There is much controversy about giving
extra vitamins or supplements to puppies
There are as many articles for it as
against it
There is not
enough research done yet to know for sure
Larry Mueller
Roughly one in
four hunting-dog pups become victims of hip dysplasia.
Some of these dogs suffer
a lifetime of
crippling pain. Others are destroyed. But it is now
a virtual certainty that if
you take some preventive measures,
your pup will not get hip dysplasia. Is that a strong
statement? Read on, and judge
for yourself
Scurvy and Hip Dysplasia
San Jose, California
veterinarian Dr. Wendell O. Belfield was visiting a friend.
On the table
was a reprinted copy of the 1753
book, "A Treatise On Scurvy", by Captain James Lind, a
surgeon in the British Royal Navy.
While waiting for his friend, Dr. Belfield began reading.
The symptoms described were:
bleeding gums, loose teeth, foul breath, nose bleeds, swollen
eyelids, brittle bones…And then came
an autopsy report made in 1699 at St. Louis Hospital,
Paris: "The ligaments of the
joints were corroded and loose. Instead of finding in the
cavities of the joints the usual
sweet oil mucilage, there was only a greenish liquor, which
by its caustic quality had corroded
the ligaments."
Recognition flashed across Dr.
Belfield's mind. This 300-year-old autopsy of a dead
human being described hip dysplasia
in dogs. Could chronic hip dysplasia be a form of scurvy?
Simply a lack of vitamin C?
No, it's accepted that a dog's
body makes its own vitamin C. Everybody knows that.
Canine hip dysplasia is
hereditary. Everybody knows that, too.
But why does everybody know that
dogs don't need extra vitamin C? Because back in the
1930s, some dogs in testing
laboratories suffered no ill effects when denied all vitamin C
in
their diets.
We can't help but observe,
however, that very little happens in the controlled
environment of an experimental
laboratory that would cause dogs to need more C than its body
can manufacture. In the real
world a dogsled racer brought a bitch to Dr. Belfield after
other vets in the San Francisco area
had failed to help her. She had a swollen tongue,
bleeding gums, and often fell and
dragged herself about with great difficulty.
Dr. Belfield recognized the
trouble as scurvy, although not the true clinical scurvy
that brings death to humans.
The dog was making enough C to keep the scurvy on a chronic
subclinical level. After a
month on ascorbic acid (another name for vitamin C - simply
meaning
NOT having scurvy), the bitch could
run as long and hard as any dog on the client's team.
Why didn't other members of the
racing team have scurvy? They had been eating the
same food. This happened
because of another factor usually ignored by those who believe
that
dogs never need more C than their
bodies make. In one group of 104 dogs tested, vitamin C
levels varied from .02 milligrams
per cubic centimeter of blood to .84 milligrams - a 42 fold
variable! Obviously, one dog's
body can be starving for C while another dog makes enough to
get by.
This variability also leads us
to the heredity factor. Breeding programs to eliminate
CDH have worked to a certain degree.
For instance, the Wirehaired pointing Griffon breeders
eliminated half of the problem in
just ten years through selective breeding. But no breeding
program has come close to being 100%
effective. If we assume that Dr. Belfield is right in
believing that hip dysplasia is
connected to a vitamin C deficiency, it all begins to make
sense.
The variable ability to make
ascorbic acid is certainly inheritable. While selecting
parents
for lack of hip dysplasia in the
heredity, we may have unknowingly selected for the real factor
that inhibits CHD - good vitamin C
production.
Nature and Nurture
It seems clear, however, that
all CHD is not entirely genetic. Selective breeding has
been too inconsistently successful
to believe otherwise. Dr. Belfield says that he constantly
sees sound parents. A Swedish
doctor who x-rayed army dogs concluded that dysplastic dogs
produce only ten percent more
dysplastic pups than normal dogs. But again, if we accept
Dr. Belfield's vitamin C theory, it
all makes sense.
Vitamin C does 300 different
jobs in the bodies of animals, including humans. One of
the most important is collagen
production. If you think of cells as bricks, collagen
would
be the mortar. Without enough
collagen, you can't build muscle tissue. You can't build
bone,
either, because collagen forms the
honeycomb holding the minerals in place in bones.
Furthermore, it's possible to have
not quite enough vitamin C to manufacture quality collagen.
Weak collagen builds weak muscles
and bones.
A second function of ascorbic
acid is to cope with the effects of stress. It does this
by nourishing the adrenal glands and
by helping the body produce its own cortisone, which
combats histamines produced by dying
cells. A rat can multiply its vitamin C output tenfold
when stressed. Humans can't
make any at all, much less increase it, so we must eat all that
our bodies need or supplement our
diets. Apparently, our ancestors ate huge amounts of fruit
containing vitamin C, so unlike most
animals, our livers didn't develop the ability to turn
glucose into ascorbic acid.
Dogs are poor producers. A goat can make five times the
vitamin C
produced by a dog of equal size.
A rat, small as it is, makes nearly four times the vitamin C
produced by a full-grown dog.
I hate the term "conventional
wisdom." Too often, it means believing what everybody
else believes, no matter how
foolish, for fear of being ridiculed. But in this case,
the
definition is accurate.
Conventional wisdom has it that dogs need no more vitamin C than
their
bodies make. Dr. Belfield asks
why, if that is the case, do dogs or wild canines, when left to
their own devices, act like they
need more? When possible, canines do eat fruits, berries
and
vegetation containing vitamin C.
In my experience, there are two
times when dogs eat large amounts of grass and other
available vegetation. One is
when they've run long and hard, and there's no water to be
found.
At such times, they chew and swallow
vegetation for the moisture. The other time is when
they've been kenneled too long.
Even some hard-running bird dogs and hounds often stop and
eat green vegetation before taking
off to hunt. We've always wondered why. We even
thought
up several explanations, but they
didn't ring true. Could this simply be caused by a need of
additional vitamin C?
Keep in mind that there is no
extra vitamin C in most commercial dog foods. That's
not a criticism, either.
Ascorbic acid oxidizes rapidly when the lid is off the
container.
It probably would oxidize rapidly as
a minor ingredient in a large bag of food. Also the high
heat during the extruding process
would probably destroy most of the vitamin C added to the food.
One manufacturer that does add ascorbic acid makes no claims for
its benefits, nor is the amount specified or guaranteed to be in
the bag.
To sum up so far, our dog is a
poor producer of vitamin C, there is no extra C in his
usual food, and like us, he needs
far more in proportion to size than we do to achieve normal
growth. While our growth is
stretched out over two decades, most of theirs takes place
during
the first year. The bigger the
breed or strain, the more rapid the growth, and the greater the
demand for ascorbic acid, the
greater the incidence of hip dysplasia.
Dr. Belfield suggests that we
should also consider the stress assault on a domesticated
pup. It's weaned, separated
from its mother and littermates, involuntarily carried to a new
and unfamiliar location, stuck with
needles, mildly poisoned to eliminate worms, and possibly
operated on to remove dewclaws or
part of the tail. All of this happens while the animal is
already stressed by teething and phenomenal growth. The
growth factor induces a very high demand for ascorbic acid
through additional stress and the massive need for collagen.
The wild canine pup, by
contrast, stays with its mother, keeps its tail and dewclaws,
suffers no early separation, is not
hurt by hypodermic needles, and has not been bred overlarge
by foolish humans. Diseases
and worms are its stresses. But the wild pup does get
extra vitamin C from the livers of animals the mother kills,
some green vegetation, and sometimes from fruits and berries.
The domestic pup gets none because we have decided that he
doesn't need any.
Our pup - in a condition perhaps
bordering on subclinical scurvy - runs, plays and jumps
with muscles and bones weak from
lack of quality collagen. Muscle growth may not be keeping
pace with bone growth. The
pectineus muscles become taut. Suddenly, during one great
leap
or unusual jolt, the weak muscles
fail, and the balls of the leg bones are pulled away from the
hip sockets. The lubricating
synovial fluid leaks out, and the balls grate on the sockets.
In hours, maybe less, the dog has
hip dysplasia. It will not recover.
The Solution
Dr Belfield thought that the
solution was obvious. Prevent hip dysplasia by supplying
enough vitamin C. He tried it
with several litters of German Shepherd pups, a breed with
serious CHD problems. The parents
either had hip dysplasia themselves or they had already
produced dysplastic pups.
The first bitch had very bad
hips, and according to Seeing Eye dog standards, should
have been neutered to prevent
damaging pregnancy. Dr. Belfield gave her 2,000 milligrams
(2 grams) of C daily as soon as she
was pregnant. Eight pups were born, and they were given 50
to 100 milligrams of liquid C from
birth until weaned. From that point to four months,
550 milligrams of powdered C were
added to their food. This was increased to 1,000
milligrams,
then 2,000 until the pups were 18 to
24 months old. None of the pups were dysplastic.
Another bitch had been bred
twice to different studs that were certified free of CHD.
Each time, half of her pups were
dysplastic. She was bred again and vitamin C was
administered
under Dr. Belfield's guidance.
She produced eleven pups with perfect hips. In all, eight
litters were handled in this manner
over a five-year period. When x-rayed at two years of age,
all pups were free of CHD.
The testing ended in 1976, and
as far as Dr. Belfield was concerned, the CHD threat was
defeated. He published a paper
in a professional journal.
Was it truly over? Hardly.
Dr. Belfield had attacked the popular genetic theory that
everyone "knew." Instead of
simply trying the treatment and finding out for themselves, most
of the professionals ridiculed Dr.
Belfield for not conducting a better experiment with double
blinds (some dogs not given C).
He was even called a crook and a charlatan.
"That really hurt," Dr. Belfield
told me. "I'm just a little one-man practitioner who
looked for better ways when
conventional means weren't working. Proof is up to the
universities.
I really want to help these animals,
not wait around for further proof while the dogs suffer."
Those are my sentiments exactly.
Dr. Belfield has since upped the dosage of C somewhat
and has combined it with other
vitamins and minerals. He also mixed some with Ester-C.
I'm
currently testing both mixtures on
hard-running Fox Hounds.
Whatever you do, if you're
raising a litter, provide the needed vitamin C. If you're
buying a pup, put it on the C the
moment you take it home. There's no sense risking hip
dysplasia just because absolute
proof hasn't yet been established or seriously attempted.
**Reprinted from "Outdoor Life"
Ester-C: Miracle Cure for Hip Dysplasia
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