Objective To investigate intrinsic viscoelastic changes using shear wave velocities (SWVs) of spastic lower extremity muscles in patients with early spinal cord injury (SCI) via acoustic radiation force impulse (ARFI) imaging and to evaluate correlation between the SWV values and spasticity.Methods Eighteen patients with SCI within 3 months and 10 healthy adults participated. We applied the ARFI technique to measure SWV of gastrocnemius muscle (GCM) and long head of biceps femoris muscle. Spasticity of ankle and knee joint was assessed by original Ashworth Scale.Results Ten patients with SCI had spasticity. Patients with spasticity had significantly faster SWV for GCM and biceps femoris muscle than those without spasticity (Mann-Whitney U test, p=0.007 and p=0.008) and normal control (p=0.011 and p=0.037, respectively). The SWV values of GCM correlated with the ankle spasticity (Spearman rank teat, p=0.026). There was significant correlation between the SWV values for long head of biceps femoris muscle and knee spasticity (Spearman rank teat, p=0.022).Conclusion ARFI demonstrated a difference in muscle stiffness in the GCM between patients with spastic SCI and those without spasticity. This finding suggested that stiffness of muscles increased in spastic lower extremity of early SCI patients. ARFI imaging is a valuable tool for noninvasive assessment of the stiffness of the spastic muscle and has the potential to identify pathomechanical changes of the tissue associated with SCI.

1 Abbruzzese G., "The medical management of spasticity" 1 (1): 30-34, 2002

2 Lieber RL, "Structural and functional changes in spastic skeletal muscle" 29 : 615-627, 2004

3 Bota S, "Spleen assessment by Acoustic Radiation Force Impulse Elastography (ARFI) for prediction of liver cirrhosis and portal hypertension" 12 : 213-217, 2010

4 O’Dwyer NJ, "Spasticity and muscle contracture following stroke" 119 (119): 1737-1749, 1996

5 Adams MM, "Spasticity after spinal cord injury" 43 : 577-586, 2005

6 Dietz V, "Spastic movement disorder: impaired reflex function and altered muscle mechanics" 6 : 725-733, 2007

7 Kwon DR, "Spastic cerebral palsy in children: dynamic sonoelastographic findings of medial gastrocnemius" 263 : 794-801, 2012

8 D’Onofrio M, "Solid appearance of pancreatic serous cystadenoma diagnosed as cystic at ultrasound acoustic radiation force impulse imaging" 10 : 543-546, 2009

9 Scelsi R., "Skeletal muscle pathology after spinal cord injury: our 20 year experience and results on skeletal muscle changes in paraplegics, related to functional rehabilitation" 11 : 75-85, 2001

10 Nightingale K, "Shear-wave generation using acoustic radiation force: in vivo and ex vivo results" 29 : 1715-1723, 2003

11 Edstrom L., "Selective changes in the sizes of red and white muscle fibres in upper motor lesions and Parkinsonism" 11 : 537-550, 1970

12 Guzman-Aroca F, "Reproducibility of shear wave velocity measurements by acoustic radiation force impulse imaging of the liver: a study in healthy volunteers" 30 : 975-979, 2011

13 Akagi R, "Relationships between muscle size and hardness of the medial gastrocnemius at different ankle joint angles in young men" 53 : 307-311, 2012

14 Arda K, "Quantitative assessment of normal soft-tissue elasticity using shear-wave ultrasound elastography" 197 : 532-536, 2011

15 Palmeri ML, "Quantifying hepatic shear modulus in vivo using acoustic radiation force" 34 : 546-558, 2008

16 Meng W, "Preliminary results of acoustic radiation force impulse (ARFI)ultrasound imaging of breast lesions" 37 : 1436-1443, 2011

17 Decq P., "Pathophysiology of spasticity" 49 (49): 163-184, 2003

18 Gracies JM., "Pathophysiology of spastic paresis. I. Paresis and soft tissue changes" 31 : 535-551, 2005

19 Palmeri ML, "Noninvasive evaluation of hepatic fibrosis using acoustic radiation force-based shear stiffness in patients with nonalcoholic fatty liver disease" 55 : 666-672, 2011

20 Dietz V, "Motor unit involvement in spastic paresis: relationship between leg muscle activation and histochemistry" 75 : 89-103, 1986

21 Elbasiouny SM, "Management of spasticity after spinal cord injury: current techniques and future directions" 24 : 23-33, 2010

22 Friedrich-Rust M, "Liver fibrosis in viral hepatitis:noninvasive assessment with acoustic radiation force impulse imaging versus transient elastography" 252 : 595-604, 2009

23 Shen ZL, "In vivo study of transverse carpal ligament stiffness using acoustic radiation force impulse (ARFI) imaging" 8 : e68569-, 2013

24 Frigon A, "Functional plasticity following spinal cord lesions" 157 : 231-260, 2006

25 Gagliano N, "Expression profiling of genes involved in collagen turnover in tendons from cerebral palsy patients" 50 : 203-208, 2009

26 Kot BC, "Elastic modulus of muscle and tendon with shear wave ultrasound elastography: variations with different technical settings" 7 : e44348-, 2012

27 Booth CM, "Collagen accumulation in muscles of children with cerebral palsy and correlation with severity of spasticity" 43 : 314-320, 2001

28 Hufschmidt A, "Chronic transformation of muscle in spasticity: a peripheral contribution to increased tone" 48 : 676-685, 1985

29 Friedrich-Rust M, "Acoustic radiation force impulse-imaging for the evaluation of the thyroid gland: a limited patient feasibility study" 52 : 69-74, 2012

30 D’Anastasi M, "Acoustic radiation force impulse imaging of the testes: a preliminary experience" 49 : 105-114, 2011

31 Zhai L, "Acoustic radiation force impulse imaging of human prostates: initial in vivo demonstration" 38 : 50-61, 2012

32 Stock KF, "ARFI-based tissue elasticity quantification in comparison to histology for the diagnosis of renal transplant fibrosis" 46 : 139-148, 2010