Relationship between Passive Stretch Resistance in spastic wrist Flexors and Clinical Scales of Stroke Survivors: A Cross-sectional Study

Objective: Spasticity is a common motor dysfunction in many neurological diseases, such as stroke, cerebral palsy and Parkinson’s disease. The definition of spasticity used before excludes elasticity and viscosity caused by alterations of muscle and tissue properties. In this study, we explored components of passive movement resistance in the wrist flexor in subjects after stroke, and also investigate the correlation between these components and clinical scales such as Modified Ashworth scale(MAS) and Fugl-Meyer Assessment (FMA).Method: A cross-sectional study was performed in 15 stroke survivors. Modified Ashworth Scale and Fugl-Meyer Assessment were assessed by an experienced physical therapist. Components of passive movement resistance in the flexors of wrist and finger were recorded by NeuroFlexor (Aggro MedTech AB, Solna, Sweden), then the average resisting force in 1 second ensued the passive stretch at 5°/s was took as peak resisting force (PRF). The peak resisting force between paretic side and non-paretic side was compared. Pearson’s correlation was used to test the relation between the components and Fugl-Meyer Assessment, while Spearman’s rank correlation for Modified Ashworth scale and the components.Results: The Peak Resisting Force(PRF) of the paretic side (10.49±1.65N, mean±SD) during the slow passive stretch(5°/s) was significantly higher than the non-paretic side (8.98±1.11N, p<0.05). Correlations between MAS and the components/peak resisting force were insignificant (Table II). FMA has significant correlations with Neural Component and Elasticity Component of the paretic side (Pearson’s correlation, p<0.05).Conclusions: The higher PRF of slow passive stretch in the paretic side might be attribute to the higher muscle stiffness. Subjects with lower Neural Component or Elasticity Component of the paretic wrist correlated with FMA. These findings could be applied in clinical evaluation of functional performance of the wrist muscle of stroke survivors.

[1]  P. Lindberg,et al.  Neural and Nonneural Contributions to Wrist Rigidity in Parkinson's Disease: An Explorative Study Using the NeuroFlexor , 2015, BioMed research international.

[2]  R. Young,et al.  Spasticity, disordered motor control , 1980 .

[3]  D. Newham,et al.  Electromyographic Response to Manual Passive Stretch of the Hemiplegic Wrist: Accuracy, Reliability, and Correlation With Clinical Spasticity Assessment and Function , 2009, Neurorehabilitation and neural repair.

[4]  Symposium synopsis , 1986 .

[5]  Maria Sandgren,et al.  Test-retest and inter-rater reliability of a method to measure wrist and finger spasticity. , 2013, Journal of rehabilitation medicine.

[6]  Ö. Ekeberg,et al.  Neural and non-neural related properties in the spastic wrist flexors: An optimization study. , 2017, Medical engineering & physics.

[7]  O. Kachmar,et al.  Changes in Muscle Spasticity in Patients With Cerebral Palsy After Spinal Manipulation: Case Series. , 2016, Journal of chiropractic medicine.

[8]  Hans Forssberg,et al.  Sensitivity of the NeuroFlexor method to measure change in spasticity after treatment with botulinum toxin A in wrist and finger muscles. , 2014, Journal of rehabilitation medicine.

[9]  Anders Fagergren,et al.  Validation of a New Biomechanical Model to Measure Muscle Tone in Spastic Muscles , 2011, Neurorehabilitation and neural repair.

[10]  Jörgen Borg,et al.  Normative NeuroFlexor data for detection of spasticity after stroke: a cross-sectional study , 2016, Journal of NeuroEngineering and Rehabilitation.

[11]  Francisco J. Valero Cuevas,et al.  Forearm Flexor Muscles in Children with Cerebral Palsy Are Weak, Thin and Stiff , 2017, Front. Comput. Neurosci..

[12]  Ross Zafonte,et al.  Inter- and intrarater reliability of the Ashworth Scale and the Disability Assessment Scale in patients with upper-limb poststroke spasticity. , 2002, Archives of physical medicine and rehabilitation.

[13]  J S Rietman,et al.  Stop using the Ashworth Scale for the assessment of spasticity , 2009, Journal of Neurology, Neurosurgery & Psychiatry.

[14]  Rainer Koch,et al.  Reliability of the Modified Tardieu Scale and the Modified Ashworth Scale in adult patients with severe brain injury: a comparison study , 2005, Clinical rehabilitation.