Clinical outcomes of a low-cost single-channel myoelectric-interface three-dimensional hand prosthesis
- Author:
Inhoe KU
1
;
Gordon K LEE
;
Chan Yong PARK
;
Janghyuk LEE
;
Euicheol JEONG
Author Information
- Publication Type:Original Article
- Keywords: Artificial limbs; Amputation stump; Hand
- MeSH: Amputation; Amputation Stumps; Amputees; Artificial Limbs; Electromyography; Extremities; Follow-Up Studies; Hand; Humans; Methods; Prospective Studies; Prostheses and Implants; Quality of Life; Radius
- From:Archives of Plastic Surgery 2019;46(4):303-310
- CountryRepublic of Korea
- Language:English
- Abstract: BACKGROUND: Prosthetic hands with a myoelectric interface have recently received interest within the broader category of hand prostheses, but their high cost is a major barrier to use. Modern three-dimensional (3D) printing technology has enabled more widespread development and cost-effectiveness in the field of prostheses. The objective of the present study was to evaluate the clinical impact of a low-cost 3D-printed myoelectric-interface prosthetic hand on patients' daily life. METHODS: A prospective review of all upper-arm transradial amputation amputees who used 3D-printed myoelectric interface prostheses (Mark V) between January 2016 and August 2017 was conducted. The functional outcomes of prosthesis usage over a 3-month follow-up period were measured using a validated method (Orthotics Prosthetics User Survey–Upper Extremity Functional Status [OPUS-UEFS]). In addition, the correlation between the length of the amputated radius and changes in OPUS-UEFS scores was analyzed. RESULTS: Ten patients were included in the study. After use of the 3D-printed myoelectric single electromyography channel prosthesis for 3 months, the average OPUS-UEFS score significantly increased from 45.50 to 60.10. The Spearman correlation coefficient (r) of the correlation between radius length and OPUS-UEFS at the 3rd month of prosthetic use was 0.815. CONCLUSIONS: This low-cost 3D-printed myoelectric-interface prosthetic hand with a single reliable myoelectrical signal shows the potential to positively impact amputees' quality of life through daily usage. The emergence of a low-cost 3D-printed myoelectric prosthesis could lead to new market trends, with such a device gaining popularity via reduced production costs and increased market demand.