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- Title
Trabecular bone remodelling in the femur of C57BL/6J mice treated with diclofenac in combination with treadmill exercise.
- Authors
LEHMANN, TOMASZ P.; WOJTKÓW, MAGDALENA; PRUSZYŃSKA-OSZMAŁEK, EWA; KOŁODZIEJSKI, PAWEŁ; PEZOWICZ, CELINA; TRZASKOWSKA, ALEKSANDRA; MIELCAREK, SŁAWOMIR; SZYBOWICZ, MIROSŁAW; NOWICKA, ARIADNA B.; NOWICKI, MAREK; MISTERSKA, EWA; IWAŃCZYK-SKALSKA, EWA; JAGODZIŃSKI, PAWEŁ; GŁOWACKI, MACIEJ
- Abstract
Purpose: Analgesic treatment with diclofenac deteriorates bone structure and decreases biomechanical properties. This bone loss has been though to be reversed by training. The impact of exercise on bone treated with diclofenac (DF) has reminded elusive. In the present study, we assayed the combined impact of exercises and DF on mouse femur. Methods: The femur samples we obtained from 30 days treated C57BL/6J female mice. The training group ran on a horizontal treadmill at 12 m/min by 30 min a day (5% grade/slope). The group of ten mice treated with DF received the drug subcutaneously every day (5 mg/kg of body weight/day). The combined group ran on the treadmill and obtained DF. After 30 days, we sacrificed mice and studied their femurs using microcomputed tomography (µCT), dynamic mechanical analysis (DMA) and nanoindentation. Results: We observed that treadmill running and DF decreased trabecular bone volume and mineral density. Combined effect of training and DF was not additive. A significant interaction of both parameters suggested protective effect of training on bone loss provoked by DF. The femur cortical bone shell remained untouched by the training and treatment. The training and the DF treatment did not alter the storage modulus E' significantly. The unchanged storage modulus would be suggesting on the unaltered bone strength. Conclusions: We concluded that even relatively short time of training with concomitant DF treatment could be protective on trabecular bone. Although viscoelastic properties of the entire femur were not modulated, femur trabecular tissue was thinned by treatment with DF and protected by training.
- Subjects
LABORATORY mice; CANCELLOUS bone; BONE remodeling; BONE density; COMPACT bone; TREADMILL exercise; FEMUR; TREADMILLS
- Publication
Acta of Bioengineering & Biomechanics, 2021, Vol 23, Issue 3, p3
- ISSN
1509-409X
- Publication type
Article
- DOI
10.37190/ABB-01851-2021-01