. 2021 Apr 6;91(3):690–698. doi: 10.1038/s41390-021-01488-5

Table 6.

Estimates of maternal FT3 serum concentration for the 10th, 50th and 90th percentile of maternal serum compound concentration.

Independent variable	Maternal FT3 serum concentration (pmol/l) for the
	10th compound percentile	50th compound percentile	90th compound percentile
DDE^a	4.361	4.240	4.033
PCB 74	4.283	4.260	4.144
PCB 99	4.286	4.242	4.156
PCB 118	4.328	4.251	4.10
PCB 138	4.353	4.251	4.069
PCB 153	4.349	4.249	4.066
PCB 156	4.307	4.239	4.098
PCB 170	4.311	4.241	4.102
PCB 180^a	4.374	4.227	4.021
PCB 183	4.370	4.257	4.046
PCB 187	4.353	4.258	4.053
PCB Group 1^b	4.355	4.251	4.071
PCB Group 2^c	4.340	4.251	4.075

Robust linear regression models with the maternal FT3 serum concentration as a dependent variable and the respective compound of interest as independent variables reveal lower FT3 concentrations for higher compound concentrations. Analyses were adjusted for maternal age, maternal BMI and maternal serum lipid concentration.

The underlying model reached the level of significance for all compounds and both PCB groups, except PCB 156.

PCB polychlorinated biphenyl, DDE dichlorodiphenyldichloroethylene, FT3 free triiodothyronine (pmol/l).

^aFor DDE and PCB 180, a polynomial of second order with FT3 serum concentration as a dependent variable reveals significant higher FT3 serum concentrations for women with higher compound serum concentrations. We checked if a term of higher order was necessary by modelling the associations with polynomial and compare them to the linear model using analysis of variance. If the higher-order term resulted in a significant model improvement, the results were changed accordingly. Otherwise, the previous result was kept.

^bGroup 1: sum of potentially antiestrogenic and dioxin-like PCB congeners (74 + 118 + 138 + 156 + 170).

^cGroup 2: sum of phenobarbital, CYP1A and CYP2B inducing PCB congeners (99 + 153 + 180 + 183).