Hypoadrenocorticism in dogs
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|Hypoadrenocorticism in dogs|
|Synonyms||adrenal insufficiency, hypocortisolism|
Hypoadrenocorticism in dogs, or, as it is known in people, Addison's disease, is an endocrine system disorder that occurs when the adrenal glands fail to produce enough hormones for normal function. The adrenal glands secrete glucocorticoids such as cortisol  and mineralocorticoids such as aldosterone; when proper amounts of these are not produced, the metabolic and electrolyte balance is upset. Mineralocorticoids control the amount of potassium, salt and water in the body. Hypoadrenocorticism is fatal if left untreated.
All causes for hypoadrenocorticism are not yet known. The usual causes are genetic, often related to autoimmune disorders, where the body attacks and kill its own tissue ("immune mediated destruction"). Other cases are caused by various disease processes, including failure of the pituitary gland to secrete ACTH, the hormone which stimulates the adrenal production of cortisol.
Hypoadrenocorticism is more frequent in dogs than in humans; in fact, it may occur one hundred times more often in the canine population. It mostly affects young to middle-aged female dogs, as the average age at diagnosis being four years old (although it has been found in puppies and dogs up to twelve years old). About seventy percent of dogs that are diagnosed with hypoadrenocorticism are female. Hypoadrenocorticism is still relatively uncommon or underdiagnosed in dogs. Statistics gathered from a large veterinary hospital placed the number at 0.36 dogs per 1000. For an average veterinary practice with two veterinarians and 1500 canine patients, this would mean an average of one diagnosis of the disease each year.
Signs and symptoms
The most common clinical manifestations are related to mental status and gastrointestinal function; they include lethargy, anorexia, vomiting, weight loss, and weakness. Additional findings may include dehydration, bradycardia, weak femoral pulses, and abdominal pain. Polyuria and polydipsia, diarrhea, and shivering are occasionally reported.
Symptoms of hypoadrenocorticism can include vomiting, diarrhea, lethargy, lack of appetite, tremors or shaking, muscle weakness, low body temperature, collapse, low heart rate, and pain in the hind quarters. Hypoglycemia can also be present, and initially may be confused with seizure disorders, insulin-secreting pancreatic tumor (insulinoma), food poisoning, parvovirus enteritis, gastric volvulus, spinal or joint problems, earning hypoadrenocorticism the nicknames of "the Great Mimic" and "the Great Imitator". It is possible not to see any signs of the disease until 90% of the adrenal cortex is no longer functioning.
If hyponatremia (low sodium) and hyperkalemia (high potassium) are severe, the resulting hypovolemia, prerenal azotemia, and cardiac arrhythmias may result in an Addisonian crisis. In severe cases, the patient may be presented in shock and moribund. Addisonian crisis must be differentiated from other life-threatening disorders such as diabetic ketoacidosis, necrotizing pancreatitis, and septic peritonitis.
|Layer||Type of steroid produced||Example|
|Zona reticularis||Sex steroids (androgens)|
Primary adrenocortical insufficiency is the more common form of hypoadrenocorticism. All layers of the adrenal gland stop functioning; the problem is with the adrenal gland. This causes a deficiency of both mineralocorticoid and glucocorticoid secretion. Most cases are classified as idiopathic, although immune-mediated adrenocortical destruction is a likely cause. Bilateral destruction of the adrenal cortex by neoplasia (e.g. lymphosarcoma), granulomatous disease, or arterial thrombosis can also cause primary adrenocortical insufficiency. The destruction is progressive, although variable in rate, ultimately leading to complete loss of adrenocorotical function. A partial deficiency syndrome may occur initially, with signs manifested only during times of stress (e.g., boarding, travel, surgery).
In secondary hypoadrenocorticism (also known as atypical hypoadrenocorticism) the problem is not in the adrenal gland but in the pituitary gland. Usually, the anterior portion of the pituitary gland produces a hormone, adrenocorticotropic hormone (ACTH), that signals the zona fasciculata and zona reticularis to produce their steroids. When the pituitary is unable to produce ACTH, these zones stop production of their hormones. The zona glomerulosa is not controlled by ACTH, and remains able to produce a normal amount of mineralocorticoids. A dog with secondary hypoadrenocorticism is not at risk of an Addisonian crisis, and only needs to have medication to replace the glucocorticoid steroid cortisol. One dog in every 42 diagnosed with hypoadrenocorticism has the secondary form of the disease where mineralocorticoid production remains intact.
Secondary adrenocortical insufficiency involves only a deficiency of glucocorticoid secretion. Destructive lesions (e.g. neoplasia, inflammation) in the pituitary gland or hypothalamus and chronic administration of exogenous glucocorticoids or megestrol acetate (cats) are the most common causes.
In some dogs with secondary hypoadrenocorticism, the disease progresses to primary hypoadrenocorticism, and mineralocorticoid replacement becomes necessary, while others retain their ability to continue production of mineralocorticoids for years, requiring glucocorticoid replacement only.
Drug induced (iatrogenic) hypoadrenocorticism is caused during abrupt cessation of a steroid medication. During steroid treatment, the adrenal glands do not function fully. The body senses the levels of the exogenous steroids in the system and therefore does not signal for additional production. The usual protocol for stopping steroid medications is not to eliminate them suddenly, but to withdraw from them gradually in a "tapering off" process, which allows the production to adjust to normal. If steroids are abruptly withdrawn, the dormant adrenal glands may not able to reactivate, and the body will need to have its adrenal glucocorticoid hormones replaced by medication.
Hypoadrenocorticism is often tentatively diagnosed on the basis of history, physical findings, clinical pathology, and, for primary adrenal insufficiency, characteristic electrolyte abnormalities.
- Clinical pathology - Abnormalities may be identified on hematology, biochemistry and urinalysis. Elevated concentrations of potassium (hyperkalemia), and low sodium and chloride values (hyponatremia and hypochloremia) are the classic electrolyte alterations. The sodium/potassium ratio often is <27 (normal is between 27:1 and 40:1) and maybe <20 in animals with primary adrenal insufficiency. However, not all dogs have an abnormal electrolyte ratio during an Addisonian episode.
- ECG - The severity of the ECG abnormalities correlates with the severity of the hyperkalemia. Therefore, the ECG can be used to identify and estimate the severity of hyperkalemia and to monitor changes in serum potassium during therapy.
- Diagnostic imaging - Abdominal ultrasound may reveal small adrenal glands, suggesting adrenocortical atrophy. However, finding normal-sized adrenal glands does not rule out hypoadrenocorticism. Rarely, megaesophagus is evident on radiographs.
- ACTH stimulation test - Confirmation requires evaluation of an ACTH stimulation test. Basline plasma cortisol and urine cortisol/Cr ratios are unreliable for confirming the diagnosis. One major diagnostic criterion is abnormally decreased post-ACTH plasma cortisol. Normal plasma cortisol after ACTH stimulation rules out adrenal insufficiency. The only accurate test for hypoadrenocorticism is an ACTH stimulation test.
The ACTH stimulation test does not distinguish between primary and secondary hypoadrenocorticism, or adrenocortical destruction caused by mitotane overdose. Differentiation between primary and secondary hypoadrenocorticism can be made by periodically measuring serum electrolytes, baseline endogenous ACTH, or possibly serum or plasma aldosterone during the ACTH stimulation test. While most corticosteroid drugs will invalidate the results of an ACTH test, dexamethasone may be used in the event of an Addison's emergency without fear of compromising the results of the test.
In general, hypoadrenocorticism is underdiagnosed in dogs, and one must have a clinical suspicion of it as an underlying disorder for many presenting complaints. Females are overrepresented, and the disease often appears in middle age (four to seven years), although any age or gender may be affected. Dogs with hypoadrenocorticism may also have one of several autoimmune disorders. Because it is an endocrine disorder, they may also suffer from neuropathy and some endocrine-related eye diseases.
If deterioration of the adrenal glands progresses far enough, a dog may experience an Addisonian crisis, an acute episode during which potassium levels increase (hyperkalemia), disrupting normal functions of the heart. Arrhythmia can result and blood pressure may drop to dangerously low levels, while the dog's kidneys may cease to function properly. Some 35% of canine Addison's cases are diagnosed as the result of an Addisonian crisis. It is a medical emergency.
Breeds that began in the Pacific Rim, among them Akitas and Shiba Inus, tend to have higher potassium values in laboratory test, and elevated levels are not abnormal. Dogs who do not have hypoadrenocorticism have normal values on ACTH tests.
Aggressiveness of therapy depends on the clinical status of the patient and the nature of the insufficiency (glucocorticoid, mineralocorticoid, or both). Many dogs and cats with primary adrenal insufficiency are presented in Addisonian crisis and require immediate, aggressive therapy. In contrast, secondary insufficiency often has a chronic course.
Hypoadrenocorticism is treated with fludrocortisone (trade name Florinef) or a monthly injection of desoxycorticosterone pivalate, DOCP (Percorten-V or Zycortal)  and daily prednisolone. Routine blood work is necessary in the initial stages until a maintenance dose is established. Most of the medications used in the therapy of hypoadrenocorticism cause excessive thirst and urination. It is absolutely vital to provide fresh drinking water for a canine suffering from this disorder.
If the owner knows about an upcoming stressful situation (shows, traveling etc.), the animals generally need an increased dose of prednisone to help deal with the added stress. Avoidance of stress is important for dogs with hypoadrenocorticism. Physical illness also stresses the body and may mean that the medication(s) need to be adjusted during this time. Most dogs with hypoadrenocorticism have an excellent prognosis after proper stabilization and treatment.
Treatment is directed towards (1) correcting hypotension, hypovolemia, electrolyte imbalances, and metabolic acidosis; (2) improving vascular integrity, and (3) providing an immediate source of glucocorticoids. Rapid correction of hypovolemia is the first priority.
Most patients show dramatic improvement within 24 to 48 hours of appropriate fluid and glucocorticoid therapy. Over the ensuing 2 to 4 days, a gradual transition from IV fluids to oral water and food is undertaken, and maintenance mineralocorticoid and glucocorticoid therapy is initiated. Failure to make this transition smoothly should raise suspicion of insufficient glucocorticoid supplementation, concurrent endocrinopathy (e.g. hypothyroidism), or concurrent illness (especially renal damage).
Hypoadrenocorticism is typically a disease of young to middle-aged female dogs, although Standard Poodles and Bearded Collies of both sexes are prone to the condition.
Hypoadrenocorticism is an inherited disease in the following breeds (and therefore a higher proportion of dogs within these breeds are affected, compared to other breeds):
Some breeds are at increased risk of hypoadrenocorticism:
- Airedale Terrier
- Basset Hound
- Bearded Collie
- Great Dane
- Springer Spaniels: English Springer Spaniel and Welsh Springer Spaniel
- Saint Bernard
- Soft-Coated Wheaten Terrier
- West Highland white terrier
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