muscles within the sub-acute phase for individuals deemed recovered from a low back injury. journal of electromyography and kinesiology 2013;23:369-77
10. cardinale m, bosco c. the use of vibration as an exercise intervention. exerc sport sci rev 2003;31:3-7 11. d´hooge et al. altered trunk muscle coordination during rapid trunk flexion in people in remission of recurrent low back pain. j electromyogr kinesiol 2013;23:173-81
12. falla d et al. feedforward activity of the cervical flexor muscles during voluntary arm movements is delayed in chronic neck pain. exp brain res 2004;157(1):43-8
13. falla d et al. effect of pain on the modulation in discharge rate of sternocleidomastoid motor units with force direction. clin neurophysiol 2010;121:744-53
14. fallon jb, macefield vg. vibration sensitivity of human muscle spindles and golgi tendon organs. muscle nerve 2007;36:21-9
15. graven-nielsen t et al. inhibition of maximal voluntary contraction force by experimental muscle pain: a centrally mediated mechanism. muscle nerve 2002;26(5):708-12
16. henry sm et al. decreased limits of stability in response to postural perturbations in subjects with low back pain. clinical biomechanics 2006;21(9):881-92
17. hijmans jm et al. effects of vibrating insoles on standing balance in diabetic neurophathy. j rehab res & develop 2008;45(9):1441-50
18. hodges pw, richardson ca. altered trunk muscle recruitment in people with low back pain with upper limb movement at different speeds. arch phys med rehabil 1999;80(9):1005-12
19. hodges pw et al. experimental muscle pain changes feedforward postural responses of the trunk muscles. exp brain res 2003;151(2):262-71
20. hodges pw et al. new insight into motor adaption to pain revealed by a combination of modelling and empirical approaches. eur j pain 2013;17:1138-46
21. hollins m et al. vibratory antinociception: effects of vibration amplitude and frequency. j pain 2003;4(7):381-91
22. hollins m et al. how does vibration reduce pain. perception 2014;43:70-84
23. issurin vb et al. effect of vibratory stimulation on maximal force and flexibility. j sports sci 1994;12:561-66
24. kakigi r, shibasaki h. mechanisms of pain relief by vibration and movement. j neurol neurosurg psychiatry 1992;55(4):282-6
25. kim e et al. effect of vibration frequency on serratus anterior muscle activity during performance of the push-up plus with a redcord sling. journal of physical therapy science 2014;26(8):1275-6
2. beinert k. et al. neck muscle vibration can improve sensorimotor function in patients with neck pain. the spine journal 2015;15:514-21
3. belavy dl et al. superficial lumbopelvic muscle overactivity and decreased cocontraction after 8 weeks of bed rest. spine 2007;32(1):23-9
4. belavy dl et al. tonic to phasic shift of lumbal-pelvic muscle activity during 8 weeks of bed-rest and 6-month follow up. j appl physiol. 2007;103:48-52
5. boucher et al. the effects of vibration and muscle fatigue on trunk sensorimotor control in low back pain patients. plos one 2015 aug 26;10(8):e0135838. doi: 10.1371/journal.pone.0135838
6. brodal p. smertens nevrobiologi. tidsskr nor lægeforen 2005;17(125):2370-3
7. brumagne s et al. the role of paraspinal muscle spindles in lumbosacral position sense in individuals with and without low back pain. spine 2000;25:989-94
8. burke d et al. the responses of human muscle spindle endings to vibration of noncontracting muscles. j physiol 1976;261(3):673-93
9. butler hl et al. changes in electromyographic activity of trunk muscles within the sub-acute phase for individuals deemed recovered from a low back injury. journal of electromyography and kinesiology 2013;23:369-77
10. cardinale m, bosco c. the use of vibration as an exercise intervention. exerc sport sci rev 2003;31:3-7 11. d´hooge et al. altered trunk muscle coordination during rapid trunk flexion in people in remission of recurrent low back pain. j electromyogr kinesiol 2013;23:173-81
12. falla d et al. feedforward activity of the cervical flexor muscles during voluntary arm movements is delayed in chronic neck pain. exp brain res 2004;157(1):43-8
13. falla d et al. effect of pain on the modulation in discharge rate of sternocleidomastoid motor units with force direction. clin neurophysiol 2010;121:744-53
14. fallon jb, macefield vg. vibration sensitivity of human muscle spindles and golgi tendon organs. muscle nerve 2007;36:21-9
15. graven-nielsen t et al. inhibition of maximal voluntary contraction force by experimental muscle pain: a centrally mediated mechanism. muscle nerve 2002;26(5):708-12
16. henry sm et al. decreased limits of stability in response to postural perturbations in subjects with low back pain. clinical biomechanics 2006;21(9):881-92
17. hijmans jm et al. effects of vibrating insoles on standing balance in diabetic neurophathy. j rehab res & develop 2008;45(9):1441-50
18. hodges pw, richardson ca. altered trunk muscle recruitment in people with low back pain with upper limb movement at different speeds. arch phys med rehabil 1999;80(9):1005-12
19. hodges pw et al. experimental muscle pain changes feedforward postural responses of the trunk muscles. exp brain res 2003;151(2):262-71
20. hodges pw et al. new insight into motor adaption to pain revealed by a combination of modelling and empirical approaches. eur j pain 2013;17:1138-46
21. hollins m et al. vibratory antinociception: effects of vibration amplitude and frequency. j pain 2003;4(7):381-91
22. hollins m et al. how does vibration reduce pain. perception 2014;43:70-84
23. issurin vb et al. effect of vibratory stimulation on maximal force and flexibility. j sports sci 1994;12:561-66
24. kakigi r, shibasaki h. mechanisms of pain relief by vibration and movement. j neurol neurosurg psychiatry 1992;55(4):282-6
25. kim e et al. effect of vibration frequency on serratus anterior muscle activity during performance of the push-up plus with a redcord sling. journal of physical therapy science 2014;26(8):1275-6