Lysodren: The Traditional Therapy
Lysodren (generically known as mitotane and chemically known as o,pâ-DDD) has been the only treatment for pituitary dependent Cushingâs disease until relatively recently. It is convenient to use and relatively inexpensive, though it does have the potential for very serious side effects. Because this medication has been in use for canine Cushingâs disease for decades, most veterinarians have extensive experience with its use and with the monitoring tests needed to prevent side effect difficulties. One of the disadvantages of lysodren therapy is the need for regular monitoring blood tests.
How This Medication Works
Lysodren should be considered to be a drug of chemotherapy. It actually erodes the layers of the adrenal gland that produce corticosteroid hormones. The pituitary tumor continues to secrete excess stimulation but the adrenal gland is no longer capable of excess hormone production in response. Problems result when too much of the adrenal cortex is eroded. Short-term lysodren reactions are common (something like 30% of dogs will have one at some point), necessitating the use of a prednisone antidote pill that the veterinarian supplies. In event of such short term reactions, lysodren is discontinued until the adrenal gland can re-grow and therapy is resumed, possibly at a lower dose. Sometimes excess adrenal erosion is permanent and the dog must be treated for cortisone deficiency. This is more serious and the potential for this kind of reaction has been the driving force behind the search for better medications for the treatment of pituitary dependent Cushingâs disease.
Induction
During induction, the pet owner receives a prescription for lysodren (usually obtained through a local human pharmacy) plus a bottle of prednisone tablets to be used as an antidote should any lysodren reactions erupt. Be sure you understand which pill is which. Lysodren is given twice a day with meals during this period so that the plump, excessively stimulated adrenal gland can be rapidly shaved down to the desired size. It is important that lysodren be given with food or it will not be absorbed into your dogâs body. A test called an ACTH stimulation test (the same test which may have been used to diagnose Cushingâs disease originally) is used to confirm that the induction endpoint has been reached.
An approach gaining popularity involves reducing the dog’s food intake by 30% the day before induction begins to ensure the dog is very hungry for induction. The food is restricted in this way throughout the induction period. The endpoint of induction is determined by a subtle reduction in the patient’s appetite (looking up half way through eating the bowl of food, not running to the bowl as quickly as usual, not finishing the meal etc.) Should any of these signs be observed, this would indicate that the endpoint of induction has been reached and it is time for the ACTH stimulation test. Induction proceeds until endpoint has been reached but if 8-9 days have passed and a clear endpoint has not been observed, the dog should have the ACTH stimulation test at that time anyway
You should call your veterinarian if any of the following signs of induction endpoint are observed:
- Diarrhea or vomiting
- Appetite loss (this may be as subtle as less enthusiasm towards eating when the food is served, not running for the bowl etc.)
- Decrease in water consumption (it may be helpful for you to measure water consumption during the induction period)
- Lethargy or listlessness
If any of these signs occur, let your veterinarian know. It may be time for an early ACTH stimulation test or possibly even for an antidote pill. It is a good idea to maintain daily telephone contact with your vet after the third day or so of induction as it is at this point that a dog becomes at risk for reaching an early induction endpoint.
If none of the above signs are noted, then the ACTH Stimulation test proceeds as scheduled on the 8th or 9th day of induction. If this test indicates that sufficient adrenal erosion has taken place, then the Lysodren dose is given once or twice a week instead of twice a day and the dog has successfully entered maintenance. If the test indicates that more adrenal erosion is needed, induction continues. Most dogs have reached maintenance by the 16 th day of induction but others require more time, especially if they are taking concurrent drugs that alter the metabolisim of lysodren. (Phenobarbital would be the obvious such medication.)
MaintenanceAfter achieving maintenance, another ACTH stimulation test is recommended afterabout a month and then twice a year or so thereafter. Approximately 50% of dogs will experience a relapse at some point and require a second round of induction.
- Full reversal of clinical signs associated with Cushingâs disease can be expected after 4 to 6 months of Lysodren therapy. Usually the first, sign to show improvement is the excess water consumption. The last sign to show change will be hair re-growth.
- If appetite loss, vomiting, diarrhea or listlessness occur at any time during maintenance, a lysodren reaction should be suspected. The veterinarian should be notified; it may be time for one of the prednisone antidote pills. A Lysodren reaction generally reverses within 30 minutes on an antidote pill.Â
What is Addison’s Disease/Addisonian Crisis?
Addisonâs disease, also called hypoadrenocorticism, is the opposite of Cushingâs disease; Addison’s disease results from a deficiency of cortisone. If lysodren erodes away too much of the adrenal gland, an Addisonian reaction occurs that can be temporary or permanent. The symptoms mentioned above (vomiting, diarrhea, listlessness, appetite loss) may be seen and if untreated, the patient can go into shock and die. If one suspects an Addisonian reaction is occuring, a dose of prednisone – which has hopefully been provided to keep on hand in case of emergency – should reverse the reaction within 30 minutes, and within a couple of hours at most. If no response to prednisone is seen, the dog has some other illness. If the dog is back to normal after the prednisone dose, then the veterinarian should be contacted for further instructions. The prednisone will likely have to be continued for a couple of weeks.
Addisonâs disease can be permanent after a lysodren reaction. If this occurs, hormone supplementation becomes needed indefinitely to prevent life-threatening shock as the body becomes unable to adapt to any sort of stress on its own. Medications to treat Addison’s disease can be expensive, especially for larger dogs, and it is generally felt that the induction of Addisonâs disease is undesirable.
It should be noted that there are some specialists who feel that the treatment of Addisonâs disease is much simpler than the treatment of Cushingâs disease. They use lysodren at high doses on purpose with the goal of inducing Addisonâs disease and administering long-term treatment accordingly. This is not a common method of treating Cushingâs disease in the U.S. and if “medical adrenalectomy” is performed, it is done in a controlled way.
Trilostane
Trilostane is an inhibitor of an enzyme called 3-beta-hydroxysteroid dehydrogenase. This enzyme is involved in the production of several steroids, including cortisol. Inhibiting this enzyme inhibits the production of cortisol. Several studies have determined this medication to be effective in the treatment of pituitary-dependent Cushing’s disease, probably as effective as Lysodren.
Trilostane is given once or twice a day with food. Common side effects are mild lethargy and appetite reduction especially when medication is started and the body adapts to its hormonal changes. Addisonian reactions have been reported in which the adrenal cortex dies off. Most reactions are minor and can be reversed with discontinuation of trilostane; however, permanent Addisonian reactions are possible, just as with Lysodren. While these permanent reactions are generally dose-dependent with Lysodren, they are idiosyncratic with trilostane, meaning that they can occur unpredictably and at any dose. For this reason, monitoring blood tests are just as important with trilostane as they are with Lysodren. In two studies, the risk of a permanent or life-threatening Addisonian reaction was 2-3% with trilostane and 2-5% with Lysodren.
For many years trilostane was not available in the U.S. and had to be obtained from another country (usually the U.K.) with permission from the FDA. As of 2009, trilostane (brand name Vetoryl®) has become licensed as a veterinary product in the U.S. and is readily available to most veterinarians through their regular distributors.
As with Lysodren, the dose is modified according the results of periodic ACTH stimulation tests (at 10-14 days, 30 days, 90 days, and then every 6 months). One might ask why one might consider trilostane given that its monitoring is similar to that of Lysodren while its dosing schedule is less convenient. Initially it was believed that because trilostane uses an enzyme inhibitor with reversible effects, trilostane would not have the potential to cause a life-threatening Addisonian reaction. This is no longer felt to be true but at least there is an alternative effective medication for pets that do not tolerate Lysodren or who have had difficulty achieving regulation with Lysodren.
Advantages of Trilostane over Lysodren
Trilostane does not erode the adrenal cortex. It acts as an enzyme inhibitor and the inhibition it causes is fully reversible. It is unclear why Addisonian reaction is still possible with this medication. In theory it should be safer.
Disadvantages of Trilostane Compared to Lysodren
Because initial references to trilostane suggested it was safer than Lysodren, it is possible for a pet owner to have a false sense of security and ignore important signs of drug reaction.
A precise dosing regimen for trilostane has not yet been worked out.
Lysodren costs substantially less since it is given less frequently.
Trilostane is given once or twice daily while Lysodren is given only once or twice a week.
There is currently little experience with trilostane in the U.S. veterinary community. Your veterinarian may require periodic consultation with other experts.
Trilostane may be a reliable alternative for dogs that do not tolerate Lysodren. If this is a treatment you are interested in, discuss trilostane with your veterinarian.
Ketoconazole: Another Approach
The potential for the induction of Addison’s disease as well as the need for periodic expensive monitoring tests have provided impetus for the development of a Lysodren alternative. Ketoconazole was actually developed for a totally different purpose.
Prior to the introduction of Ketoconazole in the 1980s, systemic fungal infections could only be treated with a medication called Amphotericin B. Amphotericin B could only be given by intravenous infusion and was associated with an unacceptably high rate of kidney failure. Ketoconazole was developed as an alternative to Amphotericin B. Ketoconazole can be given orally and is not associated with severe side effects either in the kidneys or other body systems. Hospitalization and monitoring expenses could be eliminated. This was an amazing breakthrough in the treatment of patients with fungal infections but soon a problem was noted: some of the male patients on this medication developed breast tissue and a more feminized physical appearance. Ketoconazole was interfering with the metabolism of sex steroid hormones. Soon newer generations of anti-fungal products were developed (such as itraconazole andf luconazole) and this problem was eliminated from males being treated for fungal disease.
But this steroid interference did not go unnoticed by the veterinary profession. Since most pets have been spayed or neutered, the sex steroids were generally not of concern but adrenal steroids most certainly were and are of definite relevance. Ketoconazole was investigated as an adrenal suppressor and by 1990, ketoconazole was becoming widely used in the treatment of Cushing’s disease in dogs. Typically, a low dose is used for a week and if no adverse symptoms result in that time, the higher maintaining dose is used.
Advantages of Ketoconazole over Lysodren Because of the nature of the adrenal interference produced by Ketoconazole, it is not possible to induce Addison’s disease. Because Addison’s disease is not of concern, monitoring tests are not necessary when Ketoconazole is used to treat Cushing’s disease. An ACTH stimulation test is often recommended after the first month or so of ketoconazole therapy simply to determine if the medication is working.
Ketoconazole lists vomiting and diarrhea as potential side effects as does Lysodren but with ketoconazole, no “antidote” pills are needed. Ketoconazole is simply discontinued until the side effects resolve. The dose is modified and re-started.
Advantages of Lysodren over Ketoconazole
- Ketoconazole is given twice a day indefinitely whereas Lysodren is given once or twice a week, a much more convenient scheduling.
- sive even when compared to the cost of all the monitoring tests associated with Lysodren.
- Because few people can afford to treat with Ketoconazole, most veterinarians do not have a lot of experience using this drug. Most veterinarians have extensive experience with Lysodren.
Approximately one dog in five will not respond to Ketoconazole. This is thought to be a problem with absorption of the drug from the intestinal tract.
So the search for a better Lysodren alternative continued. L-Deprenyl represents a completely different approach. Rather than trying to interfere with the adrenal gland’s over-production of steroid hormones, L-Deprenyl addresses the pituitary tumor directly.
Studies with L-Deprenyl began when it was found that this medication might be helpful in treating humans with Parkinson’s disease. Research in dogs, however, uncovered some surprising results involving ACTH release from the pituitary gland.
Previously in this web site, we reviewed the feed back loop involving the regulation of adrenal secretion by the pituitary gland. In fact, only part of the pituitary gland (the anterior pituitary) is involved in the feedback loop presented. There are two other parts to the pituitary gland: the intermediate part and the posterior part. The posterior part is involved in the regulation of unrelated hormones and does not concern us but the intermediate part is definitely able to secrete ACTH and is not subject to the same feedback loop as the anterior pituitary is.
So how might we influence ACTH secretion of the intermediate pituitary gland? Research using L-Deprenyl showed us that ACTH secretion in this area of the pituitary is governed by the neurotransmitter: dopamine. When dopamine levels are high, ACTH secretion shuts down.
Pituitary tumors are not very responsive to normal regulatory mechanisms in the body, but most pituitary tumors in dogs with Cushing’s disease are not located in the intermediate pituitary area. This means the intermediate area is still able to respond normally to dopamine regulation.
So how do we raise dopamine levels in the pituitary gland? L-Deprenyl inhibits the enzymes involved in degradation of dopamine. This means that the dopamine present lasts much longer. It also stimulates the production of other neurotransmitters that serve to stimulate dopamine production. It is also able to synergize with dopamine as dopamine binds to the intermediate pituitary gland. More dopamine, means less ACTH release overall, which means less steroid production by the adrenal glands.
SIDE EFFECTS HAVE AN ESPECIALLY LOW INCIDENCE WITH L-DEPRENYL USE
(APPROXIMATELY 5% EXPERIENCED MINOR NAUSEA, RESTLESSNESS, OR REDUCED HEARING CAPACITY)
Does it really work? The metabolic breakdown products of L-Deprenyl are amphetamine and methamphetamine (strong stimulants that also suppress hunger). When dogs with Cushing’s disease become more active and their excessive appetites become more normal, is it because their Cushing’s disease is controlled or because of the stimulant by-products of L-Deprenyl? No one knows and because of the way L-Deprenyl works in the pituitary, the usual monitoring tests to evaluate Cushing’s treatment progress are not helpful. In independent studies, about one dog in 5 was felt to improve on L-Deprenyl. In studies funded by the manufacturer, about one dog in five did not improve on L-Deprenyl.
Advantages of L-Deprenyl Over LysodrenBecause of the unique mechanism of this medication, Addison’s disease is not a concern and thus no monitoring tests are required with the use of L-Deprenyl. L-Deprenyl is the only medication approved by the FDA for the treatment of Cushing’s disease in the dog.For frail dogs with only light Cushing’s symptoms, L-Deprenyl may be an excellent choice.
Advantages of Lysodren Over L-DeprenylL-Deprenyl is substantially more expensive than Lysodren. Response to L-Deprenyl is not reliable or may be partial or may take some time. The usual protocol if no response has been seen after two months of therapy is to double the dose and continue for one more month before determining the patient to be a non-responder and selecting another medication. With Lysodren, response is rapid and documentable with testing.
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