Complications of hyperadrenocorticism (Proceedings)


Complications of hyperadrenocorticism (Proceedings)

Aug 01, 2010

Naturally occurring hyperadrenocorticism (HAC) is an endocrine disorder resulting from the excess production of cortisol or other adrenal hormones by the adrenal cortex. The clinical syndrome was first documented in people by Dr. Harvey Cushing in 1932 and is also known as Cushing's syndrome. Hyperadrenocorticism in dogs is one of the most common endocrinopathies in small animal practice, and it is also one of the most complicated to diagnose, treat and monitor clinically. Complications can arise from the effects of the disease on many systems, or from therapy. Some of the major complications include hypertension, bacterial infections, urinary calculi, congestive heart failure, pancreatitis, biliary disease, diabetes mellitus, thromboembolic disease, and nervous system signs. This discussion will focus on hypercoagulability, biliary changes, hypertension, and neurologic signs.


Hypercoagulability and Thromboembolism

Thromboembolic complications including pulmonary thromboembolism (PTE), resulting from hypercoagulability in dogs with HAC increase mortality rate, and are therefore one of the most serious complications of the disease. Studies in people and in dogs have documented many changes to the hemostatic system, mainly changes that contribute to hypercoagulability. In one study in dogs levels of procoagulant factors II, V, VII, IX, X, XII and fibrinogen were significantly increased in dogs with HAC. In addition, antithrombin was decreased and thrombin-antithrombin complexes were increased. Abnormalities in Von Willebrand's Factor and platelet activity have been noted in other studies. Recently investigators have used thromboelastography to document a global tendency to hypercoagulability, but failed to detect a statistically significant difference compared to control dogs.

Signs associated with thromboembolism can relate to any organ system. The most common signs are associated with the respiratory and nervous systems. Pulmonary thromboembolism is considered to be the most common site. Definitive diagnosis can be difficult, but presumptive diagnosis can be made through clinical signs, testing and response to therapy. Routine testing (CBC, chemistry, urinalysis) is non specific but abnormalities that have been noted include anemia, elevated white cells, ALP, ALT, BUN, and creatinine. Decreases in sodium, potassium and albumin have also been noted. Thoracic radiographs may reveal pleural effusion, loss of detail, alveolar infiltrates, cardiomegaly and enlargement of the main pulmonary artery associated with PTE. Thoracic radiographs may also be essentially normal. Echocardiography can also be used to gain evidence for thromboembolism, but results in dogs are variable. Arterial blood gas results are consistent with hypoxemia, mainly attributed to a ventilation-perfusion mismatch. Tests that have been used to confirm thromboembolic disease in dogs include pulmonary angiography, ventilation-perfusion scans, and MRI. Tests used to attempt to confirm a thrombotic tendency include measurement of the procoagulant and anticoagulant factors, measurement of d- dimers, thrombin-antithrombin complexes, and thromboelastography.

The highest risk for thromboembolism is around the time of surgery, for those dogs where surgery is indicated. The goals of therapy are to reverse the prothrombotic state and to alleviate the hemodynamic and pulmonary consequences that are life-threatening. There is little scientific evidence regarding anticoagulant therapy in regards to efficacy in preventing thrombosis, and duration that therapy is necessary for a particular patient considered at risk for thrombosis. Options include antiplatelet therapy (example ultra low dose aspirin) and anticoagulant therapy (example low molecular weight heparin). For thromboembolic disease that has already occurred there is also the potential for use of fibrinolytic agents.

Biliary Changes

In recent years the problem of biliary mucoceles in dogs has been described and analyzed, and has become the most prevalent gall bladder disease in dogs. It is associated with breed predispositions (e.g. Shetland Sheepdogs), hyerlipidemia/hypercholesterolemia due to a variety of underlying diseases and feeding a high fat diet.Dogs with hyperadrenocorticism appear to be more prone to developing gall bladder mucoceles as a complication of the metabolic alterations that occur with HAC. In one study 23% of dogs with hyperadrenocorticism (PDH) were noted to have biliary mucoceles.