Approach to Alopecia in Dogs in Clinical Practice

Alopecia in Dogs

Authors

  • Büşra Uzun Ondokuz Mayıs Üniversitesi

DOI:

https://doi.org/10.64614/vzs-15

Keywords:

Alopecia, endocrine dermatopathies, follicular dysplasia, hair follicle disorders, skin diseases

Abstract

Alopecia in companion animals, particularly dogs, represents a complex clinical manifestation with diverse etiologies ranging from infectious agents and endocrine disorders to congenital and hereditary abnormalities. The skin, as the body's largest organ, plays a critical role in maintaining homeostasis, acting as a barrier against environmental insults while contributing to thermoregulation, vitamin D synthesis, and sensory perception. Hair follicles, derived from ectodermal-mesenchymal interactions, are vulnerable to a wide range of pathological insults. Alopecia may be focal or multifocal, and its presentation—symmetrical or asymmetrical—can provide clues to the underlying pathology. Common causes include bacterial folliculitis, dermatophytosis, demodicosis, and various autoimmune or hormonal imbalances. Congenital and hereditary forms, such as ectodermal dysplasia and color dilution alopecia, are breed-specific and often diagnosed via skin biopsy and histopathology. Among acquired causes, endocrine disorders like hypothyroidism, hyperadrenocorticism, and hyperestrogenism disrupt normal follicular cycling and keratinization, resulting in progressive hair loss. Follicular dysplasias and alopecia X, although primarily cosmetic in nature, remain diagnostic and therapeutic challenges due to their unclear pathogenesis. Management strategies are etiology-specific and include antiparasitic, antimicrobial, hormonal, and palliative treatments such as melatonin or essential fatty acids. A detailed clinical history, dermatological examination, and targeted diagnostics are essential to guide treatment and provide prognosis.

References

Barker, E. N., Campbell, S., Tebb, A. J., Neiger, R., Herrtage, M. E., Reid, S. W. J., & Ramsey, I. K. (2005). A comparison of the survival times of dogs treated with mitotane or trilostane for pituitary‐dependent hyperadrenocorticism. Journal of Veterinary Internal Medicine, 19(6), 810-815.

Caramalac, S. M., Caramalac, S. M., Babo-Terra, V. J., Ramos, C. A., & Palumbo, M. I. (2021). PCR-RFLP molecular confirmation of color dilution alopecia in dogs in Brazil. Journal of Veterinary Diagnostic Investigation, 33(5), 984-986.

Cerundolo, R. (2023). The effect of endocrine disease on the skin. In BSAVA Manual of Canine and Feline Endocrinology (pp. 54-61). BSAVA Library.

Crawford, M., Lundberg, A., & Neto, R. (2024). Canine alopecia X-Like disorder. Brazilian Journal of Veterinary Pathology, 17(1), 76-78.

de Sousa Ferreira, M. A., de Carvalho, V. M., da Silva Dutra, M., Rodrigues, F. R. N., de Araújo Viana, D., & Ferreira, T. C. (2022). Alopecia X in dogs: report of seven cases. Research, Society and Development, 11(10), e159111032652-e159111032652

Frank, L. A. (2006). Comparative dermatology—canine endocrine dermatoses. Clinics in dermatology, 24(4), 317-325.

Galac, S., Kars, V. J., Voorhout, G., Mol, J. A., & Kooistra, H. S. (2008). ACTH-independent hyperadrenocorticism due to food-dependent hypercortisolemia in a dog: a case report. The Veterinary Journal, 177(1), 141-143.

Golinelli, S., De Marco, V., Leal, R. O., Barbarossa, A., Aniballi, C., Maietti, E., ... & Fracassi, F. (2021). Comparison of methods to monitor dogs with hypercortisolism treated with trilostane. Journal of Veterinary Internal Medicine, 35(6), 2616-2627.

Haider, M. S., Ahmad, T., Groll, J., Scherf-Clavel, O., Kroiss, M., & Luxenhofer, R. (2021). The challenging pharmacokinetics of mitotane: an old drug in need of new packaging. European Journal of Drug Metabolism and Pharmacokinetics, 46(5), 575-593.

Jackson, Hilary A., and Rosanna Marsella (2012). BSAVA manual of canine and feline dermatology. 3rd Ed. British Small Animal Veterinary Association, 2012.

Jaiswal, M., Shukla, P. C., Tiwari, A., Gupta, D., Singh, B., Maravi, P., & Sheikh, A. A. (2018). Recent approaches in diagnosis and management of canine hypothyroidism: A review. The Pharma Innovation Journal, 7(1), 90-94.

Kamel, S. A., Abdou, O. M., Ahmed, K. A., & Farag, H. S. (2021). Hematological, biochemical and histopathological studies on selected canine skin diseases. Veterinary Medical Journal (Giza), 67(1), 69-94.

Kaya, C., Esin, B., & Esin, Ç. (2025). Evaluation of Testicular Arterial Doppler Ultrasonography and Spermatological Parameters in Pomeranian Dogs with Alopecia X. Kocatepe Veterinary Journal, 18(1), 25-32.

Kumar, K. S., & Srikala, D. (2013). Hypothyroidism associated skin and coat abnormalities in dogs-a study of 49 patients.

Marín-García, P. J., & Llobat, L. (2022). Inheritance of monogenic hereditary skin disease and related canine breeds. Veterinary Sciences, 9(8), 433.

McGrotty, Y., & Randell, S. (2019). Diagnostic approach to polyuria and polydipsia in dogs. In Practice, 41(6), 249-258.

Menon, G. K., Elias, P. M., Wakefield, J. S., & Crumrine, D. (2022). Cetacean epidermal specialization: A review. Anatomia, histologia, embryologia, 51(5), 563-575.

Miura, K., Sunahara, H., Sakai, Y., Isshiki, S., Hasegawa, M., & Oda, M. (2022). Effective treatment with mitotane for a canine case of presumed ectopic Cushing’s syndrome-related pheochromocytoma. Open Veterinary Journal, 12(5), 762-767.

Neubert, A., Walter, B., & Wildermuth, B. (2023). Hyperestrogenism and hyperandrogenism in dogs and cats due to secondary exposure.

Verschuuren, M. U., Schlotter, Y. M., & Leegwater, P. A. (2024). Investigation of the association of the MLPH gene with seasonal canine flank alopecia in Rhodesian Ridgeback dogs. Canine medicine and genetics, 11(1), 5.

Verschuuren, M. U., Schlotter, Y. M., van Geijlswijk, I. M., van Der Lugt, J. J., & Gehring, R. (2022). The efficacy of subcutaneous slow‐release melatonin implants in the prevention of canine flank alopecia recurrence is uncertain: A double‐blind, randomized, placebo‐controlled study. Veterinary Dermatology, 33(6), 553-558.

Visha, P., Das, P. K., Mukherjee, J., & Banerjee, D. (2023). Special senses. In Textbook of Veterinary Physiology (pp. 295-311). Singapore: Springer Nature Singapore.

Welle, M. M. (2023). Basic principles of hair follicle structure, morphogenesis, and regeneration. Veterinary pathology, 60(6), 732-747.

Welle, Monika M., and Dominique J. Wiener (2016). "The hair follicle: a comparative review of canine hair follicle anatomy and physiology." Toxicologic pathology 44.4: 564-574.

Zanna, G., Abramo, F., Contiero, B., Zini, E., Albanese, F., Borio, E., ... & Roccabianca, P. (2024). Dermoscopic findings and comparison of usefulness of longitudinal versus transversal sections in the histological diagnosis of alopecia X. Veterinary Dermatology, 35(2), 126-137.

Downloads

Published

2025-07-25

How to Cite

Uzun, B. (2025). Approach to Alopecia in Dogs in Clinical Practice: Alopecia in Dogs . Veterinary and Zootechnical Sciences, 1(1), 104–118. https://doi.org/10.64614/vzs-15

Issue

Vol. 1 No. 1 (2025): Veterinary and Zootechnical Sciences

Section

Review Article

License

Copyright (c) 2025 Büşra Uzun

Creative Commons License

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