Computed Tomography of thyroid gland in dogs


132 / 70

Authors

  • Narendra Singh Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • P. Bishnoi Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • Sakar Palecha Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • A.K. Bishnoi Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • Shivangi Diwedi Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • Komal Galgat Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • Ruchi Patwa Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)
  • Ankita Kumari Rajasthan University of Veterinary and Animal Sciences, Bikaner- 334001(Rajasthan)

Keywords:

Computed Tomography, Diagnostic Imaging, Dog, Thyroid gland

Abstract

The present study evaluated the computed tomography (CT) characteristics of the thyroid gland in dogs by assessing its appearance and attenuation values in healthy and hypothyroid animals. A total of 12 healthy dogs and 8 dogs diagnosed with hypothyroidism were included. The mean age and body weight were 4.25 yr and 16.10 kg in healthy dogs, and 7.65 yr and 34.13 kg in hypothyroid dogs, respectively. On transverse and multiplanar reconstructed images, the thyroid gland was assessed for its location relative to the trachea, lobar shape, and lowest, highest, and mean attenuation (HU) values. Dogs with hypothyroidism had significantly lower pre-contrast mean attenuation values (64.48±2.49 HU) compared to healthy dogs (79.93±2.32 HU). Similarly, post-contrast attenuation values were significantly reduced in hypothyroid dogs (101.29±4.47 HU) compared to those with normal thyroid function (122.84±4.86 HU). In conclusion, hypothyroidism is associated with a significant decrease in both pre- and post-contrast CT attenuation values of the thyroid gland. The CT features identified in healthy dogs provide reliable criteria for locating and evaluating the thyroid gland in cervical CT imaging.

Downloads

Download data is not yet available.

References

Amoros, O., Espada, Y., Vila, A., Jimenez, A. and Novellas, R. 2021. Pre contrast CT attenuation of the thyroid gland is lower in brachycephalic dogs versus non brachycephalic dogs. Vet. Radiol. Ultrasound 62: 54-60.

Daminet, S. and Ferguson, D. 2003. Influence of drugs on thyroid function in dogs. J. Vet. Intern. Med. 17: 463-472.

Dixon, R.M. and Mooney, C.T. 1999.Evaluation of serum free thyroxine and thyrotropin concentrations in the diagnosis of canine hypothyroidism. J. Small Anim. Pract. 40: 72-78.

Drost, W.T., Mattoon, J.S., Samii, V.F., Weisbrode, S.E. and Hoshaw Woodard, S.L. 2004. Computed tomographic densitometry of normal feline thyroid glands. Vet. Radiol. Ultrasound 45: 112-116.

Hermans, R., Bouillon, R., Laga, K., Delaere, P.R., Foer, B.D., Marchal, G. and Baert, A.L. 1997. Estimation of thyroid gland volume by spiral computed tomography. Eur. Radiol. 7: 214–216.

Imanishi, Y., Ehara, N., Shinagawa, T., Tsujino, D., Endoh, I., Baba, K. and Nosaka, S. 2000. Correlation of CT values, iodine concentration, and histological changes in the thyroid. J. Comput. Assist. Tomogr. 24: 322-326.

Maldjian, P. and Chen, T. 2016. Is visual assessment of thyroid attenuation on unenhanced CT of the chest useful for detecting hypothyroidism? Clin. Radiol. 71: 1199.e91199.e14.

MettlerJr, F.A. and Guiberteau, M.J. 2019. Essentials of nuclear medicine imaging: expert consult-online and print. Philadelphia, PA: Elsevier Health Sciences. p 85.

Pankowski, F., Bartyzel, B.J., Pasko, S., Moroz, A., Mickiewicz, M., Szalus-Jordanow, O. and Bonecka, J. 2021. CT appearance and measurements of the normal thyroid gland in goats. BMC Vet. Res.17: 1-8.

Singh, S., Palecha, S., Bishnoi, P. and Gahlot, T.K. 2021. Evaluation of degenerative changes of elbow and coxo-femoral joints in dogs using computed tomography. Indian J. Vet. Surg. 42: 84-90.

Silverman, P.M., Newman, G.E., Korobkin, M., Workman, J.B., Moore, A.V. and Coleman, R.E. 1984. Computed tomography in the evaluation of thyroid disease. Am. J. Roentgenol. 142: 897-902.

Snedecor, G.W. and Cochran, W.G. 1967. Statistical Methods, 6th edn. Ames, Iowa: The Iowa State University Press, USA.

Taeymans, O., Peremans, K. and Saunders, J.H. 2007. Thyroid imaging in the dog: Current status and future directions. J. Vet. Inter. Med. 21: 673-684.

Taeymans, O., Schwarz, T., Duchateau, L., Barberet, V., Gielen, I., Haskins, M., Van Bree, H. and Saunders, J.H. 2008. Computed tomographic features of the normal canine thyroid gland. Vet. Radiol. Ultrasound 49: 13-19.

Weissman, J.L., Curtin, H.D. and Johnson, J.T. 1998. Thyroid gland after total laryngectomy: CT appearance. Radiol. 207: 405–409.

Wisner, E. and Zwingenberger, A. 2015. Atlas of Small Animal CT and MRI. Ames: John Wiley & Sons, p 141.

Downloads

Submitted

2026-01-02

Published

2026-01-05

Issue

Vol. 46 No. 2 (2025): IJVS DECEMBER 2025

Section

Research Articles

License

Copyright (c) 2026 Indian Journal of Veterinary Surgery

Creative Commons License

This work is licensed under a Creative Commons Attribution-NoDerivatives 4.0 International License.

How to Cite

Singh, N., Bishnoi, P., Palecha, S., Bishnoi, A., Diwedi, S., Galgat, K., Patwa, R., & Kumari, A. (2026). Computed Tomography of thyroid gland in dogs. Indian Journal of Veterinary Surgery, 46(2), 84-87. https://epubs.icar.org.in/index.php/IJVS/article/view/174788