Abstract
Postburn contracture is a complex and multifactorial problem that requires intensive inputs from the burn care staff. This study endeavored to evaluate the effectiveness of extracorporeal shockwave therapy and botulinum toxin-A for treating the postburn plantar flexion contracture and optimizing ankle kinematics in burn children. Thirty-eight children with burns and plantar flexion contracture were randomized to receive the standard physical rehabilitation program (control group; n = 13), unfocused extracorporeal shockwave therapy (0.2 mJ/mm2) once a week over four consecutive weeks in addition to the standard physical rehabilitation (n = 12), or botulinum toxin-A injection (0.5-2 U/kg/muscle group with maximum dose of 12 U/kg/body weight) once at entry besides the standard physical rehabilitation (n = 13). Dorsiflexion active range of motion and ankle kinematics were measured before and immediately after treatment. The posttreatment dorsiflexion active range of motion increased significantly in the extracorporeal shockwave therapy group (P = .025) and botulinum toxin-A group (P = .04) when compared to the control group. Likewise, the initial stance-dorsiflexion, stance-maximum dorsiflexion, and swing-peak dorsiflexion angle improved significantly in the extracorporeal shockwave therapy group (P ˂ .001, P = .005, and P = .002, respectively) and botulinum toxin-A group (P = .004, P = .012, and P ˂ .001, respectively) compared to the control group. No significant differences were observed between the extracorporeal shockwave therapy and botulinum toxin-A groups with respect to any of the measured variables. To conclude, extracorporeal shockwave therapy and botulinum toxin-A injection could be effectively used to treat postburn plantar flexion contracture and to optimize the ankle kinematics during walking in children, without preference for either of them.
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