Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns

Leon-Gordian Koepke; Simon von Kroge; Annika Heuer; Anna Lena Kammal; Benjamin Ondruschka; Tim Rolvien; Lennart Viezens

doi:10.1007/s00223-023-01070-7

Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns

Standard

Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns. / Koepke, Leon-Gordian ; Kroge, Simon von ; Heuer, Annika ; Kammal, Anna Lena ; Ondruschka, Benjamin ; Rolvien, Tim ; Viezens, Lennart.

in: CALCIFIED TISSUE INT, Jahrgang 112, Nr. 5, 05.2023, S. 563-572.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Koepke, L-G , Kroge, SV , Heuer, A , Kammal, AL , Ondruschka, B , Rolvien, T & Viezens, L 2023, 'Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns', CALCIFIED TISSUE INT, Jg. 112, Nr. 5, S. 563-572. https://doi.org/10.1007/s00223-023-01070-7

APA

Koepke, L-G., Kroge, S. V., Heuer, A., Kammal, A. L., Ondruschka, B., Rolvien, T., & Viezens, L. (2023). Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns. CALCIFIED TISSUE INT, 112(5), 563-572. https://doi.org/10.1007/s00223-023-01070-7

Vancouver

Koepke L-G , Kroge SV , Heuer A , Kammal AL , Ondruschka B , Rolvien T et al. Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns. CALCIFIED TISSUE INT. 2023 Mai;112(5):563-572. https://doi.org/10.1007/s00223-023-01070-7

Bibtex

@article{81c666ec08f84426ac749426ac97b2ce,

title = "Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns",

abstract = "The odontoid process (dens) of the second cervical vertebra (axis) is prone to fracture. While the importance of its skeletal integrity has been previously noted, representative three-dimensional microarchitecture analyses in humans are not available. This study aimed to determine the bone microarchitecture of the axis using high-resolution quantitative computed tomography (HR-pQCT) and to derive clinical implications for the occurrence and treatment of axis fractures. For initial clinical reference, the apparent density of the axis was determined based on clinical computed tomography (CT) images in patients without and with fractures of the axis. Subsequently, 28 human axes (female 50%) obtained at autopsy were analyzed by HR-pQCT. Analyses were performed in three different regions corresponding to zones I (tip of dens), II (base of dens), and III (corpus axis) of the Anderson and D'Alonzo classification. Lower apparent densities based on clinical CT data were detected in zone II and III compared to zone I in both the group without and with fracture. In the autopsy specimens, cortical thickness and bone volume fraction decreased continuously from zone I to zone III. Trabecular and cortical tissue mineral density was lowest in zone III, with no differences between zones I and II. In conclusion, our clinical and high-resolution ex vivo imaging data highlight a marked regional heterogeneity of bone microarchitecture, with poor cortical and trabecular properties near the dens base. These results may partly explain why zones II and III are at high risk of fracture and osteosynthesis failure.",

author = "Leon-Gordian Koepke and Kroge, {Simon von} and Annika Heuer and Kammal, {Anna Lena} and Benjamin Ondruschka and Tim Rolvien and Lennart Viezens",

year = "2023",

month = may,

doi = "10.1007/s00223-023-01070-7",

language = "English",

volume = "112",

pages = "563--572",

journal = "CALCIFIED TISSUE INT",

issn = "0171-967X",

publisher = "Springer New York",

number = "5",

}

RIS

TY - JOUR

T1 - Analysis of Three-Dimensional Bone Microarchitecture of the Axis Exposes Pronounced Regional Heterogeneity Associated with Clinical Fracture Patterns

AU - Koepke, Leon-Gordian

AU - Kroge, Simon von

AU - Heuer, Annika

AU - Kammal, Anna Lena

AU - Ondruschka, Benjamin

AU - Rolvien, Tim

AU - Viezens, Lennart

PY - 2023/5

Y1 - 2023/5

N2 - The odontoid process (dens) of the second cervical vertebra (axis) is prone to fracture. While the importance of its skeletal integrity has been previously noted, representative three-dimensional microarchitecture analyses in humans are not available. This study aimed to determine the bone microarchitecture of the axis using high-resolution quantitative computed tomography (HR-pQCT) and to derive clinical implications for the occurrence and treatment of axis fractures. For initial clinical reference, the apparent density of the axis was determined based on clinical computed tomography (CT) images in patients without and with fractures of the axis. Subsequently, 28 human axes (female 50%) obtained at autopsy were analyzed by HR-pQCT. Analyses were performed in three different regions corresponding to zones I (tip of dens), II (base of dens), and III (corpus axis) of the Anderson and D'Alonzo classification. Lower apparent densities based on clinical CT data were detected in zone II and III compared to zone I in both the group without and with fracture. In the autopsy specimens, cortical thickness and bone volume fraction decreased continuously from zone I to zone III. Trabecular and cortical tissue mineral density was lowest in zone III, with no differences between zones I and II. In conclusion, our clinical and high-resolution ex vivo imaging data highlight a marked regional heterogeneity of bone microarchitecture, with poor cortical and trabecular properties near the dens base. These results may partly explain why zones II and III are at high risk of fracture and osteosynthesis failure.

AB - The odontoid process (dens) of the second cervical vertebra (axis) is prone to fracture. While the importance of its skeletal integrity has been previously noted, representative three-dimensional microarchitecture analyses in humans are not available. This study aimed to determine the bone microarchitecture of the axis using high-resolution quantitative computed tomography (HR-pQCT) and to derive clinical implications for the occurrence and treatment of axis fractures. For initial clinical reference, the apparent density of the axis was determined based on clinical computed tomography (CT) images in patients without and with fractures of the axis. Subsequently, 28 human axes (female 50%) obtained at autopsy were analyzed by HR-pQCT. Analyses were performed in three different regions corresponding to zones I (tip of dens), II (base of dens), and III (corpus axis) of the Anderson and D'Alonzo classification. Lower apparent densities based on clinical CT data were detected in zone II and III compared to zone I in both the group without and with fracture. In the autopsy specimens, cortical thickness and bone volume fraction decreased continuously from zone I to zone III. Trabecular and cortical tissue mineral density was lowest in zone III, with no differences between zones I and II. In conclusion, our clinical and high-resolution ex vivo imaging data highlight a marked regional heterogeneity of bone microarchitecture, with poor cortical and trabecular properties near the dens base. These results may partly explain why zones II and III are at high risk of fracture and osteosynthesis failure.

U2 - 10.1007/s00223-023-01070-7

DO - 10.1007/s00223-023-01070-7

M3 - SCORING: Journal article

C2 - 36826480

VL - 112

SP - 563

EP - 572

JO - CALCIFIED TISSUE INT

JF - CALCIFIED TISSUE INT

SN - 0171-967X

IS - 5

ER -