Abstract
BackgroundDespite numerous investigations, the impact of tizanidine, an anti-spastic medication, on changes in reflex and muscle mechanical properties in spasticity remains unclear. This study was designed to help us understand the mechanisms of action of tizanidine on spasticity in spinal cord injured subjects with incomplete injury, by quantifying the effects of a single dose of tizanidine on ankle muscle intrinsic and reflex components.MethodsA series of perturbations was applied to the spastic ankle joint of twenty-one spinal cord injured subjects, and the resulting torques were recorded. A parallel-cascade system identification method was used to separate intrinsic and reflex torques, and to identify the contribution of these components to dynamic ankle stiffness at different ankle positions, while subjects remained relaxed.ResultsFollowing administration of a single oral dose of Tizanidine, stretch evoked joint torque at the ankle decreased significantly (p < 0.001) The peak-torque was reduced between 15% and 60% among the spinal cord injured subjects, and the average reduction was 25%. Using systems identification techniques, we found that this reduced torque could be attributed largely to a reduced reflex response, without measurable change in the muscle contribution. Reflex stiffness decreased significantly across a range of joint angles (p < 0.001) after using tizanidine. In contrast, there were no significant changes in intrinsic muscle stiffness after the administration of tizanidine.ConclusionsOur findings demonstrate that tizanidine acts to reduce reflex mechanical responses substantially, without inducing comparable changes in intrinsic muscle properties in individuals with spinal cord injury. Thus, the pre-post difference in joint mechanical properties can be attributed to reflex changes alone. From a practical standpoint, use of a single "test" dose of Tizanidine may help clinicians decide whether the drug can helpful in controlling symptoms in particular subjects.
Highlights
Spasticity can disrupt activities of daily life [1,2], and has substantial physical, emotional and social costs [2]
"Hypertonia" is one of the primary clinical features associated with spinal cord injury [2,3]
We described a system identification method to characterize joint dynamic stiffness and to separate it muscular and reflex contributions to overall stiffness analytically [30,32]
Summary
Spasticity can disrupt activities of daily life [1,2], and has substantial physical, emotional and social costs [2]. The current study was designed to determine the impact of an important anti-spasticity medication, tizanidine, by quantifying the effect of single dose tizanidine on reflex and intrinsic "Hypertonia" is one of the primary clinical features associated with spinal cord injury [2,3]. Hypertonia, defined as an abnormal increase in muscle tone [4], is a defining feature of spasticity and has both diagnostic and therapeutic significance [5] Many antispastic drugs such as baclofen, diazepam, and clonidine decrease hypertonia [6,7,8,9,10,11,12]. This study was designed to help us understand the mechanisms of action of tizanidine on spasticity in spinal cord injured subjects with incomplete injury, by quantifying the effects of a single dose of tizanidine on ankle muscle intrinsic and reflex components
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