Biomechanical Evaluation of a Novel Golf Prosthesis for Bilateral Upper Limb Loss

A 2026 study by Jason T. Maikos details the design and biomechanical evaluation of a custom carbon-fiber golf prosthesis for a veteran with bilateral upper limb loss. The dataset, hosted on figshare, contains the research document describing the prosthesis fabrication, iterative fittings, and analysis of driver swing kinematics. Biomechanical data were collected to quantify body alignment, downswing kinematics, X-factor rotation, and weight shift.

Use Cases

• Analyzing the biomechanical performance of sport-specific prostheses based on the described kinematic and loading data.
• Informing user-centered prosthetic design for adaptive sports based on the study's findings on wrist orientation and stabilization.
• Benchmarking adaptive golf swing metrics against normative datasets based on the described comparative analysis.

Strengths

• The dataset is openly licensed under CC-BY-4.0, permitting reuse and redistribution.
• The description provides a detailed account of the prosthesis design, fabrication process, and specific biomechanical metrics analyzed.

Limitations

• The dataset is a single 18.2 KB DOCX file, indicating a very limited scope focused on one case study.
• Row count and column-level documentation are absent; data structure and semantics must be inferred from the document text.
• The evaluation is based on a single participant, which limits the generalizability of the findings.

Provenance

Source

Jason T. Maikos

Collection Method

Custom prosthesis fabrication and biomechanical data collection during driver swings.

Time Range

Study published in 2026.

Freshness

Last updated 2026-05-08 05:54:29.

Geography

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