Management of hypoadrenocorticism (Addison’s disease) in dogs

To evaluate clinical and laboratory findings in 225 dogs with naturally occurring hypoadrenocorticism diagnosed over a 14-year period. Retrospective case series. 220 dogs with primary hypoadrenocorticism and 5 dogs with secondary hypoadrenocorticism (primary ACTH deficiency). We reviewed medical records of all dogs with naturally occurring hypoadrenocorticism examined at The Animal Medical Center between 1979 and 1993 or at Tufts University, Foster Hospital for Small Animals, between 1987 and 1993. Dogs ranged from 4 months to 14 years old. Most (71%) were female, and female dogs had a significantly higher relative risk of developing hypoadrenocorticism than did males. Great Danes, Portuguese Water Dogs, Rottweilers, Standard Poodles, West Highland White Terriers, and Wheaton Terriers had a significantly higher relative risk of developing hypoadrenocorticism than did dogs of other breeds. Common owner complaints included lethargy, poor appetite, and vomiting, whereas lethargy, weakness, and dehydration were common abnormalities detected on physical examination. Serum biochemical testing at the time of diagnosis revealed moderate-to-severe azotemia and hyperphosphatemia in most dogs. In 99 of 172 (57.6%) dogs that had a pretreatment urinalysis performed, urine specific gravity was < 1.030 even though dogs were azotemic. Serum electrolyte changes included hyperkalemia (n = 215), hyponatremia (183), hypochloremia (94), and hypercalcemia (69). Five of the 220 dogs with primary hypoadrenocorticism and the 5 dogs with secondary hypoadrenocorticism did not have hyperkalemia at time of diagnosis. In all dogs, ACTH stimulation testing revealed a low to low-normal baseline serum cortisol concentration with little to no rise after ACTH administration. Endogenous plasma ACTH concentration measured in 35 dogs with primary hypoadrenocorticism was markedly high; whereas ACTH concentration was undetectable to low in the 5 dogs with secondary hypoadrenocorticism. hypoadrenocorticism is a rare disease in dogs, most commonly affecting young to middle-aged females; some breeds are at greater risk of developing the disease than others. In general, clinical signs are nonspecific and similar to manifestations of more common diseases. Serum electrolyte disturbances of hyperkalemia and hypernatremia are characteristic in dogs with primary hypoadrenocorticism, but concentrations may be normal in dogs with early or mild primary or secondary hypoadrenocorticism. Diagnosis of hypoadrenocorticism is best confirmed by demonstration of a low baseline serum cortisol concentration with a subnormal or negligible response to ACTH administration. Determination of endogenous plasma ACTH concentrations is valuable in differentiating primary from secondary hypoadrenocorticism, particularly in dogs with normal serum electrolyte concentrations.

Hypoadrenocorticism was diagnosed in 42 dogs over a two-and-a-half-year period. The disease occurred more commonly in young to middle-aged dogs, with a female:male ratio of 2:1. Most dogs had chronic intermittent signs (eg, poor appetite, lethargy and vomiting), but more than a third were in acute adrenal crisis at the time of diagnosis. Serum biochemical testing revealed azotaemia, hyperphosphataemia, hyperkalaemia and hyponatraemia in almost all the dogs. In all dogs, results of adrenocorticotrophic hormone (ACTH) stimulation testing revealed a low to low-normal serum baseline cortisol concentration that failed to increase after ACTH administration. In two dogs with persistently normal serum electrolytes concentration, one had a markedly high plasma ACTH concentration diagnostic for primary hypoadrenocorticism, whereas the other had a low concentration confirming secondary hypoadrenocorticism. Fludrocortisone acetate was initially used for mineralocorticoid replacement in 33 of the 37 treated dogs with primary hypoadrenocorticism (final median dosage, 27.0 micrograms/kg/day), but supplementation was changed to desoxycorticosterone pivalate (DOCP) in four dogs because of poor response or adverse effects. Seven dogs with primary hypoadrenocorticism were treated with DOCP (final median dosage, 2.02 mg/kg/month). Prednisone, initially administered to 36 dogs, was discontinued in 11 dogs because of side effects. Of the dogs treated with fludrocortisone, the response was considered good to excellent in 26 dogs (78.8 per cent), fair in three, and poor in four. All dogs treated with DOCP responded well.

To compare dogs with glucocorticoid-deficient hypoadrenocorticism (GDH) with those with mineralocorticoid- and glucocorticoid-deficient hypoadrenocorticism (MGDH) and determine prevalence, historical and clinicopathologic markers, and outcome of dogs with GDH.