Abstract
Spastic equinovarus (SEV) foot deformity is commonly observed in patients with post-stroke spasticity. Tibialis posterior (TP) is a common target for botulinum toxin type-A (BoNT-A) injection, as a first-line treatment in non-fixed SEV deformity. For this deep muscle, ultrasonographic guidance is crucial to achieving maximum accuracy for the BoNT-A injection. In current clinical practice, there are three approaches to target the TP: an anterior, a posteromedial, and a posterior. To date, previous studies have failed to identify the best approach for needle insertion into TP. To explore the ultrasonographic characteristics of these approaches, we investigated affected and unaffected legs of 25 stroke patients with SEV treated with BoNT-A. We evaluated the qualitative (echo intensity) and quantitative (muscle depth, muscle thickness, overlying muscle, subcutaneous tissue, cross-sectional area) ultrasound characteristics of the three approaches for TP injection. In our sample, we observed significant differences among almost all the parameters of the three approaches, except for the safety window. Moreover, our analysis showed significant differences in cross-sectional area between treated and untreated. Advantages and disadvantages of each approach were investigated. Our findings can thus provide a suitable reference for clinical settings, especially for novice operators.
Highlights
Post-stroke spasticity has a prevalence of 25.3% after stroke and an incidence of 39.5% in patients with paresis [1]
The Wilcoxon Test was used to compare unaffected and affected sides showed a significant difference in muscle thickness in the anterior and posterior approaches and in cross sectional area (CSA)
It has been seen that the accuracy of manual placement in the tibialis posterior was only 11% compared to electrical stimulation [24]
Summary
Post-stroke spasticity has a prevalence of 25.3% after stroke and an incidence of 39.5% in patients with paresis [1]. Spastic equinovarus (SEV) foot deformity is commonly observed in patients with post-stroke spasticity and cerebral palsy. It is one of the seven postures and common patterns of lower-limb spasticity and it is characterized by ankle plantarflexion and inversion [2]. This deformity often causes significant problems with dressing and in particular shoe wearing, standing, transfer, and walking. It has an impact on pain, activities of daily life, caregiver burden and the quality of life [3,4,5]. A recent meta-analysis has demonstrated the efficacy of BoNT-A in lower extremity spasticity following stroke, improving both muscle tone and functional outcomes [12]
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