Tag archives: genetic diseases in dogs

The Labrador Retriever Copper Toxicosis Test- Interpretation, Breeding Strategy, and Monitoring

The Labrador Retriever Copper Toxicosis Test- Interpretation, Breeding Strategy, and Monitoring

The liver disease, copper toxicosis (CT) has become a hot topic among Labrador retriever breeders and dog owners with the arrival of a new genetic test which identifies two recently described mutations found in Labradors associated with opposite effects on the amount of dietary copper stored in the liver. As with all new canine genetic tests, questions and concerns may arise from breeders about how to interpret their dog’s test results, how to use this information to maintain the health of their dog, and how to use the information for their breeding program.

What is liver copper toxicosis?

Copper toxicosis is an inherited metabolic disease affecting Labrador retrievers and other breeds, which can result in chronic liver failure. Dogs with copper toxicosis have a decreased ability to excrete dietary copper from the body resulting in excessive copper storage in tissues and organs, including the liver, which can result in liver damage, subsequent cirrhosis and the inability of the liver to function properly. Though the age of onset and speed of disease progression are variable, most affected dogs will present in middle age with non-specific signs of liver dysfunction including weight loss, lethargy, weakness, vomiting, diarrhea, and abdominal pain. In late ...

Preventing Inherited Progressive Retinal Atrophy in Poodles

Preventing Inherited Progressive Retinal Atrophy in Poodles

Despite their characterization in popular culture as a gorgeous, yet delicate dog breed with more beauty than brawn, the ancestors of today’s poodles (especially standard poodles) were revered for their ability to work. Still well known for their exceptional intelligence, the standard poodle (the oldest poodle variety), was commonly used as a gun dog and water retriever to assist European hunters. Portrayed in drawings and paintings from as early as the 15th century, the standard poodle was eventually bred to smaller breeds in order to create poodles of smaller size. The resulting smaller dogs, which reportedly disliked water, were used for truffle hunting and formed the ancestry of today’s toy and miniature poodle breeds. Though no longer commonly thought of as gun dogs, interest in using standard poodles as hunting dogs has reemerged with some standard poodles experiencing success in AKC and CKC hunting trials since the mid to late 1990’s. Toy and miniature poodles are most commonly recognized today as family-friendly companion dogs. During their path of development, like other purebred dogs, all three commonly recognized varieties of poodles have developed some inherited diseases that can make life challenging. One particular disease of poodles known as progressive retinal ...

The Path to Independence from Canine Inherited Diseases

The Path to Independence from Canine Inherited Diseases

The art of medicine today is nearly unrecognizable from its state in 1776 when the original thirteen colonies of the United States declared their independence from Great Britain. Without knowledge of bacteria or viruses, physicians and veterinarians of the day had few worries about sterility or the fact that they could play a role in the spread of deadly diseases between their patients. Bolstered by anecdotal evidence, dangerous treatments to purge various ailments from the body such as bloodletting and enemas (then called clysters) were commonly practiced in both people and animals in opposition to our modern understanding of their risks and lack of efficacy.

The Birth of Modern Genetics

The 19th century saw great advances in science including progression of the scientific method by which scientists could more objectively test their observations and develop an explanation for them. These methods also allowed for the modification of previous theories as new information was uncovered through experimentation. It was also the 19th century in which the foundation for the modern era of genetics was laid by an Augustinian friar named Gregor Mendel. Far ahead of his time, Mendel’s study of trait inheritance in the common pea plant went relatively unnoticed ...