Pet-Specific Care for the Veterinary Team. Группа авторов

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Название Pet-Specific Care for the Veterinary Team
Автор произведения Группа авторов
Жанр Биология
Серия
Издательство Биология
Год выпуска 0
isbn 9781119540700



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are rapidly increasing. A regularly updated list of available mutation‐based and linked marker‐based genetic tests is available at: http://research.vet.upenn.edu/WSAVA‐LabSearch. For canine genetic tests, the International Partnership for Dogs has a similar database that includes quality control metrics of laboratories: https://dogwellnet.com/ctp. Unfortunately, companies offering DNA testing are unregulated and may have no established standards for quality control or validation of the genetic test results that they report.

      3.6.5.1 Genetic Panel (Multiplex) Testing

      Several commercial genetic testing laboratories offer breed‐specific “panels” of DNA tests versus running individual tests. However, in many instances, tests may be offered that have no relevance to causing clinical disease in a specific breed. A test may be offered based on a single published report, from a research colony, or from a related breed. Test results are of no consequence if a disease is not clinically documented in the specific breed population. Sources should be consulted to identify valid genetic tests in each breed.

      Some commercial laboratories have developed gene chips that test for hundreds of SNPs from a single DNA sample (usually a cheek swab). This is far more cost and time efficient than sending out DNA samples to multiple laboratories for individual gene tests. If a SNP is the sole cause of the disease, then these are direct genetic tests. However, many of these SNPs are associated with a larger mutation and so are actually linked marker tests. These are susceptible to false‐positive and ‐negative results. If decisions of treatment or breeding are being made, they should be based on direct mutation tests.

      While multiplex (panel) testing provides a more cost‐efficient way to do genetic testing, the majority of individual SNP results are of no consequence except to single breeds or subsets of breeds. There are many mutations that cause disease in one or a few breeds, however the mutation is present in many other breeds and does not cause clinical disease. This is because in the other breeds, additional mutations are not present that make the testable mutation a disease‐causing gene. The sod1 mutation for degenerative myelopathy and the cord1 PRA mutations are examples of liability genes that contribute to disease in only a handful of breeds but may be detectable in almost all breeds. A carrier or even “affected” test result for these mutations must be ignored in breeds not prone to the specific disorder.

      3.6.5.2 Mixed‐Breed and Purebred Testing

      3.6.5.3 Genetic Diversity Testing

      There are several genetic testing laboratories that will calculate inbreeding and genetic diversity indexes on purebred dogs or cats and make recommendations to increase heterozygosity. These are based on guidelines that are valid in endangered species preservation, but not in purebred dog or pedigree cat breeding. The gene dynamics of endangered species and purebred dog and cat breeding are directly opposite from each other.

      The basis of creating a breed is selection and genetic uniformity and the basis of endangered species preservation is the randomization of genes through mating the most unrelated individuals together. Some breeds are more ancient and have larger measured genetic diversity while more recently formed breeds with smaller populations may have lower measured genetic diversity. The larger population breeds with greater measured diversity once looked like the smaller population breeds when they first began to grow their population. The size of the gene pool and measured genetic diversity does not correlate to genetic health, as this is based on the presence of disease liability genes. Some genetic testing laboratories test for MHC genes as a measurement of genetic diversity and the immune system. However, no immune‐related or autoimmune diseases are shown to be caused by a decrease of MHC diversity. They are caused by specific mutations or alleles in the MHC that predispose to disease with one or two copies of a mutation.

      3.6.5.4 Estimated Breeding Values

      Taking a cue from large animal production methods, dogs and cats can be rated for complex genetic disease liability through the phenotypic assessment of their close relatives. This is being attempted with hip dysplasia in several dog breeds. However, valid estimated breeding values (EBVs) require the assessment of all close relatives (including all littermates), which is rarely done in dog and cat breeding. The identification of one affected relative or of one normal relative can significantly shift EBVs when full litter assessment would provide a different rating. If EBVs are being offered, they can be used as a tool in addition to direct assessment of the phenotype of the individual and its close relatives.

      3.6.5.5 Genomic Breeding Values

      Researchers are working on ratings for dogs and cats with complexly inherited diseases based on a panel of DNA markers that are found to differ between groups of affected and normal individuals. These panels of markers are only validated in a small group within individual breeds, and, at least at the present time, lose their validation when applied to larger populations within a breed. However, this approach to genetic testing for disease liability shows promise as the science continues to develop.

      3.6.5.5.1 Tissue Testing

      Advances in genetic research are providing genetic tests for pathology and biopsy specimens. These tests can provide more specific prognostic and differential treatment recommendations for many types of cancer (see 2.20 Cancer Precision Medicine), liver disease, hematological disorders, etc.

      Many owners and breeders ask what tests should be done for their cats and dogs. For a pet, it is only important to know that the individual pet is not going to be affected by a specific disease. For breeding animals, it is important to know not only whether they may be affected by a genetic disease, but whether they carry validated disease liability genes that they can pass on to their offspring. Genetic testing and screening should be done for a purpose. Are the results going to change how you would treat a patient or alter your recommendations? See 3.8 (Genetic Counseling) for specific recommendations based on genetic test results.

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