coMPAnion AniMAl
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coMPAnion AniMAl
1 Companion Animal SEARCH Print BACK HOME Avian medicine Avian medicine for the companion animal veterinarian Most of the birds kept as companion animals belong to the order of Psittaciformes and Passeriformes. As a veterinarian working in a companion animal practice, it is thus very likely to be confronted with birds from one of these orders at some point. During three interactive lectures a diversity of subjects will be discussed that are relevant to the companion animal veterinarian. Nico J Schoemaker DVM, PhD, Dip. ECZM (Avian, Small mammal), Dipl. ABVP-Avian Y.R.A. van Zeeland DVM, MVR, PhD, Dip. ECZM (Avian) Division of Zoological Medicine, Department of Clinical Sciences of Companion Animals, Faculty of Veterinary Medicine, Utrecht University The Netherlands [email protected] [email protected] Anatomical and physiological considerations The bird’s anatomy and physiology shows many unique adaptations, mostly related to the ability to fly. Flighted birds have a light-weighted skeletal system, which consists of a rigid and partially fused vertebral column and appendicular skeleton with pneumatized bones, and powerful, well-developed breast musculature. In addition, they possess highly adapted respiratory and circulatory systems to meet the birds high metabolic rate and oxygen demand during flight. Another unique feature of birds is the presence of feathers, which not only enable flight, but also play an important role in the protection against elements and/or predators and communication with conspecifics. Many species cannot be recognized based on external features (i.e., monomorphic species), thereby necessitating the use of additional diagnostic tests to determine the gender. Psittaciformes (parrots and parakeets) are particularly well known for their speech and ability to mimic sounds, which are produced in the syrinx, another specific feature of birds. They furthermore are characterized by the hooked bill, which is extremely motile and, together with the well-developed tongue, plays an important role in food intake. After the food is swallowed, it is temporarily stored in the crop and periodically passed down to the proventriculus and ventriculus. Both passeriformes and psittaciformes have rudimentary caeca and generally lack a gallbladder. The digestive tract opens into the cloaca together with the urinary and reproductive tract, of which only the left side is developed in females. Abstracts | European Veterinary Conference Voorjaarsdagen 2014 Nutrition, housing and care in captivity Most birds are kept individually in cages, but may also be kept in pairs or group-housed in an aviary. The size of the cage should be sufficient to allow the bird to spread its wings fully. Number, shape and size of the available perches should be adapted to the number of birds and species and placed in such a location that food and water are easily accessible but not contaminated with faecal droppings. For parrots, enrichment that stimulates natural foraging behaviour is considered important. Other enrichment materials that may be provided include toys, ropes, branches and destructible materials. UV-B lighting may be considered, especially in Grey parrots, to prevent hypocalcaemia. The natural diet of most parrots and Passeriformes consists of seeds, nuts, fruits, berries and other vegetation. Many species, however, also consume insects and/or larvae as part of their diet, whereas other species, such as lories, predominantly feed on pollen and nectar. Dietary deficiencies and concurrent disease are common. To prevent these, it is recommended to feed parrots a pelleted diet, supplemented with fruits, vegetables, nuts and seeds. Passerines are commonly fed a mixture of seeds and egg-food, supplemented with vegetables and grit or sepia to provide them with extra calcium (especially during the breeding season). When purchasing a new bird, it is recommended to keep it quarantined for at least 4 weeks prior to introducing it to other birds. During this quarantine period diagnostic tests for specific pathogens (e.g., Psittacine Beak and Feather Disease virus [PBFDV], polyomavirus, chlamydia, helminths, flagellates and coccidia) should be performed. When allowing a parrot or parakeet to roam free in the house, wing trimming may be considered to prevent the bird from injuring itself (e.g., flying into a window). Other grooming procedures include trimming of the nails and/or beak. Misting and/or provision of bathing opportunities are also considered important to help maintain the plumage in optimal condition. Handling and restraint Prior to handling any bird, doors and windows need to be shut. Dimming the lights can facilitate the capture of small, anxious birds. The handling time should be kept to a minimum as this may compromise the animal’s health, particularly in sick and easily stressed birds. It is therefore important to have all the necessary materials ready. www.voorjaarsdagen.eu 1 Companion Animal SEARCH Print BACK HOME Avian medicine Physical examination and diagnostic techniques Similar to dogs and cats, the physical examination starts with a thorough history (including information regarding the complaint, husbandry, diet, living conditions, general condition and behaviour of the bird), followed by an observation of the bird from a distance (including an evaluation of the enclosure and the bird’s droppings) and thorough physical examination (from head to toe) while the bird is manually restrained. In dyspnoeic or weak birds, the physical examination is kept to a minimum and primarily includes inspection of the beak and nares, determination of the body condition, palpation of the abdomen, and auscultation of the heart and lungs. To evaluate the birds’ condition, palpation of the breast musculature is combined with checking the amount of food in the crop. All birds should be weighed routinely. Following the physical exam, faeces, blood and/or swabs may be collected for further diagnostic testing. Blood may be collected from the right jugular or ulnar vein using a 26G needle and syringe. In general, a volume equalling 1% of the body weight or less may be collected safely. Other diagnostic testing includes faecal examination (cytology, wet mount, flotation), culture and sensitivity testing for bacteria and/or fungal organisms, diagnostic imaging (radiographs, ultrasound, CT imaging or MRI), endoscopy and collection of fine needle aspirates or biopsies for further cytological, bacteriological, viral and/or histopathologic testing. The use of sedative agents and/ or anaesthetic gases (isoflurane, sevoflurane) reduces additional stress and greatly facilitates the performance of these procedures. For short procedures, mask induction is generally considered sufficient, but in larger-sized birds and longer procedures, intubation and continued monitoring of the bird (e.g., using capnography and/or electrocardiography) is recommended. Medication techniques In sick birds, the parenteral route is often used to administer drugs. Intramuscular injections are generally administered in the pectoral muscles. Through the subcutaneous route large amounts of fluids (20-50 ml/kg q8-12h) may be administered in the precrural fold and/or between the shoulder blades. In severely debilitated birds, the intravenous and/or intraosseus route may also be used. Liquid formulations or (hand-made) suspensions are preferred when administering drugs orally. The drugs can be given directly per os and/or administered into the crop Abstracts | European Veterinary Conference Voorjaarsdagen 2014 (together with food) using rubber or metal feeding tubes. Medication of drink water and/or feed is only recommended in case larger flocks need to be treated. Debilitated birds often need to be gavage-fed. For this purpose, parrot hand-feeding formulas or formulas specifically designed for debilitated birds (e.g., Emeraid, Lafeber Company, USA) are often used. Volumes equalling 2.5-4% of the bodyweight may be given at once, and provided 2-4 times a day. For topical treatment, ointments or creams should be avoided if possible, as these may compromise the quality of the plumage. Common disorders A variety of different viral, bacterial, fungal, parasitic, toxicologic, metabolic, nutritional and traumatic conditions may affect psittacines and passerines kept in captivity. The diseases to be considered in the differential diagnoses not only differ per species, but often also depend on the way the bird is kept (i.e., housed indoors as an individual bird versus outdoors in an aviary). The most common disorders affecting Psittaciformes and Passeriformes are summed up in table 1 and 2. Disease Aetiology Presenting signs Diagnostic work-up Aspergillosis Aspergillus spp. (often secondary due to immuno-suppression (e.g., hypo-vitaminosis A) Mainly respiratory signs, including acute dyspnoea with stridor, altered voice and open beak breathing (tracheal obstruction) or more chronic forms Definite diagnosis requires cytology, or isolation of the fungus from samples obtained from the respiratory tract Avocado toxicity Persin present in avocado (already lethal after ingestion of small amounts) Dyspnea, acute death (cardiac failure) History and post-mortem exam revealing severe lung edema, ascites and cardiac necrosis www.voorjaarsdagen.eu 1 Companion Animal SEARCH Print BACK HOME Avian medicine Budgerigar fledging disease or “French moult” Budgerigars of 10-14 days of age: diarrhoea, abdominal distension, lethargy and acute mortality; in older birds, characteristic feather abnormalities (lack of primary feathers) can be found. Adult birds are often subclinical carriers PCR (cloacal swab); postmortem examination Various causes including gastrointestinal infections (e.g. Giardia, E.coli, helminth infection), neoplasia (e.g. papillomatosis), egg binding, behavioural/ hormonal causes, neurologic deficits Mucosa protruding from the vent, often associated with dyschezia and/or tenesmus; sometimes hematochezia and/ or diarrhoea present; particularly common in cockatoos Clinical signs; thorough history and diagnostic work-up to identify the underlying cause Egg binding Various causes, including hypocalcaemia, uterine torsion, salphingitis, malformed or too big eggs, obesity, generalized illness, geriatric bird Lethargy, anorexia, tenesmus, diarrhoea or decreased production of faeces, abdominal distension, Abdominal palpation, radiographs or ultrasound (especially in cases of suspected eggrelated peritonitis) Feather damaging behaviour Often multifactorial. Causes include medical issues behavioural/ psychogenic problems and environmentallyrelated causes Plucking, biting and/or fraying of the feathers on areas of the body that are accessible to the birds beak; Grey parrots and cockatoos predisposed Thorough history and physical exam, additional diagnostic work-up to rule out medical causes; behavioural assessment Giardiasis Giardia lamblia Diarrhoea, weight loss sometimes feather damaging behaviour; mainly in cockatiels Wet mount (fresh faeces), flotation (zinc sulphate) Goiter Iodine deficiency Regurgitation, crop stasis, dyspnoea with stridor; budgerigars predisposed. Tentative diagnosis based on history and clinical signs; response to suppletion therapy Cloacal prolapse Polyomavirus or circovirus Abstracts | European Veterinary Conference Voorjaarsdagen 2014 Gout Visceral and/or arthritic form; often resulting from chronic kidney failure Swelling of the joints, whitish discolouration; in visceral form often bird found dead Arthrocentesis, cytology (needle-shaped crystals), plasma uric acid concentration Heavy metal poisoning Íngestion of lead or zinc; Sources of lead include curtain weights, glass-inlead, lead-based paint, fishing lead, toys, etc; Zinc mainly derived from galvanized wired cages (new wire disease) Gastrointestinal signs (crop stasis, regurgitation, diarrhoea or undigested seeds in the faeces), neurologic signs (ataxia, paresis/ paralysis, seizures, falling from the perch, weakness), haematuria, anaemia History combined with clinical signs; radiographs revealing metal particle in the GI tract, lead (whole blood) or zinc (plasma) levels Helminthiasis Ascaridia spp., occasionally Capillaria spp. Diarrhoea, weight loss; mainly noted in psittacines that are kept in an aviary Wet mount, faecal flotation Hypocalcaemia Birds fed all-seed diet low in calcium and/or with Ca/P imbalance; lack of sunlight (UV-B) and/or kidney failure Seizures, tremors, weakness, falling from the perch; mainly in Grey parrots Clinical signs are suggestive; Confirmation: plasma calcium is required; Additional parameters: phosphorus, uric acid, total protein and albumen (via protein electrophoresis) Hypovitaminosis A Birds fed an all-seed diet Clinical signs include formation of rhinoliths, metaplasia of the mucous membranes and salivary gland, secondary infections (particularly aspergillosis), respiratory signs, blepharitis/ keratitis, egg binding, poor feather quality and/or feather discolourations Based on history and clinical signs www.voorjaarsdagen.eu 1 Companion Animal SEARCH Print BACK HOME Avian medicine Macrorhabdosis Macrorhabdus ornithogaster Regurgitation, diarrhoea, undigested seeds in the faeces, weight loss; mainly in budgerigars, cockatiels and lovebirds and passeriformes Cytology of faecal samples, post mortem examination Papillomatosis Psittacine herpesvirus suggested Oral cavity: dysphagia, dyspnoea, Cloaca: tenesmus, hematochezia, prolapse; mainly affects Amazon parrots and macaws Clinical signs and histopathology of biopsies of the affected tissue; vinegar may result in whitish discolouration of affected tissues Torticollis, ataxia, seizures; mainly affects Neophema spp. Surviving birds may develop steatorrhea and weight loss Virus isolation or serologic testing, post mortem exam Acute mortality (<48h after onset of clinical signs), anorexia, lethargy, weight loss, vomiting, crop stasis, diarrhoea, abdominal distension, subcutaneous haemorrhage; mainly in nestlings of larger psittacines (<4 months) PCR (cloacal swab), postmortem examination Regurgitation, crop stasis, undigested seeds in the faeces, weight loss; neurologic signs (ataxia, blindness) Tentative diagnosis based on clinical signs and finding of a dilated proventriculus on radiographs; serologic testing and/or PCR for ABV (cloacal swab) may aid in the diagnostic work-up. Confirmation by histopathologic examination of crop biopsies Paramyxovirus type 3 infection (Draainekziekte) Polyomavirus infection Proventricular dilatation disease (PDD) Paramyxovirus-3 (PMV-3) Avian polyomavirus Presumably caused by an Avian Bornavirus (ABV) Abstracts | European Veterinary Conference Voorjaarsdagen 2014 Psittacine beak and feather disease Circovirus Mainly affecting young birds; acute form in Grey parrots resulting in rapid death; in other parrots chronic form with progressive feather loss and development of abnormal feathers PCR (whole blood); histopathology of feather follicle biopsy; post mortem examination with histopathology identifying liver necrosis and bursal atrophy. In young Grey parrots severe leukopenia is suggestive Psittacosis Chlamydia psittaci Note: zoonosis! Lethargy, anorexia, weight loss, diarrhoea, conjunctivitis, rhinitis/ sinusitis, dyspnoea, neurologic signs; billiverdinuria PCR conjunctiva/ choana/cloacal swab, Quick Vue, Stamp, IFT; serologic testing Scaly face and leg Knemidokoptes spp. Skin hyperplasia and crustations of the skin around the beak and eyes; mainly in budgerigars Skin scraping Teflon intoxication Polytetrafluoroethylene (PTFE) fumes from overheating pans; Other volatile gases (e.g., carbon monoxide, cleaning and disinfectant agents) may give similar effects Acute onset of dyspnoea Polytetrafluoroethylene (PTFE) fumes from overheating pans; Other volatile gases (e.g., carbon monoxide, cleaning and disinfectant agents) may give similar effects History; post-mortem reveals hemorrhagic pneumonia Table 1. Common diseases in psittacine birds including their aetiology, presenting signs, diagnostic work-up and therapy. www.voorjaarsdagen.eu 1 Companion Animal SEARCH Print BACK HOME Avian medicine Disease Aetiology Presenting signs Diagnostic work-up Atoxoplasmosis Isospora serini Lethargy, anorexia, diarrhoea, hepatomegaly, neurologic signs, mortality (up to 80%); mainly affecting canaries <1 year Post mortem examination, cytology/ histopathology with coccidial organisms found in the macrophages and other mononuclear cells Campylobacteriosis Campylobacter jejuni Yellowish diarrhoea, weight loss; mainly in nestling tropical finches < 6 weeks of age Faecal examination, difficult to culture but characteristic morphology upon cytological examination of faecal sample Canarypox Poxvirus, transmitted via biting insects Cutaneous, diphteric and septicaemic form, mainly causing mortality in canaries Clinical signs, histopathology with characteristic Bollinger bodies Candidiasis Candida albicans, often in immunocompromised birds Anorexia, regurgitation, crop stasis, diarrhoea Budding yeast in cytology of faecal sample or crop swab Coccidiosis Eimeria or Isospora spp. Diarrhoea, weight loss, death Wet mount of faecal flotation Cochlosomosis Cochlosoma spp Diarrhoea, undigested seeds in the faeces, weight loss, death; predominantly in nestling finches 10 days – 6 weeks old (Gouldian finches, fostered by Bengalese finches) Wet mount of fresh, body-warm faeces Feather and quill mites: restlessness, itch, poor feather quality; Blood sucking mites: restlessness, anaemia, death, predominantly in nestling birds Feather and quill mites: microscopic examination of feathers; Blood sucking mites: visual inspection of the enclosure (crevices and cracks; red blood mite) or birds (Northern fowl mite) ; Ectoparasites Feather and quill mites (Mallophaga, Syringophyllus), Dermanyssus gallineae (blood sucking mite), Ornithonyssus sylviarum (Northern fowl mite) Abstracts | European Veterinary Conference Voorjaarsdagen 2014 Feather follicle cyst Genetic predisposition, mainly in soft-feathered canaries (Gloucester, Norwich) Large, yellow mass filled with keratinaceous material; particularly common on the wing tip Diagnosis based on clinical signs Helminthiasis Ascaridia spp., Capillaria spp. most common (Syngamus spp. in mynahs and crows) Diarrhoea, weight loss (Dyspnoea in case of Syngamus infection) Faecal examination (wet mount, flotation), post mortem exam Iron storage disease (hemochromatosis) Diets high in iron and/or rich in vitamin C; mainly in frugivorous species (e.g. mynahs, hornbills, toucans) Lethargy, weight loss, abdominal distension, hepatomegaly, ascites, dyspnoea History and clinical signs; definite diagnosis requires liver biopsy Mycoplasmosis Mycoplasma gallisepticum Uni- or bilateral conjunctivitis, serous to mucous eye and nasal discharge, predominantly in finches Clinical signs, PCR, difficult to culture Pseudotuberculosis Yersinia Pseudotuberculosis, mainly in winter period (transmitted via rodents and wild birds) Acute form with high mortality, chronic form with lethargy, decreased food intake, diarrhoea and wasting, hepatoand splenomegaly Post mortem, culture and sensitivity Salmonellosis Salmonella spp. Clinical presentation similar to pseudotuberculosis Post mortem, culture and sensitivity Sweating disease E. coli, Enterococcus spp. Diarrhoea, weight loss, death, mainly in young nestlings Faecal exam, culture and sensitivity Tracheal mites Sternostoma tracheocolum Dyspnoea, clicking sounds Transillumination of the trachea, endoscopy Table 2. Common diseases in passeriformes including their aetiology, presentings, diagnostic work-up and therapy. www.voorjaarsdagen.eu