United Kingdom

Keratoma is an aberrant keratin mass thought to originate from epidermal horn-producing cells interposed between the stratum medium of the hoof wall and the underlying third phalanx. The cause is unknown, although the presence of keratomas is frequently associated with chronic irritation, focal infection, or trauma. A total of 167 donkeys with keratomas were presented in this study. The diagnosis of a keratoma was based on clinical signs, radiography, and histopathologic examination. Surgical excision was attempted on all donkeys with lameness unless euthanasia was advised. Histopathologic examination, including Giemsa, periodic acid Schiff, and Young’s silver special histochemical stains, was performed and showed the presence of fungal hyphae and spirochete bacteria within the degenerate keratin. Polymerase chain reaction (PCR) for treponeme bacteria was performed on 10 keratoma lesions and 9 healthy pieces of hoof (controls). All healthy donkey tissues were negative for the 3 recognized digital dermatitis (DD) treponeme phylogroups, whereas 3 of 10 (30%) donkey keratoma samples were positive for one of the DD treponeme phylogroups. Routine fungal culture and PCR for fungi were performed on 8 keratoma lesions and 8 healthy pieces of hoof (controls). Keratinopathogenic fungi were detected in 1 of 8 (12.5%) keratomas, while only non-keratinopathogenic, environmental fungi were detected in 8 control healthy hoof samples. This is the first time the DD treponemes phylogroup and keratinopathogenic fungi have been detected in keratomas. Further studies are required to assess the significance of this finding.

Multisystemic eosinophilic epitheliotropic disease (MEED) is a rare condition of equids characterized by eosinophilic infiltration of multiple organs. Clinical signs are variable depending on the affected organs. The most common clinical signs include chronic weight loss, diarrhoea and exfoliative dermatitis. Respiratory distress and raised liver enzymes are less frequently seen. The cause is unknown and the pathogenesis is poorly understood. There are less than 50 reported cases of horses with MEED. We now document the lesions in three donkeys with fluctuating or chronic loss of weight, lethargy, exfoliative dermatitis and peripheral eosinophilia. All three animals were euthanized due to poor prognosis and welfare concerns. Post-mortem examination revealed multiple white to tan, irregular masses composed of eosinophilic infiltrates, including eosinophilic granulomas in several organs, confirming the presence of MEED. To the best of our knowledge, MEED has not previously been reported in donkeys.

Knowledge of donkey-specific disease presentation, behaviour, anatomy and physiology is beneficial when choosing appropriate medications and routes of administration in this species. While many selected therapeutic agents will be the same as those used in the horse, being aware of certain nuances will ensure that the donkey receives the best possible care. Clinicians and owners alike may benefit from drug administration tips. As there are limited drugs licensed for use in the donkey, use of the prescribing cascade is usually warranted. This article mentions the use of therapeutics in mules where appropriate.

Donkeys have significant behaviour variations in comparison with horses, due to each species evolving in different environments. Donkeys have a reduced flight response compared with horses, but an increased tendency to display fight or freeze behaviours. Unlike horses, they can display territorial, defensive behaviour and show a wide range of sexual behaviours that require consideration during management. Donkeys can bond strongly to other donkeys or animals and separating bonded companions can cause stress severe enough to induce the potentially fatal condition hyperlipaemia. Donkeys show stoic body language in response to pain. Awareness of subtle behavioural indicators of fear and pain can improve donkey welfare and improve handler safety.

The last twenty years have seen increased interest in animal-assisted therapy (AAT) and animal-assisted activity (AAA). However, there has been little research exploring these interactions as experienced by the animals themselves. In this paper, we bring a “more-than-human” lens to concepts and practices within AAA/T, synthesizing ideas about animal sentience and subjectivity that have emerged within animal geography scholarship and animal welfare science. We draw from empirical work with practitioners involved in donkey-facilitated learning (DFL) to examine the knowledge base of equine facilitators, including their beliefs, opinions, and assumptions about donkeys, their understanding of animal welfare, and their role in DFL. We discuss how knowledge of donkeys is mobilized to ensure more-than-human welfare during DFL; how animals’ “choice” to participate is encouraged and centered; how ideas of nonhuman labor create opportunities for considering more-than-human welfare; and how practitioners advocate for animals and embed practices of care for humans and nonhumans.

The suckling behavior of donkey foals has rarely been explored, with most orphans being reared on protocols based on the assumption that their behavior and physiology do not differ from horses. An orphaned donkey foal at The Donkey Sanctuary was reared on an artificial suckling system, enabling the analysis of suckling behavior in an orphaned donkey. Milk formula was accessible 24-hours per day via the artificial system and suckling behavior was monitored, revealing that the foal suckled at a variable rate, with suckling durations, frequency and quantities differing from what was outlined in the standard bottle-feeding protocol for equines.

Background: Donkeys make up a small but important percentage of patients seen by equine and mixed practices, but, while similar to horses in many respects, they have different management needs. Many of these differences are evident in the anaesthesia setting, and differentiating the treatment of donkeys from ‘small horses’ can lead to better outcomes for patients, owners and practices.

Aim of the article: This article highlights the differences between donkeys and horses with regards to induction and maintenance of anaesthesia and provides practical tips about performing safe anaesthesia of donkeys.