Review

. 2022 Mar 10;92(S3):e2021582.

doi: 10.23750/abm.v92iS3.12584.

Mechanobiology of indirect bone fracture healing under conditions of relative stability: a narrative review for the practicing clinician

Črt Benulič¹, Gianluca Canton², Nicholas Rasio³, Luigi Murena⁴, Anže Kristan⁵

Affiliations

¹ Traumatology Department, University Medical Centre Ljubljana (Slovenia), Department of Surgery, Faculty of Medicine, University of Ljubljana (Slovenia). crt.benulic@kclj.si.
² Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy. gcanton84@gmail.com.
³ a:1:{s:5:"en_US";s:151:"Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy";}. RASIO.NICK90@GMAIL.COM.
⁴ Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy. luigi.murena@asugi.sanita.fvg.it.
⁵ Traumatology Department, University Medical Centre Ljubljana (Slovenia), Department of Surgery, Faculty of Medicine, University of Ljubljana (Slovenia). anze.kristan@kclj.si.

PMID: 35604250
PMCID: PMC9437681
DOI: 10.23750/abm.v92iS3.12584

Review

Mechanobiology of indirect bone fracture healing under conditions of relative stability: a narrative review for the practicing clinician

Črt Benulič et al. Acta Biomed. 2022.

. 2022 Mar 10;92(S3):e2021582.

doi: 10.23750/abm.v92iS3.12584.

Authors

Črt Benulič¹, Gianluca Canton², Nicholas Rasio³, Luigi Murena⁴, Anže Kristan⁵

Affiliations

¹ Traumatology Department, University Medical Centre Ljubljana (Slovenia), Department of Surgery, Faculty of Medicine, University of Ljubljana (Slovenia). crt.benulic@kclj.si.
² Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy. gcanton84@gmail.com.
³ a:1:{s:5:"en_US";s:151:"Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy";}. RASIO.NICK90@GMAIL.COM.
⁴ Orthopaedics and Traumatology Unit, Cattinara Hospital - ASUGI, Department of Medical, Surgical and Life Sciences, Trieste University, Trieste, Italy. luigi.murena@asugi.sanita.fvg.it.
⁵ Traumatology Department, University Medical Centre Ljubljana (Slovenia), Department of Surgery, Faculty of Medicine, University of Ljubljana (Slovenia). anze.kristan@kclj.si.

PMID: 35604250
PMCID: PMC9437681
DOI: 10.23750/abm.v92iS3.12584

Abstract

Background and aim: Mechanical influence on secondary fracture healing remains an incompletely understood phenomenon. This is of special importance in biological osteosynthesis, where stability is sacrificed for the sake of an optimal biological fracture environment. Under condition of relative stability, a wide range of biomechanical conditions can be achieved. Mechanobiology, which studies mechanical influences on biological systems has become a large, interdisciplinary field. The aim of this article is to present a comprehensive synthesis of the literature for the practicing clinician, with insights relevant to their practice of fracture care.

Methods: The MEDLINE online database (Pubmed) was searched in September 2021 for relevant articles Results: The search provided 816 results, which were scanned by the first author by the title and abstract. With relevance to the research topic, 59 articles were chosen and read in detail. Another 70 articles were added by screening the references of relevant articles. A total of 129 articles were read and analysed Conclusions: Mechanical environment plays a crucial role in the fracture healing process. The definition of an optimal mechanical environment still evades us, due to the complexity of the problem. Computational models could replicate the complex mechanical environment of bone healing in humans but require detailed knowledge of mechano-transduction and material properties of healing tissues. The literature reminds us of the importance of adequate stiffness of constructs used under conditions of relative stability. Hopefully, further research in this field will result in not only empirical but more accurate and evidence-based assessments of osteosynthesis fixations.

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Conflict of interest statement

Each author declares that he or she has no commercial associations (e.g. consultancies, stock ownership, equity interest, patent/licensing arrangement etc.) that might pose a conflict of interest in connection with the submitted article.

Figures

**Figure 1.. Distal tibia fracture treated with lag screws and anti-glide plate (absolute stability).**

**Figure 2.. Tibia shaft fracture treated with a locking intramedullary nail (relative stability).**

**Figure 3.. Bone healing under relative stablity: Based on “A unified theory of bone healing and nonunion”, Elliott et al, Bone Joint J, 2016.**

**Figure 4.. Interfragmentary Strain Theory (2).**

**Figure 5.. Mechano-biological model based on strain and hydrostatic pressure (16).**

See this image and copyright information in PMC

References

1. Vortkamp A, Pathi S, Perreti C, Caruso E, Zaleske D, Tabin C. Recapitulation of signals regulating embryonic bone for-mation during postnatal growth and in fracture repair. Mech Dev. 1998;(71):65–76. - PubMed
1. Perren SM, Fernandez A, Regazzoni P. Understanding fracture healing biomechanics based on the “strain” concept and its clinical applications. Acta Chir Orthop Traumatol Cech. 2015;82(4):253–60. - PubMed
1. Buckley R, Moran C, Apivatthakakul T. AO principles of fracture management. Third Edit. Thieme Verlag; 2017.
1. Perren SM, Perren SM. Evolution of the Internal Fixation of Long Bone Fractures: The Scientific Basis of Biological In-ternal Fixation. J Bone Jt Surg [Br] 2002;8484(8):1093–110. - PubMed
1. Isaksson H, Wilson W, van Donkelaar CC, Huiskes R, Ito K. Comparison of biophysical stimuli for mechano-regula- tion of tissue differentiation during fracture healing. J Bio- mech. 2006;39(8):1507–16. - PubMed

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Mechanobiology of indirect bone fracture healing under conditions of relative stability: a narrative review for the practicing clinician

Affiliations

Mechanobiology of indirect bone fracture healing under conditions of relative stability: a narrative review for the practicing clinician

Authors

Affiliations

Abstract

Conflict of interest statement

Figures

References

Publication types

MeSH terms

LinkOut - more resources

Full Text Sources