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5. Evaluating approaches for constructing polygenic risk scores for prostate cancer in men of African and European ancestry

Author

Darst, BF, Shen, J, Madduri, RK, Rodriguez, AA, Xiao, Y, Sheng, X, Saunders, EJ, Dadaev, T, Brook, MN, Hoffmann, TJ, Muir, K, Wan, P, Le Marchand, L, Wilkens, L, Wang, Y, Schleutker, J, MacInnis, RJ, Cybulski, C, Neal, DE, Nordestgaard, BG, Nielsen, SF, Batra, J, Clements, JA, Gronberg, H, Pashayan, N, Travis, RC, Park, JY, Albanes, D, Weinstein, S, Mucci, LA, Hunter, DJ, Penney, KL, Tangen, CM, Hamilton, RJ, Parent, M-E, Stanford, JL, Koutros, S, Wolk, A, Sorensen, KD, Blot, WJ, Yeboah, ED, Mensah, JE, Lu, Y-J, Schaid, DJ, Thibodeau, SN, West, CM, Maier, C, Kibel, AS, Cancel-Tassin, G, Menegaux, F, John, EM, Grindedal, EM, Khaw, K-T, Ingles, SA, Vega, A, Rosenstein, BS, Teixeira, MR, Kogevinas, M, Cannon-Albright, L, Huff, C, Multigner, L, Kaneva, R, Leach, RJ, Brenner, H, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Neuhausen, SL, Isaacs, WB, Nemesure, B, Hennis, AJ, Carpten, J, Pandha, H, De Ruyck, K, Xu, J, Razack, A, Teo, S-H, Newcomb, LF, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Castelao, JE, Townsend, PA, Crawford, DC, Petrovics, G, Casey, G, Roobol, MJ, Hu, JF, Berndt, SI, van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Witte, JS, Eeles, RA, Kote-Jarai, Z, Watya, S, Gaziano, JM, Justice, AC, Conti, DV, Haiman, CA, Darst, BF, Shen, J, Madduri, RK, Rodriguez, AA, Xiao, Y, Sheng, X, Saunders, EJ, Dadaev, T, Brook, MN, Hoffmann, TJ, Muir, K, Wan, P, Le Marchand, L, Wilkens, L, Wang, Y, Schleutker, J, MacInnis, RJ, Cybulski, C, Neal, DE, Nordestgaard, BG, Nielsen, SF, Batra, J, Clements, JA, Gronberg, H, Pashayan, N, Travis, RC, Park, JY, Albanes, D, Weinstein, S, Mucci, LA, Hunter, DJ, Penney, KL, Tangen, CM, Hamilton, RJ, Parent, M-E, Stanford, JL, Koutros, S, Wolk, A, Sorensen, KD, Blot, WJ, Yeboah, ED, Mensah, JE, Lu, Y-J, Schaid, DJ, Thibodeau, SN, West, CM, Maier, C, Kibel, AS, Cancel-Tassin, G, Menegaux, F, John, EM, Grindedal, EM, Khaw, K-T, Ingles, SA, Vega, A, Rosenstein, BS, Teixeira, MR, Kogevinas, M, Cannon-Albright, L, Huff, C, Multigner, L, Kaneva, R, Leach, RJ, Brenner, H, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Neuhausen, SL, Isaacs, WB, Nemesure, B, Hennis, AJ, Carpten, J, Pandha, H, De Ruyck, K, Xu, J, Razack, A, Teo, S-H, Newcomb, LF, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Castelao, JE, Townsend, PA, Crawford, DC, Petrovics, G, Casey, G, Roobol, MJ, Hu, JF, Berndt, SI, van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Witte, JS, Eeles, RA, Kote-Jarai, Z, Watya, S, Gaziano, JM, Justice, AC, Conti, DV, and Haiman, CA

Abstract

Genome-wide polygenic risk scores (GW-PRSs) have been reported to have better predictive ability than PRSs based on genome-wide significance thresholds across numerous traits. We compared the predictive ability of several GW-PRS approaches to a recently developed PRS of 269 established prostate cancer-risk variants from multi-ancestry GWASs and fine-mapping studies (PRS269). GW-PRS models were trained with a large and diverse prostate cancer GWAS of 107,247 cases and 127,006 controls that we previously used to develop the multi-ancestry PRS269. Resulting models were independently tested in 1,586 cases and 1,047 controls of African ancestry from the California Uganda Study and 8,046 cases and 191,825 controls of European ancestry from the UK Biobank and further validated in 13,643 cases and 210,214 controls of European ancestry and 6,353 cases and 53,362 controls of African ancestry from the Million Veteran Program. In the testing data, the best performing GW-PRS approach had AUCs of 0.656 (95% CI = 0.635-0.677) in African and 0.844 (95% CI = 0.840-0.848) in European ancestry men and corresponding prostate cancer ORs of 1.83 (95% CI = 1.67-2.00) and 2.19 (95% CI = 2.14-2.25), respectively, for each SD unit increase in the GW-PRS. Compared to the GW-PRS, in African and European ancestry men, the PRS269 had larger or similar AUCs (AUC = 0.679, 95% CI = 0.659-0.700 and AUC = 0.845, 95% CI = 0.841-0.849, respectively) and comparable prostate cancer ORs (OR = 2.05, 95% CI = 1.87-2.26 and OR = 2.21, 95% CI = 2.16-2.26, respectively). Findings were similar in the validation studies. This investigation suggests that current GW-PRS approaches may not improve the ability to predict prostate cancer risk compared to the PRS269 developed from multi-ancestry GWASs and fine-mapping.

Published
2023

6. Characterizing prostate cancer risk through multi-ancestry genome-wide discovery of 187 novel risk variants.

Author

Wang, A, Shen, J, Rodriguez, AA, Saunders, EJ, Chen, F, Janivara, R, Darst, BF, Sheng, X, Xu, Y, Chou, AJ, Benlloch, S, Dadaev, T, Brook, MN, Plym, A, Sahimi, A, Hoffman, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Laisk, T, Figuerêdo, J, Muir, K, Ito, S, Liu, X, Biobank Japan Project, Uchio, Y, Kubo, M, Kamatani, Y, Lophatananon, A, Wan, P, Andrews, C, Lori, A, Choudhury, PP, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Rentsch, CT, Cho, K, Mcmahon, BH, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, A, Stroomberg, HV, Batra, J, Chambers, S, Horvath, L, Clements, JA, Tilly, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, S, Cook, MB, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Koutros, S, Beane Freeman, LE, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Butler, EN, Mohler, JL, Taylor, JA, Kogevinas, M, Dierssen-Sotos, T, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Pilie, P, Yu, Y, Bohlender, RJ, Gu, J, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Brenner, H, Chen, X, Holleczek, B, Schöttker, B, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, CM, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Abraham, A, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, J, Petrovics, G, Casey, G, Wang, Y, Tettey, Y, Lachance, J, Tang, W, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Yamoah, K, Govindasami, K, Chokkalingam, AP, Keaton, JM, Hellwege, JN, Clark, PE, Jalloh, M, Gueye, SM, Niang, L, Ogunbiyi, O, Shittu, O, Amodu, O, Adebiyi, AO, Aisuodionoe-Shadrach, OI, Ajibola, HO, Jamda, MA, Oluwole, OP, Nwegbu, M, Adusei, B, Mante, S, Darkwa-Abrahams, A, Diop, H, Gundell, SM, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Kachuri, L, Varma, R, McKean-Cowdin, R, Torres, M, Preuss, MH, Loos, RJF, Zawistowski, M, Zöllner, S, Lu, Z, Van Den Eeden, SK, Easton, DF, Ambs, S, Edwards, TL, Mägi, R, Rebbeck, TR, Fritsche, L, Chanock, SJ, Berndt, SI, Wiklund, F, Nakagawa, H, Witte, JS, Gaziano, JM, Justice, AC, Mancuso, N, Terao, C, Eeles, RA, Kote-Jarai, Z, Madduri, RK, Conti, DV, Haiman, CA, Wang, A, Shen, J, Rodriguez, AA, Saunders, EJ, Chen, F, Janivara, R, Darst, BF, Sheng, X, Xu, Y, Chou, AJ, Benlloch, S, Dadaev, T, Brook, MN, Plym, A, Sahimi, A, Hoffman, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Laisk, T, Figuerêdo, J, Muir, K, Ito, S, Liu, X, Biobank Japan Project, Uchio, Y, Kubo, M, Kamatani, Y, Lophatananon, A, Wan, P, Andrews, C, Lori, A, Choudhury, PP, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Rentsch, CT, Cho, K, Mcmahon, BH, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, A, Stroomberg, HV, Batra, J, Chambers, S, Horvath, L, Clements, JA, Tilly, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, S, Cook, MB, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Koutros, S, Beane Freeman, LE, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Butler, EN, Mohler, JL, Taylor, JA, Kogevinas, M, Dierssen-Sotos, T, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Pilie, P, Yu, Y, Bohlender, RJ, Gu, J, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Brenner, H, Chen, X, Holleczek, B, Schöttker, B, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, CM, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Abraham, A, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, J, Petrovics, G, Casey, G, Wang, Y, Tettey, Y, Lachance, J, Tang, W, Biritwum, RB, Adjei, AA, Tay, E, Truelove, A, Niwa, S, Yamoah, K, Govindasami, K, Chokkalingam, AP, Keaton, JM, Hellwege, JN, Clark, PE, Jalloh, M, Gueye, SM, Niang, L, Ogunbiyi, O, Shittu, O, Amodu, O, Adebiyi, AO, Aisuodionoe-Shadrach, OI, Ajibola, HO, Jamda, MA, Oluwole, OP, Nwegbu, M, Adusei, B, Mante, S, Darkwa-Abrahams, A, Diop, H, Gundell, SM, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Kachuri, L, Varma, R, McKean-Cowdin, R, Torres, M, Preuss, MH, Loos, RJF, Zawistowski, M, Zöllner, S, Lu, Z, Van Den Eeden, SK, Easton, DF, Ambs, S, Edwards, TL, Mägi, R, Rebbeck, TR, Fritsche, L, Chanock, SJ, Berndt, SI, Wiklund, F, Nakagawa, H, Witte, JS, Gaziano, JM, Justice, AC, Mancuso, N, Terao, C, Eeles, RA, Kote-Jarai, Z, Madduri, RK, Conti, DV, and Haiman, CA

Abstract

The transferability and clinical value of genetic risk scores (GRSs) across populations remain limited due to an imbalance in genetic studies across ancestrally diverse populations. Here we conducted a multi-ancestry genome-wide association study of 156,319 prostate cancer cases and 788,443 controls of European, African, Asian and Hispanic men, reflecting a 57% increase in the number of non-European cases over previous prostate cancer genome-wide association studies. We identified 187 novel risk variants for prostate cancer, increasing the total number of risk variants to 451. An externally replicated multi-ancestry GRS was associated with risk that ranged from 1.8 (per standard deviation) in African ancestry men to 2.2 in European ancestry men. The GRS was associated with a greater risk of aggressive versus non-aggressive disease in men of African ancestry (P = 0.03). Our study presents novel prostate cancer susceptibility loci and a GRS with effective risk stratification across ancestry groups.

Published
2023

7. Serum persistent organic pollutants and diminished ovarian reserve: a single-exposure and mixture exposure approach from a French case–control study

Author

Génard-Walton, M, primary, Warembourg, C, additional, Duros, S, additional, Mercier, F, additional, Lefebvre, T, additional, Guivarc’h-Levêque, A, additional, Le Martelot, M -T, additional, Le Bot, B, additional, Jacquemin, B, additional, Chevrier, C, additional, Cordier, S, additional, Costet, N, additional, Multigner, L, additional, and Garlantézec, R, additional

Published
2023
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8. 148 - Co-exposition prénatale au Zika et au plomb et développement à 18 mois [Communication]

Author

Muckle, G., Quénel, Philippe, Michineau, L., Tressieres, B., Hoen, B., Chevrier, C., Multigner, L., Cordier, S., Kadawathagedara, M., CHU de Québec–Université Laval, Université Laval [Québec] (ULaval), Institut de recherche en santé, environnement et travail (Irset), Université d'Angers (UA)-Université de Rennes (UR)-École des Hautes Études en Santé Publique [EHESP] (EHESP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), and École des Hautes Études en Santé Publique [EHESP] (EHESP)

Subjects
Zika, Effets délétères, [SDV.SPEE]Life Sciences [q-bio]/Santé publique et épidémiologie, Exposition prénatale au plomb (EPP)
Abstract

International audience; Contexte : L'exposition prénatale au plomb (EPP) est connue pour ses effets neurotoxiques sur le fœtus. Certaines infections virales pouvant avoir un tropisme pour le système nerveux central, notre objectif est d’étudier si les effets de l'EPP sur le développement de l'enfant à l’âge de 18 mois sont modifiés par la survenue d'une infection maternelle par le virus Zika (ZIKV) pendant la grossesse. Méthodes : Durant l’épidémie de ZIKV en Guadeloupe en 2016, dans une cohorte de femme enceintes, des prélèvements de sang (grossesse, accouchement et cordon) (n=297) ont permis de doser la plombémie chez la mère et de déterminer sa possible infection lors de la grossesse (statut ZIKV + versus -). Le « Âges and Stages Questionnaire» (ASQ) passé à 18 mois a permis de générer des scores de développement global, motricité fine et globale, communication, résolution de problèmes, aptitudes individuelles et sociales. Les scores d'hyperactivité, opposition, inattention et agressivité physique sont issus de l’étude Québécoise ELDEQ. Les associations ont été testées par des régressions linéaires multivariées. Résultats : L'EPP est associée à des scores ASQ inférieurs quel que soit le statut ZIKV (p-interaction >0,20) pour l'ASQ total, motricité fine et résolution de problème. Une interaction significative entre l'EPP et le statut ZIKV a été observée avec un score inférieur d'aptitude sociale chez les ZIKA (-) uniquement. L'EPP n'est pas associée aux scores comportementaux, cependant des interactions sont significatives entre l'EPP et le statut ZIKV pour les scores d'hyperactivité et d'inattention: une augmentation monotone du score d'hyperactivité est observée chez les femmes ZIKA (+), alors qu'une relation non monotone est observée pour le score d'inattention chez les femmes ZIKA (-). Discussion/Conclusion :Notre étude confirme les effets délétères de l'EPP à faible dose, et suggère une interaction entre l'EPP et l'infection par ZIKV sur les scores d'aptitude sociale, d'hyperactivité et d'inattention. Déclaration de liens d'intérêts Les auteurs déclarent ne pas avoir de liens d'intérêts.

Published
2022
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9. Prostate cancer risk stratification improvement across multiple ancestries with new polygenic hazard score

Author

Minh-Phuong, H-L, Karunamuni, R, Fan, CC, Asona, L, Thompson, WK, Martinez, ME, Eeles, RA, Kote-Jarai, Z, Muir, KR, Lophatananon, A, Schleutker, J, Pashayan, N, Batra, J, Groenberg, H, Neal, DE, Nordestgaard, BG, Tangen, CM, MacInnis, RJ, Wolk, A, Albanes, D, Haiman, CA, Travis, RC, Blot, WJ, Stanford, JL, Mucci, LA, West, CML, Nielsen, SF, Kibel, AS, Cussenot, O, Berndt, S, Koutros, S, Sorensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Rosenstein, BS, Lu, Y-J, Watya, S, Vega, A, Kogevinas, M, Wiklund, F, Penney, KL, Huff, CD, Teixeira, MR, Multigner, L, Leach, RJ, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Ost, P, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Abraham, A, Claessens, F, Castelao, JE, Townsend, PA, Crawford, DC, Petrovics, G, van Schaik, RHN, Parent, M-E, Hu, JJ, Zheng, W, Mills, IG, Andreassen, OA, Dale, AM, Seibert, TM, Minh-Phuong, H-L, Karunamuni, R, Fan, CC, Asona, L, Thompson, WK, Martinez, ME, Eeles, RA, Kote-Jarai, Z, Muir, KR, Lophatananon, A, Schleutker, J, Pashayan, N, Batra, J, Groenberg, H, Neal, DE, Nordestgaard, BG, Tangen, CM, MacInnis, RJ, Wolk, A, Albanes, D, Haiman, CA, Travis, RC, Blot, WJ, Stanford, JL, Mucci, LA, West, CML, Nielsen, SF, Kibel, AS, Cussenot, O, Berndt, S, Koutros, S, Sorensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Rosenstein, BS, Lu, Y-J, Watya, S, Vega, A, Kogevinas, M, Wiklund, F, Penney, KL, Huff, CD, Teixeira, MR, Multigner, L, Leach, RJ, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Ost, P, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Abraham, A, Claessens, F, Castelao, JE, Townsend, PA, Crawford, DC, Petrovics, G, van Schaik, RHN, Parent, M-E, Hu, JJ, Zheng, W, Mills, IG, Andreassen, OA, Dale, AM, and Seibert, TM

Abstract

BACKGROUND: Prostate cancer risk stratification using single-nucleotide polymorphisms (SNPs) demonstrates considerable promise in men of European, Asian, and African genetic ancestries, but there is still need for increased accuracy. We evaluated whether including additional SNPs in a prostate cancer polygenic hazard score (PHS) would improve associations with clinically significant prostate cancer in multi-ancestry datasets. METHODS: In total, 299 SNPs previously associated with prostate cancer were evaluated for inclusion in a new PHS, using a LASSO-regularized Cox proportional hazards model in a training dataset of 72,181 men from the PRACTICAL Consortium. The PHS model was evaluated in four testing datasets: African ancestry, Asian ancestry, and two of European Ancestry-the Cohort of Swedish Men (COSM) and the ProtecT study. Hazard ratios (HRs) were estimated to compare men with high versus low PHS for association with clinically significant, with any, and with fatal prostate cancer. The impact of genetic risk stratification on the positive predictive value (PPV) of PSA testing for clinically significant prostate cancer was also measured. RESULTS: The final model (PHS290) had 290 SNPs with non-zero coefficients. Comparing, for example, the highest and lowest quintiles of PHS290, the hazard ratios (HRs) for clinically significant prostate cancer were 13.73 [95% CI: 12.43-15.16] in ProtecT, 7.07 [6.58-7.60] in African ancestry, 10.31 [9.58-11.11] in Asian ancestry, and 11.18 [10.34-12.09] in COSM. Similar results were seen for association with any and fatal prostate cancer. Without PHS stratification, the PPV of PSA testing for clinically significant prostate cancer in ProtecT was 0.12 (0.11-0.14). For the top 20% and top 5% of PHS290, the PPV of PSA testing was 0.19 (0.15-0.22) and 0.26 (0.19-0.33), respectively. CONCLUSIONS: We demonstrate better genetic risk stratification for clinically significant prostate cancer than prior versions of PHS in multi-ancestry d

Published
2022

12. Medical and sociodemographic risk factors for preterm birth in a French Caribbean population of African descent

Author

Rouget, F., Lebreton, J., Kadhel, P., Monfort, C., Bodeau-Livinec, F., Janky, E., Multigner, L., and Cordier, S.

Subjects
Economic aspects, Social aspects, Research, Risk factors, Health aspects, Social class -- Health aspects -- Research, Premature birth -- Risk factors -- Economic aspects -- Social aspects -- Research, Social classes -- Health aspects -- Research
Abstract

Introduction The population of Guadeloupe, a French Caribbean Archipelago, is largely of African descent. The French National Perinatal survey, conducted periodically on a representative sample of births, reported a prevalence [...], There appears to be an incompressible high rate of preterm births among populations of African origin irrespective of their geographic location. The objective of this study was to assess the risk factors for preterm birth in a French Caribbean population of African descent, offered medical care comparable to that on the French mainland, but presenting a higher rate of preterm birth. The study was based on a birth cohort at maternity hospitals in Guadeloupe (French West Indies) including 911 singleton pregnancies enrolled during their third trimester check-up visits. Associations between risk factors and the risk of preterm delivery (spontaneous and induced) were assessed using a multivariate Cox model. In addition, prevalences of sociodemographic and medical factors in Guadeloupe were compared with those on the French mainland. 144 women (15.8%) delivered preterm, medically induced in 52%. Women delivering preterm were more often over 35 years old (37%), single (54%), and had higher prevalence of prior preterm birth (20%), prior miscarriage (37%), lupus (3%), asthma (14%), gestational hypertension (26%), gestational diabetes (13%) and urinary tract infection (24%) than women with term births. In the whole cohort, these risk factors were also more frequent than in mainland France. Our results suggest highly prevalent medical risk factors for preterm births in Guadeloupe. This observation combined with specific social risk factors (older maternal age, single living) less frequent on the French mainland probably explains a large part of a higher prevalence of preterm births in this population despite similar medical provision. Keywords Preterm birth * Induced preterm birth * Spontaneous preterm birth * Caribbean * Risk factor

Published
2013
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15. Declining Sperm Count [with Reply]

Author

De Mouzon, Jacques, Thonneau, P., Spira, A., Multigner, L., Eccersley, A. J. P., Farrow, Stephen, Keiding, Niels, Skakkebaek, Niels E., Joffe, Michael, Raab, Gillian, Dally, Ann, Hendry, Bill, Irvine, Stewart, Cawood, Elizabeth, and Aitken, John

Published
1996

18. Polygenic hazard score is associated with prostate cancer in multi-ethnic populations

Author

Huynh-Le, M.-P. (Minh-Phuong), Fan, C.C. (Chun Chieh), Karunamuni, R. (Roshan), Thompson, W.K. (Wesley K.), Martinez, M.E. (Maria Elena), Eeles, R. (Rosalind), Kote-Jarai, Z., Muir, K. (Kenneth), Schleutker, J. (Johanna), Pashayan, N. (Nora), Batra, J. (Jyotsna), Grönberg, H. (Henrik), Neal, D.E. (David E.), Donovan, J.L. (Jenny L.), Hamdy, F.C. (Freddie C.), Martin, R.M. (Richard M.), Nielsen, S.F. (Sune F.), Nordestgaard, B.G. (Børge), Wiklund, F. (Fredrik), Tangen, C.M. (Catherine M.), Giles, G.G. (Graham G.), Wolk, K. (Kerstin), Albanes, D. (Demetrius), Travis, S.P.L. (Simon), Blot, W.J. (William), Zheng, W. (Wei), Sanderson, M. (Maureen), Stanford, J.L. (Janet L.), Mucci, L.A. (Lorelei A.), West, C.M.L. (Catharine M. L.), Kibel, A. (Adam), Cussenot, O. (Olivier), Berndt, S.I. (Sonja), Koutros, S. (Stella), Sørensen, K.D. (Karina Dalsgaard), Cybulski, C. (Cezary), Grindedal, E.M. (Eli Marie), Menegaux, F. (Florence), Khaw, K.-T. (Kay-Tee), Park, J.Y. (Jong Y.), Ingles, S.A. (Sue), Maier, C. (Christiane), Hamilton, R.J. (Robert J.), Thibodeau, S.N. (Stephen), Rosenstein, B.S. (Barry S.), Lu, Y.-J. (Yong-Jie), Watya, S. (Stephen), Vega, A. (Ana), Kogevinas, M. (Manolis), Penney, K.L. (Kathryn L.), Huff, C. (Chad), Teixeira, M.R. (Manuel R.), Multigner, L. (Luc), Leach, R.J. (Robin J.), Cannon-Albright, L.A. (Lisa), Brenner, H. (Hermann), John, E.M. (Esther), Kaneva, R. (Radka), Logothetis, N.K. (Nikos), Floris, O.A.M., De Ruyck, K. (Kim), Pandha, H. (Hardev), Razack, A. (Azad), Newcomb, L.F. (Lisa F.), Fowke, J.H. (Jay H.), Gamulin, M. (Marija), Usmani, N. (Nawaid), Claessens, F. (Frank), Gago-Dominguez, M. (Manuela), Townsend, P.A. (Paul A.), Bush, W.S. (William S.), Roobol-Bouts, M.J. (Monique), Parent, M.-É. (Marie-Élise), Hu, J.J. (Jennifer J.), Mills, I.G. (Ian G.), Andreassen, O.A. (Ole), Dale, A.M. (Anders), Seibert, T.M. (Tyler M.), Huynh-Le, M.-P. (Minh-Phuong), Fan, C.C. (Chun Chieh), Karunamuni, R. (Roshan), Thompson, W.K. (Wesley K.), Martinez, M.E. (Maria Elena), Eeles, R. (Rosalind), Kote-Jarai, Z., Muir, K. (Kenneth), Schleutker, J. (Johanna), Pashayan, N. (Nora), Batra, J. (Jyotsna), Grönberg, H. (Henrik), Neal, D.E. (David E.), Donovan, J.L. (Jenny L.), Hamdy, F.C. (Freddie C.), Martin, R.M. (Richard M.), Nielsen, S.F. (Sune F.), Nordestgaard, B.G. (Børge), Wiklund, F. (Fredrik), Tangen, C.M. (Catherine M.), Giles, G.G. (Graham G.), Wolk, K. (Kerstin), Albanes, D. (Demetrius), Travis, S.P.L. (Simon), Blot, W.J. (William), Zheng, W. (Wei), Sanderson, M. (Maureen), Stanford, J.L. (Janet L.), Mucci, L.A. (Lorelei A.), West, C.M.L. (Catharine M. L.), Kibel, A. (Adam), Cussenot, O. (Olivier), Berndt, S.I. (Sonja), Koutros, S. (Stella), Sørensen, K.D. (Karina Dalsgaard), Cybulski, C. (Cezary), Grindedal, E.M. (Eli Marie), Menegaux, F. (Florence), Khaw, K.-T. (Kay-Tee), Park, J.Y. (Jong Y.), Ingles, S.A. (Sue), Maier, C. (Christiane), Hamilton, R.J. (Robert J.), Thibodeau, S.N. (Stephen), Rosenstein, B.S. (Barry S.), Lu, Y.-J. (Yong-Jie), Watya, S. (Stephen), Vega, A. (Ana), Kogevinas, M. (Manolis), Penney, K.L. (Kathryn L.), Huff, C. (Chad), Teixeira, M.R. (Manuel R.), Multigner, L. (Luc), Leach, R.J. (Robin J.), Cannon-Albright, L.A. (Lisa), Brenner, H. (Hermann), John, E.M. (Esther), Kaneva, R. (Radka), Logothetis, N.K. (Nikos), Floris, O.A.M., De Ruyck, K. (Kim), Pandha, H. (Hardev), Razack, A. (Azad), Newcomb, L.F. (Lisa F.), Fowke, J.H. (Jay H.), Gamulin, M. (Marija), Usmani, N. (Nawaid), Claessens, F. (Frank), Gago-Dominguez, M. (Manuela), Townsend, P.A. (Paul A.), Bush, W.S. (William S.), Roobol-Bouts, M.J. (Monique), Parent, M.-É. (Marie-Élise), Hu, J.J. (Jennifer J.), Mills, I.G. (Ian G.), Andreassen, O.A. (Ole), Dale, A.M. (Anders), and Seibert, T.M. (Tyler M.)

Abstract

Genetic models for cancer have been evaluated using almost exclusively European data, which could exacerbate health disparities. A polygenic hazard score (PHS1) is associated with age at prostate cancer diagnosis and improves screening accuracy in Europeans. Here, we evaluate performance of PHS2 (PHS1, adapted for OncoArray) in a multi-ethnic dataset of 80,491 men (49,916 cases, 30,575 controls). PHS2 is associated with age at diagnosis of any and aggressive (Gleason score ≥ 7, stage T3-T4, PSA ≥ 10 ng/mL, or nodal/distant metastasis) cancer and prostate-cancer-specific death. Associations with cancer are significant within European (n = 71,856), Asian (n = 2,382), and African (n = 6,253) genetic ancestries (p < 10−180). Comparing the 80th/20th PHS2 percentiles, hazard ratios for prostate cancer, aggressive cancer, and prostate-cancer-specific death are 5.32, 5.88, and 5.68, respectively. Within European, Asian, and African ancestries, hazard ratios for prostate cancer are: 5.54, 4.49, and 2.54, respectively. PHS2 risk-stratifies men f

Published
2021
Full Text
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19. Polygenic hazard score is associated with prostate cancer in multi-ethnic populations.

Author

Huynh-Le M.-P., Fan C.C., Karunamuni R., Thompson W.K., Martinez M.E., Eeles R.A., Kote-Jarai Z., Muir K., Schleutker J., Pashayan N., Batra J., Gronberg H., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nielsen S.F., Nordestgaard B.G., Wiklund F., Tangen C.M., Giles G.G., Wolk A., Albanes D., Travis R.C., Blot W.J., Zheng W., Sanderson M., Stanford J.L., Mucci L.A., West C.M.L., Kibel A.S., Cussenot O., Berndt S.I., Koutros S., Sorensen K.D., Cybulski C., Grindedal E.M., Menegaux F., Khaw K.-T., Park J.Y., Ingles S.A., Maier C., Hamilton R.J., Thibodeau S.N., Rosenstein B.S., Lu Y.-J., Watya S., Vega A., Kogevinas M., Penney K.L., Huff C., Teixeira M.R., Multigner L., Leach R.J., Cannon-Albright L., Brenner H., John E.M., Kaneva R., Logothetis C.J., Neuhausen S.L., De Ruyck K., Pandha H., Razack A., Newcomb L.F., Fowke J.H., Gamulin M., Usmani N., Claessens F., Gago-Dominguez M., Townsend P.A., Bush W.S., Roobol M.J., Parent M.-E., Hu J.J., Mills I.G., Andreassen O.A., Dale A.M., Seibert T.M., Huynh-Le M.-P., Fan C.C., Karunamuni R., Thompson W.K., Martinez M.E., Eeles R.A., Kote-Jarai Z., Muir K., Schleutker J., Pashayan N., Batra J., Gronberg H., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nielsen S.F., Nordestgaard B.G., Wiklund F., Tangen C.M., Giles G.G., Wolk A., Albanes D., Travis R.C., Blot W.J., Zheng W., Sanderson M., Stanford J.L., Mucci L.A., West C.M.L., Kibel A.S., Cussenot O., Berndt S.I., Koutros S., Sorensen K.D., Cybulski C., Grindedal E.M., Menegaux F., Khaw K.-T., Park J.Y., Ingles S.A., Maier C., Hamilton R.J., Thibodeau S.N., Rosenstein B.S., Lu Y.-J., Watya S., Vega A., Kogevinas M., Penney K.L., Huff C., Teixeira M.R., Multigner L., Leach R.J., Cannon-Albright L., Brenner H., John E.M., Kaneva R., Logothetis C.J., Neuhausen S.L., De Ruyck K., Pandha H., Razack A., Newcomb L.F., Fowke J.H., Gamulin M., Usmani N., Claessens F., Gago-Dominguez M., Townsend P.A., Bush W.S., Roobol M.J., Parent M.-E., Hu J.J., Mills I.G., Andreassen O.A., Dale A.M., and Seibert T.M.

Abstract

Genetic models for cancer have been evaluated using almost exclusively European data, which could exacerbate health disparities. A polygenic hazard score (PHS1) is associated with age at prostate cancer diagnosis and improves screening accuracy in Europeans. Here, we evaluate performance of PHS2 (PHS1, adapted for OncoArray) in a multi-ethnic dataset of 80,491 men (49,916 cases, 30,575 controls). PHS2 is associated with age at diagnosis of any and aggressive (Gleason score >= 7, stage T3-T4, PSA >= 10 ng/mL, or nodal/distant metastasis) cancer and prostate-cancer-specific death. Associations with cancer are significant within European (n = 71,856), Asian (n = 2,382), and African (n = 6,253) genetic ancestries (p < 10-180). Comparing the 80th/20th PHS2 percentiles, hazard ratios for prostate cancer, aggressive cancer, and prostate-cancer-specific death are 5.32, 5.88, and 5.68, respectively. Within European, Asian, and African ancestries, hazard ratios for prostate cancer are: 5.54, 4.49, and 2.54, respectively. PHS2 risk-stratifies men for any, aggressive, and fatal prostate cancer in a multi-ethnic dataset.Copyright © 2021, The Author(s).

Published
2021

20. Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction (Nature Genetics, (2021), 53, 1, (65-75), 10.1038/s41588-020-00748-0).

Author

Lessel D., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Fujita M., Muir K., Lophatananon A., Wan P., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Thompson I.M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Lessel D., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Fujita M., Muir K., Lophatananon A., Wan P., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Thompson I.M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., and Larkin S.

Abstract

In the version of this article originally published, the names of the equally contributing authors and jointly supervising authors were switched. The correct affiliations are: "These authors contributed equally: David V. Conti, Burcu F. Darst. These authors jointly supervised this work: David V. Conti, Rosalind A. Eeles, Zsofia Kote-Jarai, Christopher A. Haiman." The error has been corrected in the HTML and PDF versions of the article.Copyright © 2021, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published
2021

21. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Thompson I.M., Muir K., Lophatananon A., Wan P., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Lessel D., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Fujita M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., Ingles S.A., Thompson I.M., Muir K., Lophatananon A., Wan P., Stern M.C., Vega A., Gomez-Caamano A., Fachal L., Rosenstein B.S., Kerns S.L., Ostrer H., Teixeira M.R., Paulo P., Brandao A., Watya S., Lubwama A., Bensen J.T., Fontham E.T.H., Mohler J., Taylor J.A., Kogevinas M., Llorca J., Castano-Vinyals G., Cannon-Albright L., Teerlink C.C., Huff C.D., Strom S.S., Multigner L., Blanchet P., Brureau L., Kaneva R., Slavov C., Mitev V., Leach R.J., Weaver B., Brenner H., Cuk K., Holleczek B., Saum K.-U., Klein E.A., Hsing A.W., Kittles R.A., Murphy A.B., Logothetis C.J., Kim J., Neuhausen S.L., Steele L., Ding Y.C., Isaacs W.B., Nemesure B., Hennis A.J.M., Carpten J., Pandha H., Michael A., De Ruyck K., De Meerleer G., Ost P., Xu J., Razack A., Lim J., Teo S.-H., Newcomb L.F., Lin D.W., Fowke J.H., Neslund-Dudas C., Rybicki B.A., Gamulin M., Lessel D., Kulis T., Usmani N., Singhal S., Parliament M., Claessens F., Joniau S., Van den Broeck T., Gago-Dominguez M., Castelao J.E., Martinez M.E., Larkin S., Townsend P.A., Aukim-Hastie C., Bush W.S., Aldrich M.C., Crawford D.C., Srivastava S., Cullen J.C., Petrovics G., Casey G., Roobol M.J., Jenster G., van Schaik R.H.N., Hu J.J., Sanderson M., Varma R., McKean-Cowdin R., Torres M., Mancuso N., Berndt S.I., Van Den Eeden S.K., Easton D.F., Chanock S.J., Cook M.B., Wiklund F., Nakagawa H., Witte J.S., Eeles R.A., Kote-Jarai Z., Haiman C.A., Conti D.V., Darst B.F., Moss L.C., Saunders E.J., Sheng X., Chou A., Schumacher F.R., Olama A.A.A., Benlloch S., Dadaev T., Brook M.N., Sahimi A., Hoffmann T.J., Takahashi A., Matsuda K., Momozawa Y., Le Marchand L., Wilkens L.R., Stevens V.L., Gapstur S.M., Carter B.D., Schleutker J., Tammela T.L.J., Sipeky C., Auvinen A., Giles G.G., Southey M.C., MacInnis R.J., Cybulski C., Wokolorczyk D., Lubinski J., Neal D.E., Donovan J.L., Hamdy F.C., Martin R.M., Nordestgaard B.G., Nielsen S.F., Weischer M., Bojesen S.E., Roder M.A., Iversen P., Batra J., Chambers S., Moya L., Horvath L., Clements J.A., Tilley W., Risbridger G.P., Gronberg H., Aly M., Szulkin R., Eklund M., Nordstrom T., Pashayan N., Dunning A.M., Ghoussaini M., Travis R.C., Key T.J., Riboli E., Park J.Y., Sellers T.A., Lin H.-Y., Albanes D., Weinstein S.J., Mucci L.A., Giovannucci E., Lindstrom S., Kraft P., Hunter D.J., Penney K.L., Turman C., Tangen C.M., Goodman P.J., Fujita M., Hamilton R.J., Fleshner N.E., Finelli A., Parent M.-E., Stanford J.L., Ostrander E.A., Geybels M.S., Koutros S., Freeman L.E.B., Stampfer M., Wolk A., Hakansson N., Andriole G.L., Hoover R.N., Machiela M.J., Sorensen K.D., Borre M., Blot W.J., Zheng W., Yeboah E.D., Mensah J.E., Lu Y.-J., Zhang H.-W., Feng N., Mao X., Wu Y., Zhao S.-C., Sun Z., Thibodeau S.N., McDonnell S.K., Schaid D.J., West C.M.L., Burnet N., Barnett G., Maier C., Schnoeller T., Luedeke M., Kibel A.S., Drake B.F., Cussenot O., Cancel-Tassin G., Menegaux F., Truong T., Koudou Y.A., John E.M., Grindedal E.M., Maehle L., Khaw K.-T., and Ingles S.A.

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.Copyright © 2021, The Author(s), under exclusive licence to Springer Nature America, Inc.

Published
2021

22. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction

Author

Conti, D, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Al Olama, AA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Roder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-E, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Hakansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sorensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gomez-Caamano, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandao, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castano-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, S, Van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Haiman, CA, Conti, D, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Al Olama, AA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokolorczyk, D, Lubinski, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Roder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordstrom, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-E, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Hakansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sorensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gomez-Caamano, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandao, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castano-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, S, Van den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, and Haiman, CA

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.

Published
2021

23. Polygenic hazard score is associated with prostate cancer in multi-ethnic populations

Author

Huynh-Le, M-P, Fan, CC, Karunamuni, R, Thompson, WK, Martinez, ME, Eeles, RA, Kote-Jarai, Z, Muir, K, Schleutker, J, Pashayan, N, Batra, J, Gronberg, H, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nielsen, SF, Nordestgaard, BG, Wiklund, F, Tangen, CM, Giles, GG, Wolk, A, Albanes, D, Travis, RC, Blot, WJ, Zheng, W, Sanderson, M, Stanford, JL, Mucci, LA, West, CML, Kibel, AS, Cussenot, O, Berndt, SI, Koutros, S, Sorensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Khaw, K-T, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Thibodeau, SN, Rosenstein, BS, Lu, Y-J, Watya, S, Vega, A, Kogevinas, M, Penney, KL, Huff, C, Teixeira, MR, Multigner, L, Leach, RJ, Cannon-Albright, L, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Pandha, H, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Townsend, PA, Bush, WS, Roobol, MJ, Parent, M-E, Hu, JJ, Mills, IG, Andreassen, OA, Dale, AM, Seibert, TM, Huynh-Le, M-P, Fan, CC, Karunamuni, R, Thompson, WK, Martinez, ME, Eeles, RA, Kote-Jarai, Z, Muir, K, Schleutker, J, Pashayan, N, Batra, J, Gronberg, H, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nielsen, SF, Nordestgaard, BG, Wiklund, F, Tangen, CM, Giles, GG, Wolk, A, Albanes, D, Travis, RC, Blot, WJ, Zheng, W, Sanderson, M, Stanford, JL, Mucci, LA, West, CML, Kibel, AS, Cussenot, O, Berndt, SI, Koutros, S, Sorensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Khaw, K-T, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Thibodeau, SN, Rosenstein, BS, Lu, Y-J, Watya, S, Vega, A, Kogevinas, M, Penney, KL, Huff, C, Teixeira, MR, Multigner, L, Leach, RJ, Cannon-Albright, L, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Pandha, H, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Townsend, PA, Bush, WS, Roobol, MJ, Parent, M-E, Hu, JJ, Mills, IG, Andreassen, OA, Dale, AM, and Seibert, TM

Abstract

Genetic models for cancer have been evaluated using almost exclusively European data, which could exacerbate health disparities. A polygenic hazard score (PHS1) is associated with age at prostate cancer diagnosis and improves screening accuracy in Europeans. Here, we evaluate performance of PHS2 (PHS1, adapted for OncoArray) in a multi-ethnic dataset of 80,491 men (49,916 cases, 30,575 controls). PHS2 is associated with age at diagnosis of any and aggressive (Gleason score ≥ 7, stage T3-T4, PSA ≥ 10 ng/mL, or nodal/distant metastasis) cancer and prostate-cancer-specific death. Associations with cancer are significant within European (n = 71,856), Asian (n = 2,382), and African (n = 6,253) genetic ancestries (p < 10-180). Comparing the 80th/20th PHS2 percentiles, hazard ratios for prostate cancer, aggressive cancer, and prostate-cancer-specific death are 5.32, 5.88, and 5.68, respectively. Within European, Asian, and African ancestries, hazard ratios for prostate cancer are: 5.54, 4.49, and 2.54, respectively. PHS2 risk-stratifies men for any, aggressive, and fatal prostate cancer in a multi-ethnic dataset.

Published
2021

24. Publisher Correction: Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction

Author

Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Haiman, CA, Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Sahimi, A, Hoffmann, TJ, Takahashi, A, Matsuda, K, Momozawa, Y, Fujita, M, Muir, K, Lophatananon, A, Wan, P, Le Marchand, L, Wilkens, LR, Stevens, VL, Gapstur, SM, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, and Haiman, CA

Abstract

In the version of this article originally published, the names of the equally contributing authors and jointly supervising authors were switched. The correct affiliations are: “These authors contributed equally: David V. Conti, Burcu F. Darst. These authors jointly supervised this work: David V. Conti, Rosalind A. Eeles, Zsofia Kote-Jarai, Christopher A. Haiman.” The error has been corrected in the HTML and PDF versions of the article.

Published
2021

25. Trans-ancestry genome-wide association meta-analysis of prostate cancer identifies new susceptibility loci and informs genetic risk prediction.

Author

Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Sahimi, A, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Hoffmann, TJ, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Takahashi, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Matsuda, K, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Momozawa, Y, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Fujita, M, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Muir, K, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Lophatananon, A, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Wan, P, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Le Marchand, L, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Wilkens, LR, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Stevens, VL, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Gapstur, SM, Haiman, CA, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, Lu, Y-J, Conti, DV, Darst, BF, Moss, LC, Saunders, EJ, Sheng, X, Chou, A, Schumacher, FR, Olama, AAA, Benlloch, S, Dadaev, T, Brook, MN, Zhang, H-W, Feng, N, Mao, X, Wu, Y, Zhao, S-C, Sun, Z, Thibodeau, SN, McDonnell, SK, Schaid, DJ, West, CML, Sahimi, A, Burnet, N, Barnett, G, Maier, C, Schnoeller, T, Luedeke, M, Kibel, AS, Drake, BF, Cussenot, O, Cancel-Tassin, G, Menegaux, F, Hoffmann, TJ, Truong, T, Koudou, YA, John, EM, Grindedal, EM, Maehle, L, Khaw, K-T, Ingles, SA, Stern, MC, Vega, A, Gómez-Caamaño, A, Takahashi, A, Fachal, L, Rosenstein, BS, Kerns, SL, Ostrer, H, Teixeira, MR, Paulo, P, Brandão, A, Watya, S, Lubwama, A, Bensen, JT, Matsuda, K, Fontham, ETH, Mohler, J, Taylor, JA, Kogevinas, M, Llorca, J, Castaño-Vinyals, G, Cannon-Albright, L, Teerlink, CC, Huff, CD, Strom, SS, Momozawa, Y, Multigner, L, Blanchet, P, Brureau, L, Kaneva, R, Slavov, C, Mitev, V, Leach, RJ, Weaver, B, Brenner, H, Cuk, K, Fujita, M, Holleczek, B, Saum, K-U, Klein, EA, Hsing, AW, Kittles, RA, Murphy, AB, Logothetis, CJ, Kim, J, Neuhausen, SL, Steele, L, Muir, K, Ding, YC, Isaacs, WB, Nemesure, B, Hennis, AJM, Carpten, J, Pandha, H, Michael, A, De Ruyck, K, De Meerleer, G, Ost, P, Lophatananon, A, Xu, J, Razack, A, Lim, J, Teo, S-H, Newcomb, LF, Lin, DW, Fowke, JH, Neslund-Dudas, C, Rybicki, BA, Gamulin, M, Wan, P, Lessel, D, Kulis, T, Usmani, N, Singhal, S, Parliament, M, Claessens, F, Joniau, S, Van den Broeck, T, Gago-Dominguez, M, Castelao, JE, Le Marchand, L, Martinez, ME, Larkin, S, Townsend, PA, Aukim-Hastie, C, Bush, WS, Aldrich, MC, Crawford, DC, Srivastava, S, Cullen, JC, Petrovics, G, Wilkens, LR, Casey, G, Roobol, MJ, Jenster, G, van Schaik, RHN, Hu, JJ, Sanderson, M, Varma, R, McKean-Cowdin, R, Torres, M, Mancuso, N, Stevens, VL, Berndt, SI, Van Den Eeden, SK, Easton, DF, Chanock, SJ, Cook, MB, Wiklund, F, Nakagawa, H, Witte, JS, Eeles, RA, Kote-Jarai, Z, Gapstur, SM, Haiman, CA, Carter, BD, Schleutker, J, Tammela, TLJ, Sipeky, C, Auvinen, A, Giles, GG, Southey, MC, MacInnis, RJ, Cybulski, C, Wokołorczyk, D, Lubiński, J, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nordestgaard, BG, Nielsen, SF, Weischer, M, Bojesen, SE, Røder, MA, Iversen, P, Batra, J, Chambers, S, Moya, L, Horvath, L, Clements, JA, Tilley, W, Risbridger, GP, Gronberg, H, Aly, M, Szulkin, R, Eklund, M, Nordström, T, Pashayan, N, Dunning, AM, Ghoussaini, M, Travis, RC, Key, TJ, Riboli, E, Park, JY, Sellers, TA, Lin, H-Y, Albanes, D, Weinstein, SJ, Mucci, LA, Giovannucci, E, Lindstrom, S, Kraft, P, Hunter, DJ, Penney, KL, Turman, C, Tangen, CM, Goodman, PJ, Thompson, IM, Hamilton, RJ, Fleshner, NE, Finelli, A, Parent, M-É, Stanford, JL, Ostrander, EA, Geybels, MS, Koutros, S, Freeman, LEB, Stampfer, M, Wolk, A, Håkansson, N, Andriole, GL, Hoover, RN, Machiela, MJ, Sørensen, KD, Borre, M, Blot, WJ, Zheng, W, Yeboah, ED, Mensah, JE, and Lu, Y-J

Abstract

Prostate cancer is a highly heritable disease with large disparities in incidence rates across ancestry populations. We conducted a multiancestry meta-analysis of prostate cancer genome-wide association studies (107,247 cases and 127,006 controls) and identified 86 new genetic risk variants independently associated with prostate cancer risk, bringing the total to 269 known risk variants. The top genetic risk score (GRS) decile was associated with odds ratios that ranged from 5.06 (95% confidence interval (CI), 4.84-5.29) for men of European ancestry to 3.74 (95% CI, 3.36-4.17) for men of African ancestry. Men of African ancestry were estimated to have a mean GRS that was 2.18-times higher (95% CI, 2.14-2.22), and men of East Asian ancestry 0.73-times lower (95% CI, 0.71-0.76), than men of European ancestry. These findings support the role of germline variation contributing to population differences in prostate cancer risk, with the GRS offering an approach for personalized risk prediction.

Published
2021

26. Polygenic hazard score is associated with prostate cancer in multi-ethnic populations

Author

Huynh-Le, MP, Fan, CC, Karunamuni, R, Thompson, WK, Martinez, M E, Eeles, RA, Kote-Jarai, Z, Muir, K, Schleutker, J, Pashayan, N, Batra, J, Grönberg, H, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nielsen, SF, Nordestgaard, BG, Wiklund, F, Tangen, C M, Giles, GG, Wolk, A, Albanes, D, Travis, RC, Blot, WJ, Zheng, W, Sanderson, M, Stanford, J L, Mucci, LA, West, CML, Kibel, AS, Cussenot, O, Berndt, SI, Koutros, S, Sørensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Khaw, KTH, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Thibodeau, SN, Rosenstein, B S, Lu, YJ, Watya, S, Vega, A, Kogevinas, M, Penney, KL, Huff, C, Teixeira, MR, Multigner, L, Leach, RJ, Cannon-Albright, L, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Pandha, H, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Townsend, PA, Bush, WS, Roobol - Bouts, Monique, Parent, MÉ, Hu, JJ, Mills, IG, Andreassen, OA, Dale, AM, Seibert, TM, Huynh-Le, MP, Fan, CC, Karunamuni, R, Thompson, WK, Martinez, M E, Eeles, RA, Kote-Jarai, Z, Muir, K, Schleutker, J, Pashayan, N, Batra, J, Grönberg, H, Neal, DE, Donovan, JL, Hamdy, FC, Martin, RM, Nielsen, SF, Nordestgaard, BG, Wiklund, F, Tangen, C M, Giles, GG, Wolk, A, Albanes, D, Travis, RC, Blot, WJ, Zheng, W, Sanderson, M, Stanford, J L, Mucci, LA, West, CML, Kibel, AS, Cussenot, O, Berndt, SI, Koutros, S, Sørensen, KD, Cybulski, C, Grindedal, EM, Menegaux, F, Khaw, KTH, Park, JY, Ingles, SA, Maier, C, Hamilton, RJ, Thibodeau, SN, Rosenstein, B S, Lu, YJ, Watya, S, Vega, A, Kogevinas, M, Penney, KL, Huff, C, Teixeira, MR, Multigner, L, Leach, RJ, Cannon-Albright, L, Brenner, H, John, EM, Kaneva, R, Logothetis, CJ, Neuhausen, SL, De Ruyck, K, Pandha, H, Razack, A, Newcomb, LF, Fowke, JH, Gamulin, M, Usmani, N, Claessens, F, Gago-Dominguez, M, Townsend, PA, Bush, WS, Roobol - Bouts, Monique, Parent, MÉ, Hu, JJ, Mills, IG, Andreassen, OA, Dale, AM, and Seibert, TM

Abstract

Genetic models for cancer have been evaluated using almost exclusively European data, which could exacerbate health disparities. A polygenic hazard score (PHS1) is associated with age at prostate cancer diagnosis and improves screening accuracy in Europeans. Here, we evaluate performance of PHS2 (PHS1, adapted for OncoArray) in a multi-ethnic dataset of 80,491 men (49,916 cases, 30,575 controls). PHS2 is associated with age at diagnosis of any and aggressive (Gleason score ≥ 7, stage T3-T4, PSA ≥ 10 ng/mL, or nodal/distant metastasis) cancer and prostate-cancer-specific death. Associations with cancer are significant within European (n = 71,856), Asian (n = 2,382), and African (n = 6,253) genetic ancestries (p < 10−180). Comparing the 80th/20th PHS2 percentiles, hazard ratios for prostate cancer, aggressive cancer, and prostate-cancer-specific death are 5.32, 5.88, and 5.68, respectively. Within European, Asian, and African ancestries, hazard ratios for prostate cancer are: 5.54, 4.49, and 2.54, respectively. PHS2 risk-stratifies men for any, aggressive, and fatal prostate cancer in a multi-ethnic dataset.

Published
2021

31. Prédiction de récidive biologique et de l’envahissement ganglionnaire dans le cancer de prostate : comparaison de la performance des principaux scores prédictifs dans deux populations françaises ethno-géographiques différentes

Author

Kaulanjan, K., primary, Buisset, J., additional, Lecoent, Q., additional, Perrot, E., additional, Carton, M., additional, Multigner, L., additional, Mathieu, R., additional, Villers, A., additional, Blanchet, P., additional, and Brureau, L., additional

Published
2020
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32. Semen quality of young men in Switzerland: a nationwide cross‐sectional population‐based study

Author

Rahban, R, Priskorn, L, Senn, A, Stettler, E, Galli, F, Vargas, J, Van den Bergh, M, Fusconi, A, Garlantezec, R, Jensen, T K, Multigner, L, Skakkebæk, N E, Germond, M, Jørgensen, N, Nef, S, Bouchardy, C, Herrmann, C, Mousavi, M, Bulliard, J‐L, Maspoli, M, Bordoni, A, Konzelmann, I, Blanc‐Moya, R, Rohrmann, S, University of Zurich, and Nef, S

Subjects
2748 Urology, 2712 Endocrinology, Diabetes and Metabolism, 610 Medicine & health, 10060 Epidemiology, Biostatistics and Prevention Institute (EBPI), 2743 Reproductive Medicine, 1310 Endocrinology
Published
2019

36. Maternal occupational exposure to endocrine-disrupting chemicals during pregnancy and semen parameters in adulthood: results of a nationwide cross-sectional study among Swiss conscripts.

Author

Istvan, M, Rahban, R, Dananche, B, Senn, A, Stettler, E, Multigner, L, Nef, S, and Garlantézec, R

Subjects
OCCUPATIONAL exposure, MATERNAL exposure, SEMEN, SEMEN analysis, GENITALIA, RESEARCH, POLLUTANTS, CROSS-sectional method, RESEARCH methodology, MEDICAL cooperation, EVALUATION research, COMPARATIVE studies, JOB Descriptive Index, BIOTIC communities
Abstract

Study Question: Is there a relationship between maternal occupational exposure to endocrine-disrupting chemicals (EDCs) during pregnancy and the semen quality of their sons?Summary Answer: Our results suggest an association between maternal occupational exposure to potential EDCs, especially to pesticides, phthalates and heavy metals, and a decrease in several semen parameters.What Is Known Already: Sexual differentiation, development and proper functioning of the reproductive system are largely dependent on steroid hormones. Although there is some animal evidence, studies on maternal exposure to EDCs during pregnancy and its effect on the semen quality of sons are scarce and none have focused on maternal occupational exposure.Study Design, Size, Duration: A cross-sectional study aiming to evaluate semen quality was carried out among Swiss conscripts aged 18 to 22 years between 2005 and 2017.Participants/materials, Setting, Methods: Conscript and parent questionnaires were completed prior to the collection of a semen sample. Semen parameters were categorised according to the guidelines of the World Health Organization (WHO). Data on maternal employment during pregnancy were provided by the parent questionnaire. Maternal occupational exposure to potential EDC categories was defined using a job-exposure matrix (JEM). Logistic regressions were used to analyse the relationship between maternal occupational exposure to EDCs and each semen parameter adjusted for potential confounding factors. Results are presented using odds ratios and 95% confidence intervals.Main Results and the Role Of Chance: In total, 1,737 conscripts provided a conscript and parent questionnaire, as well as a semen sample; among these 1,045 of their mothers worked during pregnancy. Our study suggests an association between occupational exposure of mothers during pregnancy to potential EDCs and low semen volume and total sperm count, particularly for exposure to pesticides (OR 2.07, 95% CI 1.11-3.86 and OR 2.14, 95% CI 1.05-4.35), phthalates (OR 1.92, 95% CI 1.10-3.37 and OR 1.89, 95% CI 1.01-3.55), and heavy metals (OR 2.02, 95% CI 1.14-3.60 and OR 2.29, 95% CI 1.21-4.35). Maternal occupational exposure to heavy metals was additionally associated with a low sperm concentration (OR 1.89, 95% CI 1.06-3.37).Limitations, Reasons For Caution: Several limitations should be noted, such as the indirect method for maternal occupational exposure assessment during the pregnancy (JEM) and the cross-sectional design of the study.Wider Implications Of the Findings: Our observations reinforce the need to inform pregnant women of potential hazards during pregnancy that could impair their child's fertility. Additional studies are needed to confirm the involvement of EDCs.Study Funding/competing Interest(s): This work was supported by the Swiss Centre for Applied Human Toxicology: SCAHT and the 'Fondation privée des Hôpitaux Universitaires de Genève'. The collection of human biological material used for this study was supported by the FABER Foundation, the Swiss National Science Foundation (SNSF): NFP 50 'Endocrine Disruptors: Relevance to Humans, Animals and Ecosystems', the Medical Services of the Swiss Army (DDPS) and Medisupport. The authors declare they have no competing financial interests.Trial Registration Number: N/A. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
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38. Semen quality of young men in Switzerland:a nationwide cross-sectional population-based study

Author

Rahban, R., Priskorn, L., Senn, A., Stettler, E., Galli, F., Vargas, J., Van den Bergh, M., Fusconi, A., Garlantezec, R., Jensen, T. K., Multigner, L., Skakkebæk, N. E., Germond, M., Jørgensen, N., Nef, S., Rahban, R., Priskorn, L., Senn, A., Stettler, E., Galli, F., Vargas, J., Van den Bergh, M., Fusconi, A., Garlantezec, R., Jensen, T. K., Multigner, L., Skakkebæk, N. E., Germond, M., Jørgensen, N., and Nef, S.

Published
2019

42. Semen quality of young men in Switzerland: a nationwide cross‐sectional population‐based study.

Author

Rahban, R., Priskorn, L., Senn, A., Stettler, E., Galli, F., Vargas, J., Van den Bergh, M., Fusconi, A., Garlantezec, R., Jensen, T. K., Multigner, L., Skakkebæk, N. E., Germond, M., Jørgensen, N., Nef, S., Bouchardy, C., Herrmann, C., Mousavi, M., Bulliard, J.‐L., and Maspoli, M.

Subjects
SEMEN analysis, YOUNG men, MALE reproductive health, DRAFT (Military service), CROSS-sectional method
Abstract

Background: Sperm counts have been steadily decreasing over the past five decades with regional differences in the Western world. The reasons behind these trends are complex, but numerous insights indicate that environmental and lifestyle factors are important players. Objective: To evaluate semen quality and male reproductive health in Switzerland. Materials and methods: A nationwide cross‐sectional study was conducted on 2523 young men coming from all regions of Switzerland, recruited during military conscription. Semen volume, sperm concentration, motility, and morphology were analyzed. Anatomy of the genital area and testicular volume was recorded. Testicular cancer incidence rates in the general population were retrieved from Swiss regional registries. Results: Median sperm concentration adjusted for period of sexual abstinence was 48 million/mL. Comparing with the 5th percentile of the WHO reference values for fertile men, 17% of men had sperm concentration below 15 million/mL, 25% had less than 40% motile spermatozoa, and 43% had less than 4% normal forms. Disparities in semen quality among geographic regions, urbanization rates, and linguistic areas were limited. A larger proportion of men with poor semen quality had been exposed in utero to maternal smoking. Furthermore, testicular cancer incidence rates in the Swiss general population increased significantly between 1980 and 2014. Discussion: For the first time, a systematic sampling among young men has confirmed that semen quality is affected on a national level. The median sperm concentration measured is among the lowest observed in Europe. No specific geographical differences could be identified. Further studies are needed to determine to what extent the fertility of Swiss men is compromised and to evaluate the impact of environmental and lifestyle factors. Conclusion: A significant proportion of Swiss young men display suboptimal semen quality with only 38% having sperm concentration, motility, and morphology values that met WHO semen reference criteria. [ABSTRACT FROM AUTHOR]

Published
2019
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43. Composition en acides gras du tissu adipeux périprostatique : association à l’agressivité tumorale et à l’origine ethno-géographique (réseau ReSCaP)

Author

Fromont, G., primary, Figiel, S., additional, Maheo, K., additional, Pinault, M., additional, Blanchet, P., additional, Multigner, L., additional, Bruyere, F., additional, Mathieu, R., additional, Vincendeau, S., additional, Lebdai, S., additional, Azzouzi, A., additional, Perrouin-verbe, M., additional, Fournier, G., additional, Rigaud, J., additional, and Charles, T., additional

Published
2016
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50. Environnement et déclin de la qualité du sperme. Evolution chez l'étalon au cours des deux dernières décennies

Author

Multigner, L., Magistrini, Michèle, Ducot, B., Spira, Agathe, Physiologie de la reproduction et des comportements [Nouzilly] (PRC), Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours-Centre National de la Recherche Scientifique (CNRS), Institut National de la Recherche Agronomique (INRA)-Institut Français du Cheval et de l'Equitation [Saumur]-Université de Tours (UT)-Centre National de la Recherche Scientifique (CNRS), and ProdInra, Migration

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], [INFO]Computer Science [cs], [INFO] Computer Science [cs], ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
2000

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