Measurement of serum TSH concentration is recommended to differentiate dogs with euthyroid sick syndrome from those with true
hypothyroidism. Most, but not all, hypothyroid dogs have serum TSH concentrations above the reference range, whereas most
dogs with euthyroid sick syndrome have normal to decreased TSH concentrations. Despite these well-established test recommendations,
this study suggests that hypothyroidism is diagnosed in many sighthounds based on low serum thyroid hormone concentrations
alone or despite concurrent inconsistent thyroid function test results. Although the study's authors did not extrapolate their
findings to other breeds, anecdotally (including in our experience), this overdiagnosis of hypothyroidism is, unfortunately,
not specific to sighthounds.
The authors' finding that hypothyroidism was presumptively diagnosed in 7.5% of sighthounds without abnormal serum thyroid
hormone concentrations and thyroid hormone supplementation was administered is concerning. Characteristic clinical signs such
as weight gain, decreased activity, and alopecia are an indication for thyroid axis testing; however, these clinical signs
are not pathognomonic of hypothyroidism, and an alternative diagnosis should be considered when the serum T4 concentration is within the reference range. If serum T4 concentrations are decreased, the serum TSH concentration should be measured before making a clinical diagnosis. Increased
serum TSH concentration, when present in a dog with a decreased T4 concentration, has a sensitivity of 75% and a specificity between 69% and 95% for the diagnosis of hypothyroidism.4 This upregulation of TSH production by the pituitary gland occurs in most hypothyroid dogs when circulating T4 concentrations are inappropriately decreased, but upregulation does not occur in dogs with euthyroid sick syndrome.
One caveat regarding the results reported for the retrospective portion of this study is that the authors assumed that all
sighthounds had classic hypothyroidism that could be definitively diagnosed solely based on serum thyroid hormone concentration
testing. Unfortunately, an increased serum TSH concentration does not have 100% sensitivity for the diagnosis of hypothyroidism,
and some hypothyroid dogs may have TSH concentrations within the reference range. Other supportive evidence in patients in
which this disease is highly suspect includes the presence of thyroglobulin autoantibodies, which presumptively correlate
with autoimmune thyroiditis. Alternatively, T3 or anti-T4 autoantibodies may cross-react with assays for these particular hormones, and, thus, results within the reference range may
not truly reflect serum thyroid hormone concentrations in a given patient. Finally, for unknown reasons, a minority of dogs
with clinical signs that suggest decreased thyroid activity persistently have some or all thyroid hormone concentrations within
the reference range. After excluding alternative diagnoses, clinical response to empirical levothyroxine supplementation may
be considered an acceptable method of indirectly supporting a diagnosis of hypothyroidism in these dogs. The authors did not
investigate how many dogs may have had extensive testing to exclude other diagnoses before final repeat thyroid axis testing
was attempted, and thyroid hormone supplementation begun. Additionally, it is unclear whether a breed predisposition may exist
in these atypical hypothyroid dogs. Perhaps sighthounds are predisposed to having repeatedly normal thyroid function test
results despite having thyroid hormone-responsive clinical signs. Despite these theoretical concerns, it would be difficult
to accept such a high prevalence of atypical cases as those noted by the authors, and, thus, overdiagnosis of hypothyroidism
is the most likely explanation.
The finding that normal Salukis commonly have serum total T4 and fT4 concentrations below those of the general dog population suggests that the previously reported differences in greyhounds
may in fact be a sighthound-group finding rather than a breed-specific difference. It is unknown why such a difference would
be found in one or more breeds, but the authors reasonably suggest that in some breeds the thyroid hormone receptor could
have an increased affinity for T4, T3, or fT4 or, alternatively, that these dogs may have altered (slower) rates of thyroid hormone degradation. In both of these scenarios,
a decreased serum T4 concentration would not result in lower intracellular hormone concentrations and would instead be an expected homeostatic
finding. Similar studies should be conducted in other sighthound varieties (e.g. Afghan hound, borzoi, Irish wolfhound, Italian greyhound, Scottish deerhound, whippet, and other rarer breeds), before general
extrapolation is made. One limitation of this study was that Salukis underwent minimal evaluation, and if a subset of these
dogs had undetected hypothyroidism, then the thyroid hormone concentration results would have been biased to be lower than
truly expected in healthy members of this breed. Nevertheless, the clinical implication of this breed difference is that a
diagnosis of hypothyroidism in Salukis should be based not only on decreased T4, T3, or fT4 concentrations but also on serum TSH concentrations. However, as previously discussed for hypothyroidism in general, because
about 9% of healthy Salukis had increased serum TSH concentrations, the clinical diagnosis of hypothyroidism should also depend
on the presence of consistent clinical signs.
Source: Shiel RE, Sist M, Nachreiner RF, et al. Assessment of criteria used by veterinary practitioners to diagnose hypothyroidism
in sighthounds and investigation of serum thyroid hormone concentrations in healthy Salukis. J Am Vet Med Assoc 2010;236(3):302-308.
The information in "Research Updates" was provided by Scott Owens, DVM, and Barrak Pressler, DVM, PhD, DACVIM, Department
of Veterinary Clinical Sciences, School of Veterinary Medicine, Purdue University, West Lafayette, IN 47907.
1. Scott-Moncrieff JC. Hypothyroidism. In: Ettinger SJ, Feldman EC, eds. Textbook of veterinary internal medicine. 7th ed. St. Louis, Mo: Saunders Elsevier, 2010;1753.
2. Mooney CT, Shiel RE, Dixon RM. Thyroid hormone abnormalities and outcome in dogs with non-thyroidal illness. J Small Anim Pract 2008;49(1):11-16.
3. Shiel RE, Brennan SF, Omodo-Eluk AJ, et al. Thyroid hormone concentrations in young, healthy, pretraining greyhounds. Vet Rec 2007;161(18):616-619.
4. Ramsey IK, Evans H, Herrtage ME. Thyroid-stimulating hormone and total thyroxine concentrations in euthyroid, sick euthyroid
and hypothyroid dogs. J Small Anim Pract 1997;38(12):540-545.