Since 25 years now, Tc-99m Pertechnetat has turned out to be the radio
pharmaceutical of first choice for thyroid scintigraphy because of its
ideal radiation quality, short half life, low radiation exposure and
its general availability. Thyroid trapping of Tc-99m Pertechnetat duri
ng the first 20 minutes after iv application correlates well enough wi
th thyroidal clearance of iodide. So the determination of early Techne
tium uptake of the thyroid (TcTU) allows to measure a defined step of
iodine metabolism. As compared to Tc-99m, I-131 leads to a radiation e
xposure of the thyroid higher by factor of 1000; thus the diagnostic a
pplication of I-131 only can be accepted for rare indications like dos
imetric measurements before I-131 treatment or scintigraphic follow-up
of thyroid cancer. For the investigation of additional special indica
tions, I-123 should be used (as for example the diagnosis of iodine or
ganification defects or localization of dystopic thyroid tissue). Toda
y, the gamma camera should be used for thyroid scintigraphy because of
its high spatial resolution and the possibility to perform quantitati
ve measurements. Basal measurements of TcTU depend on nutritional iodi
ne intake, whereas TcTU values measured after thyroid hormone suppress
ion are not disturbed by exogenous supply of iodine. Thus, the measure
ment of TcTU after thyroid hormone suppression is the most sensitive a
nd specific method to study regional function of the thyroid. In prima
ry diagnosis, scintigraphy of the thyroid always is indicated for the
investigation of functional activity of palpable thyroid nodules and/o
r sonographic lesions. In endemic goiter regions, scintigraphy always
should be evaluated quantitatively because of the high prevalence of f
unctional autonomy. If necessary, quantitative scintigraphy has to be
carried out after thyroid hormone suppression. For follow-up however,
scintigraphy mostly can be replaced by sonography.