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SUMMARY OBJECTIVE: The aim of this study was to assess the rate of repeated pregnancy in adolescence and its association with early marriage and education level. METHODS: This is a cross-sectional study conducted by searching the Live Births Data System. The study included all adolescents in the age group 10–19 years with live births from 2015 to 2019 (n=2,405,248), divided into three groups: G1: primiparas; G2: with 1 previous pregnancy; and G3: with two or more previous pregnancies. RESULTS: Total repeated pregnancies remained stable, along the years. In the age group 10–14 years, the decrease in the period was from 5.0 to 4.7%, whereas in the age group 15–19 years, it was from 27.8 to 27.3%. Being married or in a stable union increases by 96% the chance of repeated pregnancy in the age group 10–14 years (p<0.001; OR=1.96; 95% confidence interval [CI] 1.85–2.09). In the age group 15–19 years, the chance of repeated pregnancy among the married or in stable union increased 40% (p<0.001; OR=1.40; 95%CI 1.39–1.41)). Girls aged 10–14 years with an education level of<8 years had a 64% higher chance of repeated pregnancy (p<0.001; OR=1.64; 95%CI 1.53–1.75), and among those aged 15–19 years, there was a 137% higher chance of repeated pregnancy (p<0.001; OR=2.37; 95%CI 2.35–2.38). CONCLUSION: Repeated pregnancy in adolescence in Brazil remains very high over the years. There is an association between low education level and early marriage with repeated pregnancies in adolescence. OBJECTIVE METHODS crosssectional cross sectional System 1019 10 19 10–1 201 n=2,405,248, n2405248 n n=2,405,248 , 2 405 248 (n=2,405,248) groups G1 G primiparas G2 G3 RESULTS 1014 14 50 5 0 5. 47 4 7 4.7% 1519 15 15–1 278 27 8 27. 273 3 27.3% 96 p<0.001 p0001 p 001 (p<0.001 OR=1.96 OR196 OR 95 CI [CI 1.85–2.09. 185209 1.85–2.09 . 85 09 1.85–2.09) 40 OR=1.40 OR140 95CI 1.39–1.41. 139141 1.39–1.41 39 41 1.39–1.41)) of8 of< 64 OR=1.64 OR164 1.53–1.75, 153175 1.53–1.75 53 75 1.53–1.75) 137 OR=2.37 OR237 37 2.35–2.38. 235238 2.35–2.38 35 38 2.35–2.38) CONCLUSION 101 10– 20 n240524 n=2,405,24 24 (n=2,405,248 4.7 151 15– 27.3 9 p<0.00 p000 00 (p<0.00 OR=1.9 OR19 18520 1.85–2.0 OR=1.4 OR14 13914 1.39–1.4 1.39–1.41) 6 OR=1.6 OR16 15317 1.53–1.7 13 OR=2.3 OR23 23523 2.35–2.3 n24052 n=2,405,2 (n=2,405,24 4. p<0.0 p00 (p<0.0 OR=1. OR1 1852 1.85–2. 1391 1.39–1. 1531 1.53–1. OR=2. OR2 2352 2.35–2. n2405 n=2,405, (n=2,405,2 p<0. p0 (p<0. OR=1 185 1.85–2 139 1.39–1 153 1.53–1 OR=2 235 2.35–2 n240 n=2,405 (n=2,405, p<0 (p<0 OR= 18 1.85– 1.39– 1.53– 23 2.35– n24 n=2,40 (n=2,405 p< (p< 1.85 1.39 1.53 2.35 n2 n=2,4 (n=2,40 (p 1.8 1.3 1.5 2.3 n=2, (n=2,4 1. 2. n=2 (n=2, n= (n=2 (n= (n