Study suggests inbreeding contributes to increase in disease and health care costs
University of California - Davis
Dog breeds are often recognized for distinctive traits -- the short legs of a dachshund, wrinkled face of a pug, spotted coat of a Dalmatian. Unfortunately, the genetics that give various breeds their particular attributes are often the result of inbreeding.
In
a recent study published in Canine Medicine and Genetics, an
international team of researchers led by University of California, Davis,
veterinary geneticist Danika Bannasch show that the majority of canine breeds
are highly inbred, contributing to an increase in disease and health care costs
throughout their lifespan.
"It's
amazing how inbreeding seems to matter to health," Bannasch said.
"While previous studies have shown that small dogs live longer than large
dogs, no one had previously reported on morbidity, or the presence of disease.
This study revealed that if dogs are of smaller size and not inbred, they are
much healthier than larger dogs with high inbreeding."
Inbreeding affects health
The
average inbreeding based on genetic analysis across 227 breeds was close to
25%, or the equivalent of sharing the same genetic material with a full
sibling. These are levels considered well above what would be safe for either
humans or wild animal populations. In humans, high levels of inbreeding (3-6%)
have been associated with increased prevalence of complex diseases as well as
other conditions.
"Data
from other species, combined with strong breed predispositions to complex
diseases like cancer and autoimmune diseases, highlight the relevance of high
inbreeding in dogs to their health," said Bannasch, who also serves as the
Maxine Adler Endowed Chair in Genetics at the UC Davis School of Veterinary
Medicine.
The
researchers partnered with Wisdom Health Genetics, a world leader in pet
genetics, to obtain the largest sample size possible for analysis. Wisdom
Health's database is the largest dog DNA database in the world, helping
researchers collect data from 49,378 dogs across 227 breeds -- primarily from
European sources.
Some breeds more inbred
So,
what makes a dog breed more inbred than others? Bannasch explained that it's
often a combination of a small founding population followed by strong selection
for particular traits in a breed -- often based on looks rather than purpose.
While she has always had an interest in the population structure of some of
these breeds, she became particularly interested in the Danish-Swedish farmdog
several years ago. She fell in love with their compact size, disposition and
intelligence, and ended up importing one from Sweden.
Bannasch
discovered that Danish-Swedish farmdogs have a low level of inbreeding based on
their history of a relatively large founding population of 200, and being bred
for function, rather than a strong artificial selection for looks. And
according to the insurance health data on breeds collected from Agria Insurance
Sweden and hosted online by the International Partnership for Dogs, the farmdog
is one of the healthiest breeds.
The
study also revealed a significant difference in morbidity between
brachycephalic (short skull and snout) and non-brachycephalic breeds. While
that finding wasn't unexpected, the researchers removed brachycephalic breeds
from the final analysis on effects of inbreeding on health.
Preserving
genetic diversity
In
the end, Bannasch said she isn't sure there is a way out of inbred breeds.
People have recognized that creating matches based solely on pedigrees is
misleading. The inbreeding calculators don't go back far enough in a dog's
genetic line, and that method doesn't improve overall high levels of population
inbreeding.
There
are other measures that can be taken to preserve the genetic diversity and
health of a breed, she said. They include careful management of breeding
populations to avoid additional loss of existing genetic diversity, through
breeder education and monitoring of inbreeding levels enabled by direct
genotyping technologies.
Outcrosses
are being proposed or have already been carried out for some breeds and
conditions as a measure to increase genetic diversity, but care must be taken
to consider if these will effectively increase overall breed diversity and
therefore reduce inbreeding, Bannasch said. In particular, in the few breeds
with low inbreeding levels, every effort should be made to maintain the genetic
diversity that is present.
Other
UC Davis authors include Thomas Famula, Kevin Batcher, Noa Safra, Sara Thomasy
and Robert Rebhun. Contributors from Wisdom Health Genetics include Jonas
Donner, Heidi Anderson and Leena Honkanen.
This
work was supported by the International Canine Health Award and the Maxine
Adler Endowed Chair Fund.