Age related changes in the bone microstructure in patients with femoral neck fractures

J. M. Sanchez-Siles; I. Tamimi-Mariño; A. R.G. Cortes; J. L. Ackerman; D. González-Quevedo; E. Guerado; A. García; F. Yaghoubi; M. N. Abdallah; H. Eimar; M. Laurenti; A. Al-Subaie; F. Tamimi

doi:10.1016/j.injury.2020.02.014

Age related changes in the bone microstructure in patients with femoral neck fractures

J. M. Sanchez-Siles^*
, I. Tamimi-Mariño
, A. R.G. Cortes
, J. L. Ackerman
, D. González-Quevedo
, E. Guerado
, A. García
, F. Yaghoubi
, M. N. Abdallah
, H. Eimar
, M. Laurenti
, A. Al-Subaie
, F. Tamimi

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

Background: The risk of femoral neck fracture progressively increases with age. However, the reasons behind this consistent increase in the fracture risk can't be completely justified by the decrease in the bone mineral density. The objective of this study was to analyze the correlation between various bone structural features and age. Study Design & Methods: A total of 29 consecutive patients who suffered an intracapsular hip fracture and underwent joint replacement surgery between May 2012 and March 2013 were included in this study. A 2 cm × 1 cm Ø cylindrical trabecular bone sample was collected from the femoral heads and preserved in formaldehyde. Bone mineral density (BMD), microarchitecture, organic content and crystallography were analyzed using a Dual-energy X-ray absorptiometry scan, micro-CT scan, and high resolution magic-angle-spinning-nuclear magnetic resonance (MAS-NMR), respectively. Statistical correlations were made using Spearman´s or Pearson´s correlation tests depending on the distribution of the continuous variables. Results: The mean patient age was 79.83 ± 9.31 years. A moderate negative correlation was observed between age and the hydrogen content in bone (¹H), which is an indirect estimate to quantify the organic matrix (r = −0.512, p = 0.005). No correlations were observed between BMD, trabecular number, trabecular thickness, phosphorous content, apatite crystal size, and age (r = 0.06, p = 0.755; r = −0.008, p = 0.967; r = −0.046, p = 0.812; r = −0.152, p = 0.430, respectively). A weak positive correlation was observed between Charlson´s comorbidity index (CCI) and c-axis of the hydroxiapatite (HA) crystals (r = −0.400, p = 0.035). Conclusion: The femoral head relative protein content progressively decreases with age. BMD was not correlated with other structural bone parameters and age. Patients with higher comorbidity scores had larger HA crystals. The present results suggest that the progressive increase in the hip fracture risk in elderly patients could be partially explained by the lower bone protein content in this age group.

Original language	English
Pages (from-to)	S12-S18
Journal	Injury
Volume	51
DOIs	https://doi.org/10.1016/j.injury.2020.02.014
State	Published - Apr 2020
Externally published	Yes

Keywords

Bone aging
Collagen
Femoral head bone fractures
Hydroxyapatite crystal
Micro-computed tomography
Osteoporosis

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10.1016/j.injury.2020.02.014

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Sanchez-Siles, J. M., Tamimi-Mariño, I., Cortes, A. R. G., Ackerman, J. L., González-Quevedo, D., Guerado, E., García, A., Yaghoubi, F., Abdallah, M. N., Eimar, H., Laurenti, M., Al-Subaie, A., & Tamimi, F. (2020). Age related changes in the bone microstructure in patients with femoral neck fractures. Injury, 51, S12-S18. https://doi.org/10.1016/j.injury.2020.02.014

@article{dad0ff2e10e849a0b404842bd95d63ad,

title = "Age related changes in the bone microstructure in patients with femoral neck fractures",

abstract = "Background: The risk of femoral neck fracture progressively increases with age. However, the reasons behind this consistent increase in the fracture risk can't be completely justified by the decrease in the bone mineral density. The objective of this study was to analyze the correlation between various bone structural features and age. Study Design \& Methods: A total of 29 consecutive patients who suffered an intracapsular hip fracture and underwent joint replacement surgery between May 2012 and March 2013 were included in this study. A 2 cm × 1 cm {\O} cylindrical trabecular bone sample was collected from the femoral heads and preserved in formaldehyde. Bone mineral density (BMD), microarchitecture, organic content and crystallography were analyzed using a Dual-energy X-ray absorptiometry scan, micro-CT scan, and high resolution magic-angle-spinning-nuclear magnetic resonance (MAS-NMR), respectively. Statistical correlations were made using Spearman´s or Pearson´s correlation tests depending on the distribution of the continuous variables. Results: The mean patient age was 79.83 ± 9.31 years. A moderate negative correlation was observed between age and the hydrogen content in bone (1H), which is an indirect estimate to quantify the organic matrix (r = −0.512, p = 0.005). No correlations were observed between BMD, trabecular number, trabecular thickness, phosphorous content, apatite crystal size, and age (r = 0.06, p = 0.755; r = −0.008, p = 0.967; r = −0.046, p = 0.812; r = −0.152, p = 0.430, respectively). A weak positive correlation was observed between Charlson´s comorbidity index (CCI) and c-axis of the hydroxiapatite (HA) crystals (r = −0.400, p = 0.035). Conclusion: The femoral head relative protein content progressively decreases with age. BMD was not correlated with other structural bone parameters and age. Patients with higher comorbidity scores had larger HA crystals. The present results suggest that the progressive increase in the hip fracture risk in elderly patients could be partially explained by the lower bone protein content in this age group.",

keywords = "Bone aging, Collagen, Femoral head bone fractures, Hydroxyapatite crystal, Micro-computed tomography, Osteoporosis",

author = "Sanchez-Siles, \{J. M.\} and I. Tamimi-Mari{\~n}o and Cortes, \{A. R.G.\} and Ackerman, \{J. L.\} and D. Gonz{\'a}lez-Quevedo and E. Guerado and A. Garc{\'i}a and F. Yaghoubi and Abdallah, \{M. N.\} and H. Eimar and M. Laurenti and A. Al-Subaie and F. Tamimi",

note = "Publisher Copyright: {\textcopyright} 2020 Elsevier Ltd",

year = "2020",

month = apr,

doi = "10.1016/j.injury.2020.02.014",

language = "English",

volume = "51",

pages = "S12--S18",

journal = "Injury",

issn = "0020-1383",

}

TY - JOUR

T1 - Age related changes in the bone microstructure in patients with femoral neck fractures

AU - Sanchez-Siles, J. M.

AU - Tamimi-Mariño, I.

AU - Cortes, A. R.G.

AU - Ackerman, J. L.

AU - González-Quevedo, D.

AU - Guerado, E.

AU - García, A.

AU - Yaghoubi, F.

AU - Abdallah, M. N.

AU - Eimar, H.

AU - Laurenti, M.

AU - Al-Subaie, A.

AU - Tamimi, F.

PY - 2020/4

Y1 - 2020/4

N2 - Background: The risk of femoral neck fracture progressively increases with age. However, the reasons behind this consistent increase in the fracture risk can't be completely justified by the decrease in the bone mineral density. The objective of this study was to analyze the correlation between various bone structural features and age. Study Design & Methods: A total of 29 consecutive patients who suffered an intracapsular hip fracture and underwent joint replacement surgery between May 2012 and March 2013 were included in this study. A 2 cm × 1 cm Ø cylindrical trabecular bone sample was collected from the femoral heads and preserved in formaldehyde. Bone mineral density (BMD), microarchitecture, organic content and crystallography were analyzed using a Dual-energy X-ray absorptiometry scan, micro-CT scan, and high resolution magic-angle-spinning-nuclear magnetic resonance (MAS-NMR), respectively. Statistical correlations were made using Spearman´s or Pearson´s correlation tests depending on the distribution of the continuous variables. Results: The mean patient age was 79.83 ± 9.31 years. A moderate negative correlation was observed between age and the hydrogen content in bone (1H), which is an indirect estimate to quantify the organic matrix (r = −0.512, p = 0.005). No correlations were observed between BMD, trabecular number, trabecular thickness, phosphorous content, apatite crystal size, and age (r = 0.06, p = 0.755; r = −0.008, p = 0.967; r = −0.046, p = 0.812; r = −0.152, p = 0.430, respectively). A weak positive correlation was observed between Charlson´s comorbidity index (CCI) and c-axis of the hydroxiapatite (HA) crystals (r = −0.400, p = 0.035). Conclusion: The femoral head relative protein content progressively decreases with age. BMD was not correlated with other structural bone parameters and age. Patients with higher comorbidity scores had larger HA crystals. The present results suggest that the progressive increase in the hip fracture risk in elderly patients could be partially explained by the lower bone protein content in this age group.

AB - Background: The risk of femoral neck fracture progressively increases with age. However, the reasons behind this consistent increase in the fracture risk can't be completely justified by the decrease in the bone mineral density. The objective of this study was to analyze the correlation between various bone structural features and age. Study Design & Methods: A total of 29 consecutive patients who suffered an intracapsular hip fracture and underwent joint replacement surgery between May 2012 and March 2013 were included in this study. A 2 cm × 1 cm Ø cylindrical trabecular bone sample was collected from the femoral heads and preserved in formaldehyde. Bone mineral density (BMD), microarchitecture, organic content and crystallography were analyzed using a Dual-energy X-ray absorptiometry scan, micro-CT scan, and high resolution magic-angle-spinning-nuclear magnetic resonance (MAS-NMR), respectively. Statistical correlations were made using Spearman´s or Pearson´s correlation tests depending on the distribution of the continuous variables. Results: The mean patient age was 79.83 ± 9.31 years. A moderate negative correlation was observed between age and the hydrogen content in bone (1H), which is an indirect estimate to quantify the organic matrix (r = −0.512, p = 0.005). No correlations were observed between BMD, trabecular number, trabecular thickness, phosphorous content, apatite crystal size, and age (r = 0.06, p = 0.755; r = −0.008, p = 0.967; r = −0.046, p = 0.812; r = −0.152, p = 0.430, respectively). A weak positive correlation was observed between Charlson´s comorbidity index (CCI) and c-axis of the hydroxiapatite (HA) crystals (r = −0.400, p = 0.035). Conclusion: The femoral head relative protein content progressively decreases with age. BMD was not correlated with other structural bone parameters and age. Patients with higher comorbidity scores had larger HA crystals. The present results suggest that the progressive increase in the hip fracture risk in elderly patients could be partially explained by the lower bone protein content in this age group.

KW - Bone aging

KW - Collagen

KW - Femoral head bone fractures

KW - Hydroxyapatite crystal

KW - Micro-computed tomography

KW - Osteoporosis

UR - https://www.scopus.com/pages/publications/85080110901

U2 - 10.1016/j.injury.2020.02.014

DO - 10.1016/j.injury.2020.02.014

M3 - Article

C2 - 32115206

AN - SCOPUS:85080110901

SN - 0020-1383

VL - 51

SP - S12-S18

JO - Injury

JF - Injury

ER -

Age related changes in the bone microstructure in patients with femoral neck fractures

Abstract

Keywords

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