|
This copyrighted material was
republished with permission from Dr. Dodds
Contact Dr. Dodds at
Hemopet.org
HEMOPET / HEMOLIFE
11561 Salinaz Avenue
Garden Grove, CA 92843
Phone: (714) 891-2022*
Fax: (714) 891-2123
e-mail
Additional articles:
The Effect of Hypothyroid Function on Canine Behavior
Nutritional Management of Thyroid & Immune Disorders
Thyroid Disease and Autoimmune Thyroiditis |
In North America, the principal reason for pet euthanasia
stems not from disease, but undesirable behavior. While
this abnormal behavior in dogs and cats can have a variety
of medical causes, it also can reflect underlying problems
of a psychological nature.
Inheritance has been
shown to play an important role in the behavior of both
animals and humans. The role of inheritance in behavior was
reviewed by Plomin (Science 248:183-188, 1990), who
pointed out that the genetic influence on behavioral
disorders rarely accounts for more than half of the
phenotypic expression of behavioral differences. Each of
the multiple genes involved has a small effect on behavior.
Development and application of newer techniques in molecular
biology offers the promise of identifying the DNA marker
sequences responsible for behavioral variation. However,
behavior is the most complex phenotype because it reflects
not only the functioning of the whole organism but also is
dynamic and changes in response to environmental
influences. With respect to animal behavior, applied
behavioral genetics was first studied several thousand years
ago because animals were bred and selected for their
behavior as much as their conformation. The results can be
attested to by the dramatic differences in behavior and
physique among various dog breeds. Today these breeds have
a great range of genetic and behavioral variability.
Many investigators in
recent years, have noted the sudden onset of behavioral
changes in dogs around the time of puberty. Most of the
dogs have been purebreds or crossbreds with an apparent
predilection for certain breeds. For a significant
proportion of these animals, neutering does not alter the
symptoms and in some cases the behaviors intensify. The
seasonal effects of allergies to inhalants and ectoparasites
such as fleas, followed by the onset of skin and coat
disorders including pyoderma, allergic dermatitis, alopecia,
and intense itching, have also been linked to changes in
behavior.
Typical clinical signs include unprovoked aggression towards
other animals and/or people, sudden onset of a seizure
disorder in adulthood, disorientation, moodiness, erratic
temperament, periods of hyperactivity, hypo-attentiveness,
depression, fearfulness and phobias, anxiety,
submissiveness, passivity, compulsiveness, and
irritability. After the episodes, a majority of the animals
were noted to behave as if they were coming out of a trance-
like state and were unaware of their previous behavior.
A similar association
between behavioral and psychologic changes and thyroid
dysfunction has been recognized in humans since the 19th
century, and more recently has been noticed in cats with
hyperthyroidism. In a recent human study, 66% of patients
with attention deficit-hyperactivity disorder were found to
be hypothyroid, and supplementing their thyroid levels was
largely curative.
The mechanism whereby
diminished thyroid function affects behavior is unclear.
Hypothyroid patients have reduced cortisol clearance, and
the constantly elevated levels or circulating cortisol mimic
the condition of an animal in a constant state of stress, as
well as suppressed TSH output and production of thyroid
hormones. In humans and seemingly in dogs, mental function
is impaired and the animal is likely to respond to stress in
a stereotypical rather than a reasoned fashion. Chronic
stress in humans has been implicated in the pathogenesis of
affective disorders such as depression. Major depression
has been shown in imaging studies to produce changes in
neural activity or volume in areas of the brain which
regulate aggressive and other behaviors. Dopamine and
serotonin receptors have been clearly demonstrated to be
involved in aggressive pathways in the CNS. Hypothyroid
rats have increased turnover of serotonin and dopamine
receptors, and an increased sensitivity to ambient
neurotransmitter levels. In dogs with aberrant aggression,
a large collaborative study at Tufts University has shown a
favorable response to thyroid replacement therapy within the
first week of treatment, whereas it took about three weeks
to correct their metabolic deficit. Dramatic reversal of
behavior with resumption of previous problems has occurred
in some cases if only a single dose is missed. A similar
pattern of aggression responsive to thyroid replacement has
been reported in a horse.
Tables 1 and 2 summarize
results of complete thyroid diagnostic profiling on 634 canine
cases of aberrant behavior, compiled by the authors in
collaboration with Drs. Nicholas Dodman, and Jean DeNapoli of
Tufts University School of Veterinary Medicine, North Grafton,
MA.
Table 1. Canine Aberrant Behavior *
|
Total No. Cases |
Purebreds |
Mixed Breeds |
Thyroid Dysfunction |
Euthyroid |
|
634 |
568 |
66 |
401 |
233 |
* Mean Age, 3.7 years (Range 0.5-12
years). Median Age, 2.5 years.
Table 2. Most Commonly Represented Breeds with Thyroid
Dysfunction and Aberrant Behavior*
|
Breed |
Thyroid Dysfunction |
Aggression |
Seizures |
Fearful |
Hyperactive |
|
Golden Retriever |
50/73 |
12/16 |
22/30 |
4/6 |
1/6 |
|
German Shepherd |
34/53 |
10/22 |
14/16 |
3/7 |
2/2 |
|
Akita |
27/38 |
24/33 |
0/1 |
0 |
0/2 |
|
Labrador Retriever |
8/30 |
6/11 |
12/16 |
2/15 |
0/3 |
|
Shetland Sheepdog |
14/25 |
3/6 |
2/3 |
2/4 |
3/3 |
|
Collie |
8/9 |
0 |
7/7 |
0 |
0 |
|
English Setter |
4/6 |
1/1 |
0 |
1/3 |
1/2 |
|
Other Purebreds |
217/334 |
89/135 |
72/93 |
10/15 |
5/16 |
|
Mixed Breeds |
39/66 |
11/27 |
16/23 |
4/5 |
1/8 |
|
Totals |
401/634
63% |
156/251
(62%) |
145/189
(77%) |
25/55
(47%) |
13/42
(31%) |
* Some dogs had more than 1 abnormal
behavior.
Numerator = Thyroid Dysfunction. Denominator = Aberrant
behavior
*Ninety percent (568 dogs) were purebreds
and 10% were mixed breeds.
*There was no sex predilection found in
this case cohort, whether or not the animals were intact or
neutered.
*63% had thyroid dysfunction as judged by
finding 3 or more abnormal results on the comprehensive thyroid
profile
*The major categories of aberrant behavior
were: aggression (40% of cases), seizures (30%), fearfulness
(9%), and hyperactivity (7%); some dogs exhibited more than 1 of
these behaviors.
*Thyroid dysfunction was found in 62% of
the aggressive dogs, 77% of seizuring dogs, 47% of fearful dogs,
and 31% of hyperactive dogs.
*Outcomes of treatment intervention with
standard twice daily doses of thyroid replacement were evaluated
in 95 cases. Of these, 58 dogs had greater than 50% improvement
in their behavior as judged by a predefined 6-point subjective
scale (34 were improved >75%), and another 23 dogs had >25 but
<50% improvement. Only 10 dogs experienced no appreciable
change, and 2 dogs had a worsening of their behavior. When
compared to 20 cases of dominance aggression treated with
conventional behavioral or other habit modification over the
same time period, only 11 dogs improved >25% and of the
remaining 9 cases, 3 failed to improve and 3 were euthanized or
placed in another home. These initial results are so promising
that complete thyroid diagnostic profiling and treatment with
thyroid supplement, where indicated, is warranted for all cases
presenting with aberrant behavior.
References
- Baverman LE, Utiger RD (eds). Werner
and Ingbar's The Thyroid: A Fundamental and Clinical
Text, 7th ed. Philadelphia, Lippincott-Raven, 1996.
- Cameron DL, Crocker AD. The
hypothyroid rat as a model of increased sensitivity to
dopamine receptor agonists. Pharm Biochem Behav
37:627-632, 1990
- Denicoff KD, Joffe RT, Lakschmanan MC,
Robbins J, Rubinow DR. Neuropsychiatric manifestations of
altered thyroid state. Am J Psych 147:94-99, 1990
- Dewey CW, Shelton GD, Bailey, CS.
Neuromuscular dysfunction in five dogs with acquired
myasthenia gravis and presumptive hypothyroidism. Prog
Vet Neurol 6:117-123, 1995.
- Dodds, WJ. Estimating disease
prevalence with health surveys and genetic screening.
Adv Vet Sci Comp Med 39: 29-96, 1995.
- Dodds WJ. What's new in thyroid
disease? Proc AM Hol Vet Med Assoc 1997; pp 82-95.
- Dodman NH, Mertens PA, Aronson, LP.
Aggression in two hypothyroid dogs, behavior case of the
month J Am Vet Med Assoc 207:1168-1171, 1995.
- Happ GM. Thyroiditis - A model canine
autoimmune disease. Adv Vet Sci Comp Med 39: 97-139,
1995.
- Hauser P, Zametkin AJ, Martinez, P et
al. Attention deficit-hyperactivity disorder in people with
generalized resistence to thyroid hormone. N Eng J Med
328:997-1001, 1993.
- Henley WN Chen X, Klettner C. Bullush
LL, Notestine MA. Hypothyroidism increases serotonin
turnover and sympathetic activity in the adult rat. Can
J Physiol Parmacol 69:205-210, 1991.
|