Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation
Spiral fractures are a frequent clinical manifestation of child abuse, particularly in non-ambulatory infants. Approximately 50% of fractures in children under one year of age are non-accidental, yet differentiating between accidental and abusive injuries remains challenging, as no single fracture t...
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MDPI AG
2025-06-01
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| Series: | Journal of Imaging |
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| author | Ghaidaa A. Khalid Ali Al-Naji Javaan Chahl |
| author_facet | Ghaidaa A. Khalid Ali Al-Naji Javaan Chahl |
| author_sort | Ghaidaa A. Khalid |
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| description | Spiral fractures are a frequent clinical manifestation of child abuse, particularly in non-ambulatory infants. Approximately 50% of fractures in children under one year of age are non-accidental, yet differentiating between accidental and abusive injuries remains challenging, as no single fracture type is diagnostic in isolation. The objective of this study is to investigate the biomechanics of spiral fractures in immature long bones and the role of the periosteum in modulating fracture behavior under torsional loading. Methods: Paired metatarsal bone specimens from immature sheep were tested using controlled torsional loading at two angular velocities (90°/s and 180°/s). Specimens were prepared through potting, application of a base coat, and painting of a speckle pattern suitable for high-speed digital image correlation (HS-DIC) analysis. Both periosteum-intact and periosteum-removed groups were included. Results: Spiral fractures were successfully induced in over 85% of specimens. Digital image correlation revealed localized diagonal tensile strain at the fracture initiation site, with opposing compressive zones. Notably, bones with intact periosteum exhibited broader tensile stress regions before and after failure, suggesting a biomechanical role in constraining deformation. Conclusion: This study presents a novel integration of high-speed digital image correlation (DIC) with paired biomechanical testing to evaluate the periosteum’s role in spiral fracture formation—an area that remains underexplored. The findings offer new insight into the strain distribution dynamics in immature long bones and highlight the periosteum’s potential protective contribution under torsional stress. |
| format | Article |
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| institution | Kabale University |
| issn | 2313-433X |
| language | English |
| publishDate | 2025-06-01 |
| publisher | MDPI AG |
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| series | Journal of Imaging |
| spelling | doaj-art-bd0fe9d3a5014e908bbe7a664ba0b2a12025-08-20T03:27:17ZengMDPI AGJournal of Imaging2313-433X2025-06-0111618710.3390/jimaging11060187Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image CorrelationGhaidaa A. Khalid0Ali Al-Naji1Javaan Chahl2Electrical Engineering Technical College, Middle Technical University, Baghdad 10022, IraqElectrical Engineering Technical College, Middle Technical University, Baghdad 10022, IraqSchool of Engineering, University of South Australia, Mawson Lakes, SA 5095, AustraliaSpiral fractures are a frequent clinical manifestation of child abuse, particularly in non-ambulatory infants. Approximately 50% of fractures in children under one year of age are non-accidental, yet differentiating between accidental and abusive injuries remains challenging, as no single fracture type is diagnostic in isolation. The objective of this study is to investigate the biomechanics of spiral fractures in immature long bones and the role of the periosteum in modulating fracture behavior under torsional loading. Methods: Paired metatarsal bone specimens from immature sheep were tested using controlled torsional loading at two angular velocities (90°/s and 180°/s). Specimens were prepared through potting, application of a base coat, and painting of a speckle pattern suitable for high-speed digital image correlation (HS-DIC) analysis. Both periosteum-intact and periosteum-removed groups were included. Results: Spiral fractures were successfully induced in over 85% of specimens. Digital image correlation revealed localized diagonal tensile strain at the fracture initiation site, with opposing compressive zones. Notably, bones with intact periosteum exhibited broader tensile stress regions before and after failure, suggesting a biomechanical role in constraining deformation. Conclusion: This study presents a novel integration of high-speed digital image correlation (DIC) with paired biomechanical testing to evaluate the periosteum’s role in spiral fracture formation—an area that remains underexplored. The findings offer new insight into the strain distribution dynamics in immature long bones and highlight the periosteum’s potential protective contribution under torsional stress.https://www.mdpi.com/2313-433X/11/6/187biomechanicsspiral fractureimmature bonemechanical testingperiosteumdigital image correlation |
| spellingShingle | Ghaidaa A. Khalid Ali Al-Naji Javaan Chahl Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation Journal of Imaging biomechanics spiral fracture immature bone mechanical testing periosteum digital image correlation |
| title | Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation |
| title_full | Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation |
| title_fullStr | Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation |
| title_full_unstemmed | Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation |
| title_short | Biomechanics of Spiral Fractures: Investigating Periosteal Effects Using Digital Image Correlation |
| title_sort | biomechanics of spiral fractures investigating periosteal effects using digital image correlation |
| topic | biomechanics spiral fracture immature bone mechanical testing periosteum digital image correlation |
| url | https://www.mdpi.com/2313-433X/11/6/187 |
| work_keys_str_mv | AT ghaidaaakhalid biomechanicsofspiralfracturesinvestigatingperiostealeffectsusingdigitalimagecorrelation AT alialnaji biomechanicsofspiralfracturesinvestigatingperiostealeffectsusingdigitalimagecorrelation AT javaanchahl biomechanicsofspiralfracturesinvestigatingperiostealeffectsusingdigitalimagecorrelation |