Proximal tibia osteotomy: biomechanics study of two techniques

Nik Wan, Nik Ahmad Fauzan and Nik Abdul Adel, Nik Alyani and Abdul Razak, Ardilla Hanim and Awang, Mohd Shukrimi and Sulaiman, Ahmad Syahrizan (2025) Proximal tibia osteotomy: biomechanics study of two techniques. Journal of Orthopaedic Surgery, 33 (3). pp. 1-10. ISSN 1022-5536 E-ISSN 2309-4990

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Abstract

Introduction: Proximal tibia osteotomy has advanced with various techniques, such as dome and modified oblique osteotomies, to correct angular deformities and redistribute knee stress, thereby slowing arthritic progression. Despite advancements, a gap remains in understanding the biomechanical strengths of these techniques, especially concerning correction angles. The study aims to compare the stability of the construct for different degrees of osteotomy. Materials and methods: Eighteen synthetic tibias were osteotomised based on the dome and modified oblique osteotomy technique. For dome osteotomy, the osteotomy site was fixed with two Kirschner wires 2.0 mm for different degrees of osteotomy, which were 10o, 20o, and 30o. Three samples from each construct were tested for rotational force. For modified osteotomy, two screws 3.5 mm were used to fix the osteotomy site and tested for rotational forces. Results: The constructs were stiffest at ten degrees for rotational force, both in dome and modified oblique osteotomy (0.39 Nmm and 0.4 Nmm). The stiffness of dome osteotomy in correction angles of 10° and 20° is almost similar (p > 0.95), and it reduces significantly at 30°(p < 0.001). There were significant differences in stiffness of the oblique osteotomy construct when comparing 10° with 20° (p = 0.003), 10° with 30°(p < 0.001) and 20° with 30° (p < 0.001) correction angles. This is further proved by comparing the means of stiffness between the two methods, where dome osteotomy did better compared to modified oblique osteotomy at 20° and similar at 10°. Conclusion: In performing proximal tibia osteotomy, we recommend limiting the acute angle of correction to 20°, and we suggest that for a larger correction angle, dome osteotomy exhibits better biomechanical stiffness. An angle exceeding 30o will predispose to higher rate of non-union or malunion as the stiffness of the surgical construct drops significantly, making it less resistant to rotational forces.

Item Type:	Article (Journal)
Uncontrolled Keywords:	dome osteotomy, modified oblique osteotomy, osteotomy, rotational force
Subjects:	R Medicine > RD Surgery > RD701 Orthopedics
Kulliyyahs/Centres/Divisions/Institutes (Can select more than one option. Press CONTROL button):	Kulliyyah of Medicine Kulliyyah of Medicine > Department of Department of Orthopaedics, Traumatology & Rehabilitation
Depositing User:	Dr Nik Alyani Nik Abdul Adel
Date Deposited:	15 Oct 2025 11:30
Last Modified:	15 Oct 2025 11:30
URI:	http://irep.iium.edu.my/id/eprint/123718

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