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Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats

As both anabolic and anti-catabolic osteoporosis drugs affect bone formation and resorption processes, they may contribute to bone's overall mechanical behavior by altering the quality of the bone matrix. We used an ovariectomized rat model and a novel fracture mechanics approach to investigate...

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Autores principales: Karim, Lamya, Kwaczala, Andrea, Vashishth, Deepak, Judex, Stefan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2021
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8503587/
https://www.ncbi.nlm.nih.gov/pubmed/34660852
http://dx.doi.org/10.1016/j.bonr.2021.101137
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author Karim, Lamya
Kwaczala, Andrea
Vashishth, Deepak
Judex, Stefan
author_facet Karim, Lamya
Kwaczala, Andrea
Vashishth, Deepak
Judex, Stefan
author_sort Karim, Lamya
collection PubMed
description As both anabolic and anti-catabolic osteoporosis drugs affect bone formation and resorption processes, they may contribute to bone's overall mechanical behavior by altering the quality of the bone matrix. We used an ovariectomized rat model and a novel fracture mechanics approach to investigate whether treatment with an anabolic (parathyroid hormone) or anti-catabolic (alendronate) osteoporosis drugs will alter the organic and mineral matrix components and consequently cortical bone fracture toughness. Ovariectomized (at 5 months age) rats were treated with either parathyroid hormone or alendronate at low and high doses for 6 months (age 6–12 months). Specifically, treatment groups included untreated ovariectomized controls (n = 9), high-dose alendronate (n = 10), low-dose alendronate (n = 9), high-dose parathyroid hormone (n = 10), and low-dose parathyroid hormone (n = 9). After euthanasia, cortical microbeams from the lateral quadrant were extracted, notched, and tested in 3-point bending to measure fracture toughness. Portions of the bone were used to measure changes in the 1) organic matrix through quantification of advanced glycation end-products (AGEs) and non-collagenous proteins, and 2) mineral matrix through assessment of mineral crystallinity. Compared to the ovariectomized group, rats treated with high doses of parathyroid hormone and alendronate had significantly increased cortical bone fracture toughness, which corresponded primarily to increased non-collagenous proteins while there was no change in AGEs. Additionally, low-dose PTH treatment increased matrix crystallinity and decreased AGE levels. In summary, ovariectomized rats treated with pharmaceutical drugs had increased non-collagenous matrix proteins and improved fracture toughness compared to controls. Further investigation is required for different doses and longer treatment periods.
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spelling pubmed-85035872021-10-15 Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats Karim, Lamya Kwaczala, Andrea Vashishth, Deepak Judex, Stefan Bone Rep Full Length Article As both anabolic and anti-catabolic osteoporosis drugs affect bone formation and resorption processes, they may contribute to bone's overall mechanical behavior by altering the quality of the bone matrix. We used an ovariectomized rat model and a novel fracture mechanics approach to investigate whether treatment with an anabolic (parathyroid hormone) or anti-catabolic (alendronate) osteoporosis drugs will alter the organic and mineral matrix components and consequently cortical bone fracture toughness. Ovariectomized (at 5 months age) rats were treated with either parathyroid hormone or alendronate at low and high doses for 6 months (age 6–12 months). Specifically, treatment groups included untreated ovariectomized controls (n = 9), high-dose alendronate (n = 10), low-dose alendronate (n = 9), high-dose parathyroid hormone (n = 10), and low-dose parathyroid hormone (n = 9). After euthanasia, cortical microbeams from the lateral quadrant were extracted, notched, and tested in 3-point bending to measure fracture toughness. Portions of the bone were used to measure changes in the 1) organic matrix through quantification of advanced glycation end-products (AGEs) and non-collagenous proteins, and 2) mineral matrix through assessment of mineral crystallinity. Compared to the ovariectomized group, rats treated with high doses of parathyroid hormone and alendronate had significantly increased cortical bone fracture toughness, which corresponded primarily to increased non-collagenous proteins while there was no change in AGEs. Additionally, low-dose PTH treatment increased matrix crystallinity and decreased AGE levels. In summary, ovariectomized rats treated with pharmaceutical drugs had increased non-collagenous matrix proteins and improved fracture toughness compared to controls. Further investigation is required for different doses and longer treatment periods. Elsevier 2021-10-01 /pmc/articles/PMC8503587/ /pubmed/34660852 http://dx.doi.org/10.1016/j.bonr.2021.101137 Text en © 2021 The Authors https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Full Length Article
Karim, Lamya
Kwaczala, Andrea
Vashishth, Deepak
Judex, Stefan
Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title_full Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title_fullStr Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title_full_unstemmed Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title_short Dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
title_sort dose-dependent effects of pharmaceutical treatments on bone matrix properties in ovariectomized rats
topic Full Length Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8503587/
https://www.ncbi.nlm.nih.gov/pubmed/34660852
http://dx.doi.org/10.1016/j.bonr.2021.101137
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