Article, 2024

Avian Diabetes Mellitus: A Review

Journal of Avian Medicine and Surgery, ISSN 1082-6742, 1938-2871, Volume 38, 1, Pages 21-33, 10.1029/avianms-d-22-00057

Contributors

Van de Weyer, Yannick (Corresponding author) [1] [2] Tahas, Stamatios Alan [2] [3]

Affiliations

  1. [1] Royal Veterinary College
    2. [NORA names: United Kingdom; Europe, Non-EU; OECD];
  2. [2] Zoological Society of London
    3. [NORA names: United Kingdom; Europe, Non-EU; OECD];
  3. [3] Copenhagen Zoo
    4. [NORA names: Miscellaneous; Denmark; Europe, EU; Nordic; OECD]

Abstract

Diabetes mellitus (DM) is an uncommon, poorly documented metabolic disorder of birds. Extrapolating knowledge from DM in mammals is challenging because of marked differences in avian physiology and metabolism. A literature review from December 1991 to January 2022 identified 14 publications covering 16 diabetic birds, 63% (10/16) of which belonged to the order Psittaciformes with Ara as the predominant genus. No sex predilection was noted, but males generally presented at a younger age. Commonly reported clinical signs included polyuria 94% (15/16), polydipsia 88% (14/16), weight loss 75% (12/16), lethargy 63% (10/16), and polyphagia 38% (6/16). Diagnosis of DM was based on the presence of clinical signs and persistent hyperglycemia 100% (16/16), often with glucosuria 93% (13/14), response to insulin therapy 80% (8/10), and pancreatic pathology 90% (9/10). Specific treatment for DM was initiated in 14 patients, but blood glucose regulation for 6 months or longer was only achieved in 6 birds. Five of the regulated birds were managed with injectable long-acting insulin and 1 with oral glipizide combined with dietary modifications. However, glipizide yielded poor results in other cases, likely attributable to a lack of functional beta cells. Three diabetic birds progressed to remission. Treatment proved unsuccessful for 7 patients with a mean survival time of 36 days from diagnosis. One patient was lost to follow-up, and 2 were euthanized immediately following diagnosis. Histological examination of the pancreas frequently (90%, 9/10) revealed abnormalities including atrophy, fibrosis, and vacuolization of the endocrine islets with or without lymphoplasmacytic pancreatitis. Comorbidities, including hemosiderosis and infection, were common. This review suggests that birds diagnosed with DM are primarily affected by a type I diabetes as observed in dogs and humans. In contrast to mammalian species, avian DM is often associated with underlying disease and a complete clinical workup is essential to diagnose and address secondary disease conditions prior to initiating long-term insulin therapy.

Keywords

No sex predilection, Psittaciformes, abnormalities, age, atrophy, avian physiology, beta cells, birds, blood, blood glucose regulation, cases, cells, clinical signs, clinical workup, comorbidities, days, diabetes, diabetes mellitus, diagnosis, diagnosis of DM, dietary modification, disease, dogs, endocrine islets, examination, fibrosis, follow-up, functional beta cells, genus, glipizide, glucose regulation, glucosuria, hemosiderosis, histological examination, humans, hyperglycemia, infection, insulin, insulin therapy, islets, knowledge, lack, lethargy, literature, literature review, long-acting insulin, long-term insulin therapy, loss, lost to follow-up, male, mammalian species, mammals, mellitus, metabolism, modification, months, oral glipizide, pancreas, pancreatic pathology, pancreatitis, pathology, patients, persistent hyperglycemia, physiology, polydipsia, polyphagia, polyuria, predilection, predominant genera, presence, presence of clinical signs, publications, regulation, remission, response, response to insulin therapy, review, sex predilection, signs, species, specific treatment, survival, survival time, therapy, time, treatment, type, type I diabetes, vacuoles, weight, weight loss, workup, younger age

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