Effect of L-thyroxine on bone biomechanical and morphometric parameters in rats
- PMID: 40389947
- PMCID: PMC12087116
- DOI: 10.1186/s12917-025-04816-7
Effect of L-thyroxine on bone biomechanical and morphometric parameters in rats
Abstract
Background: Morphometric measurements and biomech anical tests are very crucial in determining the effects of drugs and chemicals on bones. L-thyroxine is often used instead of thyroid hormone in research conducted on experimental animals. The aim of the study is to examine the effects of L-thyroxine on the morphometric and mechanical properties of rat bones. A total of 16 healthy male Wistar Albino rats were used, including control and L-thyroxine groups. After the experimental process, the left/right humerus and femur were resected from all animals. Morphometric measurements were performed on the bones. Then, three indices of the bones were calculated using the measurement results. Three-point bending was performed to determine the effect of L-thyroxine on the mechanical properties of the bones.
Results: Humerus maximum length and proximal width difference was determined. The maximum length and proximal width of the right humerus were lower in rats that received L-thyroxine. Differences were observed in the weight, diaphysis diameter and weight/length index of the right femur. These parameters were higher in the control group. No statistical difference was detected between L-thyroxine and control groups in mechanical properties. Maximum loading, stiffness, strength and elastic modulus in the humerus were observed to be higher in the control group. However, stiffness, strength and elastic modulus in the femur were determined to be higher in the L-thyroxine group. According to the correlation between the mechanical properties of bones and conventional indices, a high correlation was found between elastic modulus and weight/length index in the humerus. In the femur, a high negative correlation was observed between maximum loading and the weight/length index.
Conclusion: This study showed that L-thyroxine had an effect on the morphometry of long bones in rats but did not affect their mechanical properties. L-thyroxine has been observed to mainly affect the bones in the right side of the body.
Keywords: Femur; Humerus; L-thyroxine; Rat; Three-point bending.
© 2025. The Author(s).
Conflict of interest statement
Declarations. Ethics approval and consent to participate: All experimental procedures were carried out according to the ethical guidelines for using animal samples permitted by Experimental Animal Production and Research Center Ethics Committee of the Veterinary Faculty of Selçuk University, Turkey (Approval number: 2023/164). Every procedure was carried out in accordance with the relevant laws and standards. The authors obtained informed consent from the owners to use animals in the study. Consent for publication: Not applicable. Competing interests: The authors declare no competing interests.
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References
-
- Peterson J, Guyer M, Felsenfeld A, Old S, Mockrin S. Genome sequence of the Brown Norway rat yields insights into mammalian evolution. Nat. 2004;428(6982):493–521. - PubMed
-
- Harkness JE, Turner PV, vandeWoude S, Wheler CL. Harkness and Wagner's biology and medicine of rabbits and rodents. 2013: John Wiley & Sons.
-
- Bissinger O, Kreutzer K, Gotz C, Hapfelmeier A, Pautke C, Vogt S, Gabriele W, Wolff KD, Tischer T, Prodinger PM. A biomechanical, micro-computertomographic and histological analysis of the influence of diclofenac and prednisolone on fracture healing in vivo. BMC Musculoskelet Disord. 2016;17:1–11. - PMC - PubMed
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