Obiective To investigate the association between single nucleotide polymorphisms (SNPs) of ER β gene and susceptibility of breast cancer in Uygur women in Xinjiang.Methods A case-control study was designed to explore the genotypes of Rsa Ⅰ (G/A) of ER β gene,detected by PCR-restriction fragment length polymorphism (PCR-RFLP) assay,in 112 breast cancer cases of Uygur women and 139 medical health cases of Uygur women.The association between SNPs of ER β gene and risk of breast cancer in Uygur women was analyzed by unconditional Logistic regression model.Results The frequencies of genotypes of Rsa Ⅰ (G/A) of ER β gene in cancer group and control group were 83.0 ％ and 17.0 ％,73.4 ％ and 26.6 ％,respectively.Rsa Ⅰ (G/A) locus allele frequency were 91.5 ％ and 8.5 ％,86.7 ％ and 13.3 ％,respectively.There were no statistically differences between the cancer cases and control cases (x2 =3.335,P =0.068.x2 =2.917,P =0.088).Presence of estrogen exposure history of two groups for genotypes distribution were 74.2 ％ and 25.8 ％,86.4 ％ and 13.6 ％,respectively.Any family history of cancer in the two groups for the genotypes distribution were 100 ％ and 0,72.8 ％ and 27.2 ％ respectively.There were statistically significant difference between two groups (P =0.046,P =0.001).Compared with wild-type genotype GG,the GA type with estrogen exposure and without a family history of cancer showed a lower incidence of breast cancer in Uygur women (OR =0.385,95 ％ CI 0.148-0.999.OR =0.285,95 ％ CI 0.134-0.605).Conclusions ER β gene SNP is associated with breast cancer of estrogen exposure and no family history of cancer factors.GA genotype may be a protective factor for Uygur women with breast cancer.

Objective To clarify the effect of iodine intake on serum thyroglobulin (Tg). Methods A 5-year prospective study was conducted in the 3 different iodine intake areas in China [Panshan (miht deficiency) ,Zhangwu (more than adequate) and Huanghua (excess)]. A total of 3 099 people with normal serum levels of Tg in 1999 were followed and 2 448 of these participants were feasible to be observed in 2004 and included in the present study. The serum levels of Tg, thyraglobulin antibody(TgAb), thyroid peroxidase antibody(TPOAb) and TSH, thyroid volume, family and personal histories of thyroid diseases were measured and inquried. The general linear model (GLM) was used to explore the determinants of Tg. Results Among the study population at baseline, serum Tg were significantly different in three areas [7.5 (4.4-13. 1) μg/L at Panshan, 6.8 (3.6-11.2)μg/L at Huanghua, 5.9 (3.2-10.7) μg/L at Zhangwu, P<0.01]. They were associated with age, sex and the rate of positive TgAb, abnormal thyroid volume, abnormal TSH and positive personal history of thyroid diseases, in order to control the effects of confounding factors, the data from 1856 subjects with thyroid-related indexes all in normal range and without personal history of thyroid diseases were analyzed to clarify the effect of iodine intake on Tg. The serum Tg among three areas were significantly different in both 1999 and 2004, they were all increased in 5 years with significant augment (△ Tg) among the three areas[3.1 (-0.2-8.0) μg/L at Panshan, 3.5 (0.5-9.0)μg/L at Huanghua vs 2. 5(0.3-6.1) μg/L at Zhangwu,P<0.01]. The GLM analysis revealed that age, Tg and TSH levels at baseline were the determinants of △Tg in addition to iodine intake. Conclusion Iodine intake is a dominant determinant of serum Tg. Age and TSH should also be considered while indicating iodine intake by serum Tg.