Sports and recreational activities offer physical and psychological benefits to children with limb absence. Understanding what facilitators and barriers exist for the participation in sports and physical activity is vital to aid stakeholders to continue enabling facilitators and develop means to tackle existing barriers so that all children with lower-limb absence can participate in sport and physical activity as they wish. The aim of this systematic review was to identify facilitators and barriers that children with lower-limb absence experience when wanting to participate in sports and physical activity. Systematic review. Five databases were used to identify the literature relating to facilitators and barriers to sports and physical activity for children with lower-limb absence. These were Medline, Scopus, Cochrane, SPORTDiscus, and CINAHL. Google scholar was used as a secondary source. The review followed the “Preferred Reporting Item for Systematic Reviews and Meta-Analysis” guidelines. The review identified 10 articles for inclusion that met predefined inclusion criteria. The identified peer-review articles date from 1999 to 2021. The number of published articles steadily increases up to 2010 and then increase rapidly from 2016 to 2021. The results show although there are facilitators for sports participation for children with limb absence, there are many barriers which continue to hinder many children from participating in sports and physical activity. Facilitators that exist include advancements in prosthetic design and technology, increased opportunities, and physical and social benefits. Barriers that were reported include prosthesis failure, stigma, and high costs.
This article describes the design and development of an upper-limb prosthesis for a current elite level paracyclist that was conceived for use in the 2020 Paralympic Games. The prosthetic limb was intended specifically for use in cycling time trial events. These are held on the road and in the velodrome whereby the athlete rides using a tucked aerodynamic position. The prosthesis was developed using computer aided design software and an extensive use of the 3D printed manufacturing process. The resulting technical note illustrates the design methodology and manufacturing considerations for a high performance form of assistive technology. However, it results in a solution that challenges the traditional aesthetic of prosthetic limbs intended for sport and physical activity.
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