Biomechanical investigation of the effect of Vitamin C supplementation on Osseointegration of titanium implants in rat (Rattus norvegicus) tibia

DOI: https://doi.org/10.52973/rcfcv-e35675
Keywords: Vitamin C, osseointegration, rat tibias

Abstract

In this study, it was aimed to evaluate some possible effects of vitamin C supplementation on the osseointegration process implants placed in rat tibias. Thirty 3-month-old female Spraque Dawley rats (Rattus norvegicus) were divided into 3 groups. In all groups, the corticocancellous part of the the metaphysis of the right tibia bones were surgically reached. Monocortical implant sockets were created by surgical methods under serum cooling, and then titanium implants with 2.5 mm diameter and 4 mm long titanium were integrated on these bone sockets. Group Sham (Control) (n=10): No additional application was made during the  experimental  process.  Group  C1  (n=10): 5 mg/kg vitamin C was given to the rats with oral gavage application in three days a week for four weeks of experimental process. Group C2 (n=10): 10 mg/kg vitamin C was given to the rats with oral gavage application in three days a week for four weeks of experimental process. At the end of the four- week experimental setup, all rats were sacrificed and the experimental process was completed. The implants integrated in the tibias of all rats were collected with the surrounding bone tissue after removing the soft tissues for biomechanical analysis. Biomechanical reverse torque analysis was applied to all implants. Statistical analysis of the obtained data; Kruskall- Wallis test, no statistically significant difference was detected between the control and experimental groups (P>0,05). In conclusion, 5 and 10mg/kg vitamin C supplementation has no positive or negative effects on osseointegration. This situaiton can be explained in two ways; the first, the dosages of vitamin C used in this study is not sufficient to create an effect. Second, the endogenous synthesis of this vitamin is enough even though under these stress conditions.

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References

Barrios-Garay K, Toledano-Serrabona J, Gay-Escoda C, Sánchez-Garcés MÁ. Clinical effect of vitamin C supplementation on bone healing: A systematic review. Med. Oral Patol. Oral Cir. Bucal. [Internet]. 2022; 27(3):e205-e215. doi: https://doi.org/pxjz

Olsen E, Wagenhoffer Z, Hetényi N. Nutrition, health and welfare of Norwegian pet guinea pigs. Acta Vet. Hung. [Internet]. 2025; 73(2):73-80. doi: https://doi.org/pxj2

Akinmoladun OF. Stress amelioration potential of vitamin C in ruminants: a review. Trop. Anim. Health Prod. [Internet]. 2022; 54(1):24. doi: https://doi.org/pxj3

Ranjan R, Ranjan A, Dhaliwal GS, Patra RC. l-Ascorbic acid (vitamin C) supplementation to optimize health and reproduction in cattle. Vet. Q. [Internet]. 2012; 32(3- 4):145-150. doi: https://doi.org/pxj4

Saha, S.K., Pathak, N.N. Digestion, Absorption and Metabolism of Nutrients. In: Fundamentals of Animal Nutrition. 1st edition. Singapore: Springer. 2021; p. 219–246. doi: https://doi.org/pxj5

Li R, Guan L, Liu Y, Hu Z, Liu J, Li C, Min H. The roles of vitamin C in infectious diseases: A comprehensive review. Nutrition. [Internet]. 2025; 134:112733. doi: https://doi.org/pxj6

Lombardi AA, Sammon M, Schreyer KE. Vitamin C and D Deficiency in Urban America: A Case Report. Clin. Pract. Cases Emerg. Med. [Internet]. 2024; 8(1):38-41. doi: https://doi.org/pxj7

Briggs FN, Briggs W. The effect of ACTH on the ascorbic acid concentration of adrenal venous plasma of the rat. Endocrinol. [Internet]. 1958; 62(1):24-29. doi: https://doi.org/fcm8rn

Theruvath AJ, Mahmoud EE, Wu W, Nejadnik H, Kiru L, Liang T, Felt S, Daldrup-Link HE. Ascorbic Acid and Iron Supplement Treatment Improves Stem Cell-Mediated Cartilage Regeneration in a Minipig Model. Am. J. Sports Med. [Internet]. 2021; 49(7):1861-1870. doi: https://doi.org/pxj8

Xu Z, Zhang Y, Lu D, Zhang G, Li Y, Lu Z, Wang F, Wang G. Antisenescence ZIF-8/Resveratrol Nanoformulation with Potential for Enhancement of Bone Fracture Healing in the Elderly. ACS Biomater. Sci. Eng. [Internet]. 2023; 9(5):2636-2646. doi: https://doi.org/pxj9

Bozoglan MY, Dundar S, Bozoglan A, Yildirim TT, Ozcan EC, Kirtay M, Kaya CA, Habek O. Evaluation of the Effects of the Systemic Vitamin C Supplementation on Peri-Implant Bone Regeneration and Osseointegration: An Experimental Study. F.U. Med. J. Health Sci. [Internet]. 2023 [cited Feb 13, 2025]; 37(3):243–248. Available in: https://goo.su/3FFyx

Giordano V, Albuquerque RP, do Amaral NP, Chame CC, de Souza F, Rodrigues Apfel MÍ. Supplementary vitamin C does not accelerate bone healing in a rat tibia fracture model. Acta Ortop. Bras. [Internet]. 2012; 20(1):10-12. doi: https://doi.org/gb9t5m

Long CL, Maull KI, Krishnan RS, Laws HL, Geiger JW, Borghesi L, Franks W, Lawson TC, Sauberlich HE. Ascorbic acid dynamics in the seriously ill and injured. J. Surg. Res. [Internet]. 2003; 109(2):144-148. doi: https://doi.org/bnd3d9

Li W, Huang Y, Gu D, Peng S, Zhang B, Peng F, Zhang D, Li M, Xiao J, Jia Z, Qiu L. Ascorbate-loaded MgFe layered double hydroxide for osteomyelitis treatment. J. Control. Release. [Internet]. 2025; 378:1045-1060. doi: https://doi.org/pxkc

Zhang H, Zhang Y, Zhang Y, Wei H, Jin S, Huo T, Qin L. Combination of inorganic nitrate and vitamin C prevents collagen-induced arthritis in rats by inhibiting pyroptosis. Food Funct. [Internet]. 2025; 16(2):673-690. doi: https://doi.org/pxkd

Metzger W, Ammo T, Sossong D, Bubel M, Mattes C, Stumpf H, Später T, Laschke MW, Pohlemann T. Establishing a simple protocol to induce the osteogenic differentiation of MC3T3-E1 cells in 2D and its transfer to 3D spheroid cultures. Biotech. Histochem. [Internet]. 2025; 100(4):179-192. doi: https://doi.org/pxkf

Yilmaz C, Erdemli E, Selek H, Kinik H, Arikan M, Erdemli B. The contribution of vitamin C to healing of experimental fractures. Arch. Orthop. Trauma Surg. [Internet]. 2001; 121(7):426-428. doi: https://doi.org/fbvpw8

Deyhim F, Strong K, Deyhim N, Vandyousefi S, Stamatikos A, Faraji B. Vitamin C reverses bone loss in an osteopenic rat model of osteoporosis. Int. J. Vitam. Nutr. Res. [Internet]. 2018; 88(1-2):58-64. doi: https://doi.org/pxkg

Zhu LL, Cao J, Sun M, Yuen T, Zhou R, Li J, Peng Y, Moonga SS, Guo L, Mechanick JI, Iqbal J, Peng L, Blair HC, Bian Z, Zaidi M. Vitamin C prevents hypogonadal bone loss. PLoS One. [Internet]. 2012; 7(10):e47058. doi: https://doi.org/f4hmqf

Sarisözen B, Durak K, Dinçer G, Bilgen OF. The effects of vitamins E and C on fracture healing in rats. J. Int. Med. Res. [Internet]. 2002; 30(3):309-313. doi: https://doi.org/pxkh

Dethlefs-Canto J, Osses-Barría F, Vergara-Zenteno R, Bustos-Ponce A, Villavicencio-Duarte J. The effectiveness of vitamin C in dental alveolus healing after dental extraction: A scoping review. Med. Oral Patol. Oral Cir. Bucal. [Internet]. 2025; 30(1):e124-e128. doi: https://doi.org/pxkj

Abdulhameed EA, Rani KGA, AlGhalban FM, Abou Neel EA, Khalifa N, Khalil KA, Omar M, Samsudin AR. Managing Oxidative Stress Using Vitamin C to Improve Biocompatibility of Polycaprolactone for Bone Regeneration In Vitro. ACS Omega. [Internet]. 2024; 9(29):31776-31788. doi: https://doi.org/pxkk

Published
2025-08-03
How to Cite
1.
Kaya CA, Tanrisever M, Duger N, Talo Yildirim T, Ozcan EC, Can UK, Gelic T, Bozoglan A, Dundar S. Biomechanical investigation of the effect of Vitamin C supplementation on Osseointegration of titanium implants in rat (Rattus norvegicus) tibia. Rev. Cient. FCV-LUZ [Internet]. 2025Aug.3 [cited 2025Aug.18];35(3):6. Available from: https://produccioncientifica.luz.edu.ve/index.php/cientifica/article/view/44212
Issue
Vol. 35 No. 3 (2025)
Section
Veterinary Medicine