A reliable micro-CT-based method reveals dynamic changes to alveolar bone and tooth root following ligature-induced periodontal injury in the mouse

This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-...

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Published in:Bone (New York, N.Y.) Vol. 201; p. 117619
Main Authors: Fu, Yu, Qayyum, Wasif, Shafiei, Parsa, Eaton, Farah, Alexiou, Maria, Graf, Daniel
Format: Journal Article
Language:English
Published: United States Elsevier Inc 01.12.2025
Subjects:
3D Slicer
Alveolar Bone Loss - diagnostic imaging
Alveolar Bone Loss - pathology
Alveolar bone regeneration
Alveolar Process - diagnostic imaging
Alveolar Process - pathology
Animals
Apical root cementum apposition
Computed tomography
Imaging, Three-Dimensional
Ligation
Ligature-induced periodontal injury model
Male
Mice
Mice, Inbred C57BL
Periodontal disease
Tooth Root - diagnostic imaging
Tooth Root - pathology
X-Ray Microtomography - methods
Alveolar bone regeneration
3D Slicer
Ligature-induced periodontal injury model
Periodontal disease
Apical root cementum apposition
Computed tomography
ISSN:8756-3282, 1873-2763, 1873-2763
Online Access:Get full text
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Abstract This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-dimensional (2D) histological approaches lack the ability to capture three-dimensional (3D) alterations, while inconsistencies in image alignment, region of interest (ROI) selection, and segmentation have limited the widespread adoption of 3D micro-CT analysis in small animal models. Here, we present a standardized workflow, incorporating defined criteria for ROI selection, scan alignment, and segmentation suitable for live micro-CT scanning. We validated this method using the ligature-induced periodontal injury model in mice. Multiple micro-CT scans were performed over 35 days to evaluate changes to alveolar bone and tooth roots. Quantitative analysis highlighted significant bone loss and early-stage remodeling within the first two weeks. Following ligature removal at 3 weeks, bone loss largely resolved by the end of week 5. However, we find that although the total bone volume mostly recovers, permanent changes at the alveolar crest persist, and additional cementum was formed at the apical tooth root. By enhancing methodological consistency, this standardized protocol improves the accuracy and comparability of longitudinal studies and minimizes variability in small animal studies, providing a reliable framework for functional investigations. Through its application, we show for the first time that, beyond alveolar bone regeneration, cementum apposition at the root apex is also observed. This opens up studies investigating how root loss at the apex could be restored. •Developed reproducible method for alveolar bone assessment from micro-CT scans•Landmarks and ROI selection ensure high reproducibility, suitable for longitudinal studies.•Application to the ligature model of periodontal injury identifies waves of bone regeneration.•Regenerated bone does not fully match height and shape of bone prior to injury.
AbstractList This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-dimensional (2D) histological approaches lack the ability to capture three-dimensional (3D) alterations, while inconsistencies in image alignment, region of interest (ROI) selection, and segmentation have limited the widespread adoption of 3D micro-CT analysis in small animal models. Here, we present a standardized workflow, incorporating defined criteria for ROI selection, scan alignment, and segmentation suitable for live micro-CT scanning. We validated this method using the ligature-induced periodontal injury model in mice. Multiple micro-CT scans were performed over 35 days to evaluate changes to alveolar bone and tooth roots. Quantitative analysis highlighted significant bone loss and early-stage remodeling within the first two weeks. Following ligature removal at 3 weeks, bone loss largely resolved by the end of week 5. However, we find that although the total bone volume mostly recovers, permanent changes at the alveolar crest persist, and additional cementum was formed at the apical tooth root. By enhancing methodological consistency, this standardized protocol improves the accuracy and comparability of longitudinal studies and minimizes variability in small animal studies, providing a reliable framework for functional investigations. Through its application, we show for the first time that, beyond alveolar bone regeneration, cementum apposition at the root apex is also observed. This opens up studies investigating how root loss at the apex could be restored.This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-dimensional (2D) histological approaches lack the ability to capture three-dimensional (3D) alterations, while inconsistencies in image alignment, region of interest (ROI) selection, and segmentation have limited the widespread adoption of 3D micro-CT analysis in small animal models. Here, we present a standardized workflow, incorporating defined criteria for ROI selection, scan alignment, and segmentation suitable for live micro-CT scanning. We validated this method using the ligature-induced periodontal injury model in mice. Multiple micro-CT scans were performed over 35 days to evaluate changes to alveolar bone and tooth roots. Quantitative analysis highlighted significant bone loss and early-stage remodeling within the first two weeks. Following ligature removal at 3 weeks, bone loss largely resolved by the end of week 5. However, we find that although the total bone volume mostly recovers, permanent changes at the alveolar crest persist, and additional cementum was formed at the apical tooth root. By enhancing methodological consistency, this standardized protocol improves the accuracy and comparability of longitudinal studies and minimizes variability in small animal studies, providing a reliable framework for functional investigations. Through its application, we show for the first time that, beyond alveolar bone regeneration, cementum apposition at the root apex is also observed. This opens up studies investigating how root loss at the apex could be restored.
This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-dimensional (2D) histological approaches lack the ability to capture three-dimensional (3D) alterations, while inconsistencies in image alignment, region of interest (ROI) selection, and segmentation have limited the widespread adoption of 3D micro-CT analysis in small animal models. Here, we present a standardized workflow, incorporating defined criteria for ROI selection, scan alignment, and segmentation suitable for live micro-CT scanning. We validated this method using the ligature-induced periodontal injury model in mice. Multiple micro-CT scans were performed over 35 days to evaluate changes to alveolar bone and tooth roots. Quantitative analysis highlighted significant bone loss and early-stage remodeling within the first two weeks. Following ligature removal at 3 weeks, bone loss largely resolved by the end of week 5. However, we find that although the total bone volume mostly recovers, permanent changes at the alveolar crest persist, and additional cementum was formed at the apical tooth root. By enhancing methodological consistency, this standardized protocol improves the accuracy and comparability of longitudinal studies and minimizes variability in small animal studies, providing a reliable framework for functional investigations. Through its application, we show for the first time that, beyond alveolar bone regeneration, cementum apposition at the root apex is also observed. This opens up studies investigating how root loss at the apex could be restored. •Developed reproducible method for alveolar bone assessment from micro-CT scans•Landmarks and ROI selection ensure high reproducibility, suitable for longitudinal studies.•Application to the ligature model of periodontal injury identifies waves of bone regeneration.•Regenerated bone does not fully match height and shape of bone prior to injury.
This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury model using 3D Slicer software. Accurate and reproducible measurement of bone loss is crucial for periodontal research, yet traditional two-dimensional (2D) histological approaches lack the ability to capture three-dimensional (3D) alterations, while inconsistencies in image alignment, region of interest (ROI) selection, and segmentation have limited the widespread adoption of 3D micro-CT analysis in small animal models. Here, we present a standardized workflow, incorporating defined criteria for ROI selection, scan alignment, and segmentation suitable for live micro-CT scanning. We validated this method using the ligature-induced periodontal injury model in mice. Multiple micro-CT scans were performed over 35 days to evaluate changes to alveolar bone and tooth roots. Quantitative analysis highlighted significant bone loss and early-stage remodeling within the first two weeks. Following ligature removal at 3 weeks, bone loss largely resolved by the end of week 5. However, we find that although the total bone volume mostly recovers, permanent changes at the alveolar crest persist, and additional cementum was formed at the apical tooth root. By enhancing methodological consistency, this standardized protocol improves the accuracy and comparability of longitudinal studies and minimizes variability in small animal studies, providing a reliable framework for functional investigations. Through its application, we show for the first time that, beyond alveolar bone regeneration, cementum apposition at the root apex is also observed. This opens up studies investigating how root loss at the apex could be restored.
ArticleNumber 117619
Author Eaton, Farah
Graf, Daniel
Qayyum, Wasif
Shafiei, Parsa
Fu, Yu
Alexiou, Maria
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Keywords Alveolar bone regeneration
3D Slicer
Ligature-induced periodontal injury model
Periodontal disease
Apical root cementum apposition
Computed tomography
Language English
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Snippet This study presents a method development and evaluation framework for assessing longitudinally the dynamic alveolar bone changes in a murine periodontal injury...
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SubjectTerms 3D Slicer
Alveolar Bone Loss - diagnostic imaging
Alveolar Bone Loss - pathology
Alveolar bone regeneration
Alveolar Process - diagnostic imaging
Alveolar Process - pathology
Animals
Apical root cementum apposition
Computed tomography
Imaging, Three-Dimensional
Ligation
Ligature-induced periodontal injury model
Male
Mice
Mice, Inbred C57BL
Periodontal disease
Tooth Root - diagnostic imaging
Tooth Root - pathology
X-Ray Microtomography - methods
Title A reliable micro-CT-based method reveals dynamic changes to alveolar bone and tooth root following ligature-induced periodontal injury in the mouse
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https://dx.doi.org/10.1016/j.bone.2025.117619
https://www.ncbi.nlm.nih.gov/pubmed/40882751
https://www.proquest.com/docview/3246352955
Volume 201
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