Changes in Passive Mechanical Properties of the Gastrocnemius Muscle at the Muscle Fascicle and Joint Levels in Stroke Survivors

References 

1. Singer B, Dunne J, Allison G. Reflex and non-reflex elements of hypertonia in triceps surae muscles following acquired brain injury: implications for rehabilitation. Disabil Rehabil. 2001;23:749–757
   • MEDLINE
   • CrossRef
2. Harlaar J, Becher JG, Snijders CJ, Lankhorst GJ. Passive stiffness characteristics of ankle plantar flexors in hemiplegia. Clin Biomech (Bristol, Avon). 2000;15:261–270
   • Abstract
   • Full Text
   • Full-Text PDF (222 KB)
   • CrossRef
3. Katz RT, Rymer WZ. Spastic hypertonia: mechanisms and measurement. Arch Phys Med Rehabil. 1989;70:144–155
   • MEDLINE
4. Singer B, Dunne J, Singer KP, Allison G. Evaluation of triceps surae muscle length and resistance to passive lengthening in patients with acquired brain injury. Clin Biomech (Bristol, Avon). 2002;17:152–161
   • Abstract
   • Full Text
   • Full-Text PDF (330 KB)
   • CrossRef
5. Vattanasilp W, Ada L, Crosbie J. Contribution of thixotropy, spasticity, and contracture to ankle stiffness after stroke. J Neurol Neurosurg Psychiatry. 2000;69:34–39
   • MEDLINE
   • CrossRef
6. Zhang LQ, Wang G, Nishida T, Xu D, Sliwa JA, Rymer WZ. Hyperactive tendon reflexes in spastic multiple sclerosis: measures and mechanisms of action. Arch Phys Med Rehabil. 2000;81:901–909
   • Abstract
   • Full Text
   • Full-Text PDF (134 KB)
   • CrossRef
7. Chung SG, van Rey EM, Bai Z, Roth EJ, Zhang L-Q. Biomechanic changes in passive properties of hemiplegic ankles with spastic hypertonia. Arch Phys Med Rehabil. 2004;85:1638–1646
   • Abstract
   • Full Text
   • Full-Text PDF (371 KB)
   • CrossRef
8. Lieber RL, Bodine-Fowler SC. Skeletal muscle mechanics: implications for rehabilitation. Phys Ther. 1993;73:844–856
   • MEDLINE
9. Kawakami Y, Abe T, Fukunaga T. Muscle-fiber pennation angles are greater in hypertrophied than in normal muscles. J Appl Physiol. 1993;74:2740–2744
   • MEDLINE
10. Maganaris CN, Baltzopoulos V, Sargeant AJ. In vivo measurements of the triceps surae complex architecture in man: implications for muscle function. J Physiol (Lond). 1998;512:603–614
11. Magnusson SP, Aagaard P, Dyhre-Poulsen P, Kjaer M. Load-displacement properties of the human triceps surae aponeurosis in vivo. J Physiol. 2001;531:277–288
    • MEDLINE
    • CrossRef
12. Shortland AP, Harris CA, Gough M, Robinson RO. Architecture of the medial gastrocnemius in children with spastic diplegia. Dev Med Child Neurol. 2001;43:796–801
    • MEDLINE
    • CrossRef
13. Cheatwood AP, Rethlefsen SA, Kay RM, Wren TA. Changes in medial gastrocnemius architecture with spasticity and contracture. In: Proceedings of the 52nd Annual Meeting of the Orthopaedic Research Society. 2006;Chicago
14. Li L, Tong KY, Hu X. The effect of poststroke impairments on brachialis muscle architecture as measured by ultrasound. Arch Phys Med Rehabil. 2007;88:243–250
    • Abstract
    • Full Text
    • Full-Text PDF (2237 KB)
    • CrossRef
15. Mohagheghi AA, Khan T, Meadows TH, Giannikas K, Baltzopoulos V, Maganaris CN. Differences in gastrocnemius muscle architecture between the paretic and non-paretic legs in children with hemiplegic cerebral palsy. Clin Biomech (Bristol, Avon). 2007;22:718–724
    • Abstract
    • Full Text
    • Full-Text PDF (153 KB)
    • CrossRef
16. Mohagheghi AA, Khan T, Meadows TH, Giannikas K, Baltzopoulos V, Maganaris CN. In vivo gastrocnemius muscle fascicle length in children with and without diplegic cerebral palsy. Dev Med Child Neurol. 2008;50:44–50
    • CrossRef
17. Fukashiro S, Hay DC, Yoshioka S, Nagano A. Simulation of muscle-tendon complex during human movements. Int J Sport Health Sci. 2005;3:152–160
18. Bohannon RW, Smith MB. Interrater reliability of a modified Ashworth scale of muscle spasticity. Phys Therapy. 1987;67:206–207
19. Winter DA. Biomechanics and motor control of human movement. 3rd ed. New York: John Wiley & Sons; 2004;
20. Narici MV, Binzoni T, Hiltbrand E, Fasel J, Terrier F, Cerretelli P. In vivo human gastrocnemius architecture with changing joint angle at rest and during graded isometric contraction. J Physiol. 1996;496:287–297
21. Weng L, Tirumalai AP, Lowery CM, et al. US extended-field-of-view imaging technology. Radiology. 1997;203:877–880
    • MEDLINE
22. Kawakami Y, Kumagai K, Huijing PA, Hijakata T, Fukunaga T. The length-force characteristics of human gastrocnemius and soleus muscles in vivo. In:  Herzog W editors. Skeletal muscle mechanics: from mechanisms to function. Chichester: John Wiley & Sons; 2000;p 327-41
23. Fukunaga T, Roy RR, Shellock FG, et al. Physiological cross-sectional area of human leg muscles based on magnetic resonance imaging. J Orthop Res. 1992;10:928–934
    • MEDLINE
24. Muraoka T, Chino K, Muramatsu T, Fukunaga T, Kanehisa H. In vivo passive mechanical properties of the human gastrocnemius muscle belly. J Biomech. 2005;38:1213–1219
    • Abstract
    • Full Text
    • Full-Text PDF (387 KB)
    • CrossRef
25. Herbert RD, Moseley AM, Butler JE, Gandevia SC. Change in length of relaxed muscle fascicles and tendons with knee and ankle movement in humans. J Physiol. 2002;539:637–645
    • MEDLINE
    • CrossRef
26. Arampatzis A, Karamanidis K, Stafilidis S, Morey-Klapsing G, DeMonte G, Bruggemann GP. Effect of different ankle- and knee-joint positions on gastrocnemius medialis fascicle length and EMG activity during isometric plantar flexion. J Biomech. 2006;39:1891–1902
    • Abstract
    • Full Text
    • Full-Text PDF (666 KB)
    • CrossRef
27. Karamanidis K, Arampatzis A. Mechanical and morphological properties of different muscle-tendon units in the lower extremity and running mechanics: effect of aging and physical activity. J Exp Biol. 2005;208:3907–3923
    • MEDLINE
    • CrossRef
28. Maganaris CN. Force-length characteristics of the in vivo human gastrocnemius muscle. Clin Anat. 2003;16:215–223
    • MEDLINE
    • CrossRef
29. Gans C, de Vree F. Functional bases of fiber length and angulation in muscle. J Morphol. 1987;192:63–85
    • MEDLINE
    • CrossRef
30. Herring SW, Grimm AF, Grimm BR. Regulation of sarcomere number in skeletal muscle: a comparison of hypotheses. Muscle Nerve. 1984;7:161–173
    • MEDLINE
    • CrossRef
31. Tabary JC, Tardieu C, Tardieu G, Tabary C, Gagnard L. Functional adaptation of sarcomere number of normal cat muscle. J Physiol (Paris). 1976;72:277–291
32. Williams PE, Goldspink G. Changes in sarcomere length and physiological properties in immobilized muscle. J Anat. 1978;127:459–468
    • MEDLINE
33. Friden J, Lieber RL. Spastic muscle cells are shorter and stiffer than normal cells. Muscle Nerve. 2003;27:157–164
    • MEDLINE
    • CrossRef
34. Svantesson U, Takahashi H, Carlsson U, Danielsson A, Sunnerhagen KS. Muscle and tendon stiffness in patients with upper motor neuron lesion following a stroke. Eur J Appl Physiol. 2000;82:275–279
    • MEDLINE
    • CrossRef
35. Friederich JA, Brand RA. Muscle fiber architecture in the human lower limb. J Biomech. 1990;23:91–95
    • MEDLINE
    • CrossRef
36. Wickiewicz TL, Roy RR, Powell PL, Edgerton VR. Muscle architecture of the human lower limb. Clin Orthop Relat Res. 1983;(179):275–283Oct
37. Scott SH, Brown IE, Loeb GE. Mechanics of feline soleus, I: effect of fascicle length and velocity on force output. J Muscle Res Cell Motil. 1996;17:207–219
    • MEDLINE
    • CrossRef
38. Huijing PA. Architecture of the human gastrocnemius muscle and some functional consequences. Acta Anat (Basel). 1985;123:101–107
    • MEDLINE