COLLIES OF
BLUEHARVEST
BLUEHARVEST
Breeders of
Rough and Smooth
Collies for over 30 years
519.787.5216
Breeders of
Rough and Smooth
Collies for over 30 years
519.787.5216
Multi-drug Resistance in Rough Collies (MDR1)
“It is now widely accepted that some Collies appear to be hypersensitive to certain toxins (natural or drug-induced) and are more prone to stress-related problems.
The problem first came to light in 1983 when several Collies died from Ivermectin poisoning and, since then, the veterinary profession has accepted this drug should never be given to Collies. More recently a Rough Collie died from eating horse faeces (Ivermectin is used for worming horses and any excess drug passes out with their faeces).
Researchers have since found that approximately 60% of Rough and Smooth Collies appear to be susceptible not only to Ivermectin, but to a wide range of other drug substances. The MDR1 (multi-drug resistant) gene is responsible for ensuring the body’s natural P-glycoprotein functions normally by protecting the body from both environmental toxins and administered toxins eg drugs, and acting as a transport mechanism moving substances from cell to cell. P-glycoproteins are normally extensively distributed in the blood-brain and blood-testes barriers as well as major organs such as the liver, kidneys, intestines and placenta. When they are present in the intestinal tract three things normally happen – the substance may be metabolised; it may enter the circulatory system; or it may be passed out of the large intestine with the faeces.
In MDR1-affected dogs the function of the P-glycoprotein is compromised and so toxins may leak into the major organs. If these compounds leak across the blood-brain barrier, they enter the central nervous system causing toxic reactions such as excessive salivation, Ataxia, blindness, coma, respiratory problems and even death.
Because of a lack of the p-glycoprotein transporter in the body, an MDR1-affected dog also tends to have a deficiency of Cortisol (a steroid hormone produced by the Adrenal glands). Cortisol is responsible for stress management and the maintenance of an efficient immune system, and a deficiency can therefore lead to stress-related problems such as colitis or inflammatory bowel disease.
An MDR1 Clear dog (normal or +/+)…receives a healthy MDR1 gene from each of its parents and can therefore only pass on healthy genes to its offspring. The healthy + genes are dominant and such animals do not exhibit drug toxicity.
A ‘Carrier’ (+/-) is a dog that has received a normal [dominant] MDR1 gene from one of its parents, and a defective gene [recessive] from the other parent which is 'carried' by the dominant + gene. Please bear in mind that a carrier can pass either a normal or a defective genes onto its offspring resulting in approximately 50% of the puppies inheriting a defective MDR1 gene. Theoretically the 'carrier' animal should not be susceptible to drug toxicity but unfortunately the dominance of the MDR1 + gene has been found to be incomplete as some ‘carrier’ animals also appear to be susceptible to high doses of those drugs that cause problems in MDR1-affected dogs, that is, those with two defective MDR1 genes (-/-).
An Affected dog (-/-) receives a defective or mutant MDR1 gene from both its parents, so such dogs are double recessive and will display toxic reactions to a wide range of drug compounds. If you have an MDR1-affected Collie (-/-) you could be in a position to save its life by providing your veterinary surgeon with a copy of its MDR1 Certificate and the list of drug compounds that your Collie should never be given. Of those vets who have already been asked to put MDR1 test results onto a Collie’s records, all have been aware of the Ivermectin problem but have had no idea about the broad spectrum of drug compounds that can severely threaten an MDR1-affected dog.
Please note there are usually alternative, safe drugs your Collie could be given instead.”
- from the Collienet website
In 2007 a genetic test was made available for MDR1, and this test can be done on any Collie from your own veterinarian; it is a simple blood draw or cheek swab test which is sent away to a specialized lab. Within a certain time period, the results are mailed back to you or your veterinarian.
WE STRONGLY ENCOURAGE ALL OUR BUYERS TO DO THIS TEST, SO THAT YOUR VETERINARIAN MAY PROPERLY MEDICATE YOUR DOG, IF NEED BE. WE ALSO WOULD APPRECIATE THE FEEDBACK ON THIS TEST PER DOG, SO THAT WE CAN DEVELOP OUR OWN DATABASE ABOUT THIS AS WELL FOR FUTURE BREEDINGS AND WELFARE OF OUR DOGS.
Problem Drugs
Many different drugs and drug classes have been reported to cause problems in Collies and other herding breed dogs that carry the MDR1 mutation. We and other researchers have documented the toxicity that occurs with several of these drugs.
Drugs that have been documented to cause problems in dogs with the MDR1 mutation include:
- Acepromazine (tranquilizer and pre-anesthetic agent). In dogs with the MDR1 mutation, acepromazine tends to cause more profound and prolonged sedation. We recommend reducing the dose by 25% in dogs heterozygous for the MDR1 mutation (mutant/normal) and by 30-50% in dogs homozygous for the MDR1 mutation (mutant/mutant).
- Butorphanol (analgesic and pre-anesthetic agent). Similar to acepromazine, butorphanol tends to cause more profound and prolonged sedation in dogs with the MDR1 mutation.We recommend reducing the dose by 25% in dogs heterozygous for the MDR1 mutation (mutant/normal) and by 30-50% in dogs homozygous for the MDR1 mutation (mutant/mutant).
- Emodepside (Profender)-is a deworming drug approved for use in cats only in the U.S. & Canada, but is approved for use in dogs in some other countries. Use of this drug in dogs with the MDR1 mutation has resulted in neurological toxicity.
- Erythromycin. Erythromycin may cause neurological signs in dogs with the MDR1 mutation. A mutant/mutant collie exhibited signs of neurological toxicity after receiving erythromycin. After withdrawal of the drug, the dogs neurological signs resolved. There were no other potential causes of neurological toxicity identified in the dog.
- Ivermectin (antiparasitic agent). While the dose of ivermectin used to prevent heartworm infection is SAFE in dogs with the mutation (6 micrograms per kilogram), higher doses, such as those used for treating mange (300-600 micrograms per kilogram) will cause neurological toxicity in dogs that are homozygous for the MDR1 mutation (mutant/mutant) and can cause toxicity in dogs that are heterozygous for the mutation (mutant/normal).
- Loperamide (ImodiumTM; antidiarrheal agent). At doses used to treat diarrhea, this drug will cause neurological toxicity in dogs with the MDR1 mutation. This drug should be avoided in all dogs with the MDR1 mutation.
- Selamectin, milbemycin, and moxidectin (antaparasitic agents). Similar to ivermectin, these drugs are safe in dogs with the mutation if used for heartworm prevention at the manufacturer's recommended dose. Higher doses (generally 10-20 times higher than the heartworm prevention dose) have been documented to cause neurological toxicity in dogs with the MDR1 mutation.
- Vincristine, Vinblastine, Doxorubicin (chemotherapy agents). Based on some published and ongoing research, it appears that dogs with the MDR1 mutation are more sensitive to these drugs with regard to their likelihood of having an adverse drug reaction. Bone marrow suppression (decreased blood cell counts, particulary neutrophils) and GI toxicity (anorexia, vomiting, diarrhea) are more likely to occur at normal doses in dogs with the MDR1 mutation. To reduce the likelihood of severe toxicity in these dogs, MDR1 mutant/normal dogs should have their dose reduced by 25% while MDR1 mutant/mutant dogs should have their dose reduced by a full 50%. These patients should be closely monitored for adverse effects.
Drugs that are known to be pumped out of the brain by the protein that the MDR1 gene is responsible for producing but appear to be safely tolerated by dogs with the MDR1 mutation:
- Cyclosporin (immunosuppressive agent). While we know that cyclosporin is pumped by P-glycoprotein (the protein encoded by the MDR1 gene), we have not documented any increased sensitivity to this drug in dogs with the MDR1 mutation compared to "normal" dogs. Therefore, we do not recommend altering the dose of cyclosporin for dogs with the MDR1 mutation, but we do recommend therapeutic drug monitoring.
- Digoxin (cardiac drug). While we know that digoxin is pumped by P-glycoprotein (the protein encoded by the MDR1 gene), we have not documented any increased sensitivity to this drug in dogs with the MDR1 mutation compared to "normal" dogs. Therefore, we do not recommend altering the dose of digoxin for dogs with the MDR1 mutation, but do recommend therapeutic drug monitoring.
- Doxycycline (antibacterial drug). While we know that doxycycline is pumped by P-glycoprotein (the protein encoded by the MDR1 gene), we have not documented any increased sensitivity to this drug in dogs with the MDR1 mutation compared to "normal" dogs. Therefore, we do not recommend altering the dose of doxycycline for dogs with the MDR1 mutation.
Drugs that may be pumped out by the protein that the MDR1 is responsible for producing, but appear to be safely tolerated by dogs with the MDR1 mutation:
- Morphine, buprenorphine, fentanyl (opioid analgesics or pain medications). We suspect that these drugs are pumped by P-glycoprotein (the protein encoded by the MDR1 gene) in dogs because they have been reported to be pumped by P-glycoprotein in people, but we are not aware of any reports of toxicity caused by these drugs in dogs with the MDR1 mutation. We do not have specific dose recommendations for these drugs for dogs with the MDR1 mutation.
The following drugs have been reported to be pumped by P-glycoprotein (the protein encoded by the MDR1) in humans, but there is currently no data stating whether they are or are not pumped by canine P-glycoprotein. Therefore we suggest using caution when administering these drugs to dogs with the MDR1 mutation.
- Domperidone
- Etoposide
- Mitoxantrone
- Ondansetron
- Paclitaxel
- Rifampicin
There are many other drugs that have been shown to be pumped by human P-glycoprotein (the protein encoded by the MDR1 gene), but data is not yet available with regard to their effect in dogs with the MDR1 mutation.
Veterinary Clinical Pharmacology Laboratory PO Box 609 , Washington State University, Pullman WA 99163-0609, 509-335-3745,
