K. Zophel et al., Measurement of thyrotropin receptor antibodies (TRAK) with a second generation assay in patients with Graves' disease, NUKLEARMED, 39(4), 2000, pp. 113-120
Aim: The detection of TSH-receptor-antibodies (TRAb) in patients (pts) with
Graves' disease (GD) is routinely used in nuclear medicine laboratories. I
t is performed by commercial, porcine radioreceptorassays (RRA) measuring T
SH binding inhibitory activity A second generation assay using the human, r
ecombinant TSH receptor was developed during the last years. The manufactur
er composed this new assay as a coated tube RRA (CT RRA) and claimed a high
er sensitivity for GD. Methods: TRAb was measured in 207 pts with various t
hyroid disorders and 205 healthy controls using the new coated tube PPA (Fa
. B.R.A.H.M.S. Diagnostica GmbH, Berlin, Germany) as well as a conventional
RRA (Fa. Medipan Diagnostica GmbH, Selchow, Germany). 60 pts suffering fro
m GD showing a relapse after antithyroid drug treatment and before radioiod
ine therapy 109 pts with disseminated autonomia (DA) and 38 pis suffering f
rom Hashimoto's thyroiditis. A ROC-analysis was performed to find the optim
al decision threshold level for positivity Results: We found 42/60 TRAb-pos
itive pts with GD in the established RRA (threshold 6 U/L) and 52/60 in the
CT RRA, respectively The sensitivity increased from 70% (RRA) to 86,7% (CT
RRA). The CT RRA found 2 false positives (one Hashimoto's and one healthy
control) and the RRA detected 3 Hashimoto's and 2 healthy controls as false
positive. Conclusion: The increased sensitivity of CT RRA for GD provides
an advantage compared to conventional RRA, especially in GD-patients relaps
ing after antithyroid drug treatment. Functional sensitivity and Interassay
-variation of CT RRA are very precisely compared to conventional RRA. Handl
ing of the new essay is also improved.