Scientific Reports (Mar 2024)

Reproduction of forearm rotation dynamic using intensity-based biplane 2D–3D registration matching method

  • Ryoya Shiode,
  • Satoshi Miyamura,
  • Arisa Kazui,
  • Natsuki Yamamoto,
  • Tasuku Miyake,
  • Toru Iwahashi,
  • Hiroyuki Tanaka,
  • Yoshito Otake,
  • Yoshinobu Sato,
  • Tsuyoshi Murase,
  • Shingo Abe,
  • Seiji Okada,
  • Kunihiro Oka

DOI
https://doi.org/10.1038/s41598-024-55956-z
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 10

Abstract

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Abstract This study aimed to reproduce and analyse the in vivo dynamic rotational motion of the forearm and to clarify forearm motion involvement and the anatomical function of the interosseous membrane (IOM). The dynamic forearm rotational motion of the radius and ulna was analysed in vivo using a novel image-matching method based on fluoroscopic and computed tomography images for intensity-based biplane two-dimensional–three-dimensional registration. Twenty upper limbs from 10 healthy volunteers were included in this study. The mean range of forearm rotation was 150 ± 26° for dominant hands and 151 ± 18° for non-dominant hands, with no significant difference observed between the two. The radius was most proximal to the maximum pronation relative to the ulna, moved distally toward 60% of the rotation range from maximum pronation, and again proximally toward supination. The mean axial translation of the radius relative to the ulna during forearm rotation was 1.8 ± 0.8 and 1.8 ± 0.9 mm for dominant and non-dominant hands, respectively. The lengths of the IOM components, excluding the central band (CB), changed rotation. The transverse CB length was maximal at approximately 50% of the rotation range from maximum pronation. Summarily, this study describes a detailed method for evaluating in vivo dynamic forearm motion and provides valuable insights into forearm kinematics and IOM function.