The Urinary and Osmoregulatory Systems of Birds.

The avian kidney contains both cortical or reptilian and medullary or mammalian nephrons. The kidney filters up to 11 times the total body water daily. Approximately 95% of this volume is reabsorbed by tubular reabsorption, which likely results from a change in the rate of filtration and/or the rate of reabsorption.

Avian Ganglioneuritis in Clinical Practice.

Avian ganglioneuritis (AG) comprises one of the most intricate pathologies in avian medicine and is researched worldwide. Avian bornavirus (ABV) has been shown to be a causative agent of proventricular dilatation disease in birds. The avian Bornaviridae represent a genetically diverse group of viruses that are widely distributed in captive and wild populations around the world.

Clinical avian nutrition.

Psittacine birds eat plant-based foods. Birds in the wild seem to be able to balance their energy needs, amino acids, and calcium. Companion birds in captivity do not do as well when self-selecting, and balanced diets are needed to improve their general health.

Ferret respiratory system: clinical anatomy, physiology, and disease.

The upper and lower respiratory tracts of ferrets have several similarities to humans, and therefore have been used as a research model for respiratory function. This article describes the clinical anatomy and physiology, and common respiratory diseases of the ferret.

Rabbit respiratory system: clinical anatomy, physiology and disease.

Rabbits are obligate nose breathers due to their epiglottis positioned rostrally to the soft palate. Any obstruction within the nasal cavity will produce a respiratory wheeze with increased respiratory effort. Respiratory diseases are a major cause of morbidity and mortality in rabbits.

Avian respiratory distress: etiology, diagnosis, and treatment.

Respiratory distress is usually a life-threatening emergency in any species and this is particularly important in avian species because of their unique anatomy and physiology. In the emergency room, observation of breathing patterns, respiratory sounds, and a brief physical examination are the most important tools for the diagnosis and treatment of respiratory distress in avian patients. These tools will help the clinician localize the lesion.

Avian neuroanatomy revisited: from clinical principles to avian cognition.

Several significant advances in understanding brain-behavior development have made a critical contribution to clinical assessment of companion birds. First, psychobiological health and its dysfunctions now are understood as the product of nature and nurture and therefore exquisitely sensitive to stressors effected by altered socio-ecological conditions within and across generations. Second, discoveries associated with avian brain evolution and ethology show that emotional and cognitive capacities of birds are comparable to mammals.

Antifungal drug therapy in avian species.

This article reviews current literature regarding antifungal drugs available for veterinary and human use and those that are in clinical trials. Drugs include the polyenes, amphotericin B and nystatin; flucytosine; and the first generation triazoles. Antifungal agents generally not used in avian medicine or which are being analyzed in clinical trials in people include lipid formulations of amphotericin B and nystatin, voriconazole, echinocandins, and the allylamines.

Avian reproductive anatomy, physiology and endocrinology.

Although many environmental cues influence reproductive activity, the seasonal breeder responds most strongly to long day length. THE MALE BIRD: Testicular interstitial cells secrete testosterone, which influences reproductive behavior such as territorial aggression and song. Other changes observed in seasonal breeders include testicular hypertrophy and enlargement of the ductus deferens and seminal glomus.

Clinical considerations of the thoracic limb.

The avian skeleton is significantly different from the mammalian skeleton, and these differences are important when providing fracture repair and postoperative care for the avian patient. Successful repair depends on an understanding of fracture management and healing and of the anatomical, physiologic, and behavioral concerns of avian patients. Having knowledge of fracture repair without an understanding of the unique needs of avian patients' results in a disappointing treatment response.