Genetic correction of PSA values using sequence variants associated with PSA levels.

Item does not contain fulltext Measuring serum levels of the prostate-specific antigen (PSA) is the most common screening method for prostate cancer. However, PSA levels are affected by a number of factors apart from neoplasia. Notably, around 40% of the variability of PSA levels in the general popu...

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Main Authors:	Gudmundsson, J., Besenbacher, S., Sulem, P., Gudbjartsson, D.F., Olafsson, I., Arinbjarnarson, S., Agnarsson, B.A., Benediktsdottir, K.R., Isaksson, H.J., Kostic, J.P., Gudjonsson, S.A., Stacey, S.N., Gylfason, A, Sigurdsson, A., Holm, H., Bjornsdottir, U.S., Eyjolfsson, G.I., Navarrete, S., Fuertes, F., Garcia-Prats, M.D., Polo, E., Checherita, I.A., Jinga, M., Badea, P., Aben, K.K.H., Schalken, J.A., Oort, I.M. van, Sweep, C.G.J., Helfand, B.T., Davis, M., Donovan, J.L., Hamdy, F.C., Kristjansson, K., Gulcher, J.R., Masson, G., Kong, A., Catalona, W.J., Mayordomo, J.I., Geirsson, G., Einarsson, G.V., Barkardottir, R.B., Jonsson, E., Jinga, V., Mates, D., Kiemeney, L.A.L.M., Neal, D.E., Thorsteinsdottir, U., Rafnar, T., Stefansson, K.
Format:	Article in Journal/Newspaper
Language:	unknown
Published:	2010
Subjects:	IGMD 6: Hormonal regulation NCEBP 1: Molecular epidemiology NCEBP 2: Evaluation of complex medical interventions ONCOL 5: Aetiology screening and detection Iceland
Online Access:	http://hdl.handle.net/2066/88521

id	ftunivnijmegen:oai:repository.ubn.ru.nl:2066/88521
record_format	openpolar
spelling	ftunivnijmegen:oai:repository.ubn.ru.nl:2066/88521 2023-05-15T16:51:43+02:00 Genetic correction of PSA values using sequence variants associated with PSA levels. Gudmundsson, J. Besenbacher, S. Sulem, P. Gudbjartsson, D.F. Olafsson, I. Arinbjarnarson, S. Agnarsson, B.A. Benediktsdottir, K.R. Isaksson, H.J. Kostic, J.P. Gudjonsson, S.A. Stacey, S.N. Gylfason, A Sigurdsson, A. Holm, H. Bjornsdottir, U.S. Eyjolfsson, G.I. Navarrete, S. Fuertes, F. Garcia-Prats, M.D. Polo, E. Checherita, I.A. Jinga, M. Badea, P. Aben, K.K.H. Schalken, J.A. Oort, I.M. van Sweep, C.G.J. Helfand, B.T. Davis, M. Donovan, J.L. Hamdy, F.C. Kristjansson, K. Gulcher, J.R. Masson, G. Kong, A. Catalona, W.J. Mayordomo, J.I. Geirsson, G. Einarsson, G.V. Barkardottir, R.B. Jonsson, E. Jinga, V. Mates, D. Kiemeney, L.A.L.M. Neal, D.E. Thorsteinsdottir, U. Rafnar, T. Stefansson, K. 2010 http://hdl.handle.net/2066/88521 unknown http://hdl.handle.net/2066/88521 Science Translational Medicine, 2, 62, pp. 62ra92-62ra92 IGMD 6: Hormonal regulation NCEBP 1: Molecular epidemiology NCEBP 2: Evaluation of complex medical interventions ONCOL 5: Aetiology screening and detection Article / Letter to editor 2010 ftunivnijmegen 2022-09-29T06:17:52Z Item does not contain fulltext Measuring serum levels of the prostate-specific antigen (PSA) is the most common screening method for prostate cancer. However, PSA levels are affected by a number of factors apart from neoplasia. Notably, around 40% of the variability of PSA levels in the general population is accounted for by inherited factors, suggesting that it may be possible to improve both sensitivity and specificity by adjusting test results for genetic effects. To search for sequence variants that associate with PSA levels, we performed a genome-wide association study and follow-up analysis using PSA information from 15,757 Icelandic and 454 British men not diagnosed with prostate cancer. Overall, we detected a genome-wide significant association between PSA levels and single-nucleotide polymorphisms (SNPs) at six loci: 5p15.33 (rs2736098), 10q11 (rs10993994), 10q26 (rs10788160), 12q24 (rs11067228), 17q12 (rs4430796), and 19q13.33 [rs17632542 (KLK3: I179T)], each with P(combined) <3 x 10(-10). Among 3834 men who underwent a biopsy of the prostate, the 10q26, 12q24, and 19q13.33 alleles that associate with high PSA levels are associated with higher probability of a negative biopsy (odds ratio between 1.15 and 1.27). Assessment of association between the six loci and prostate cancer risk in 5325 cases and 41,417 controls from Iceland, the Netherlands, Spain, Romania, and the United States showed that the SNPs at 10q26 and 12q24 were exclusively associated with PSA levels, whereas the other four loci also were associated with prostate cancer risk. We propose that a personalized PSA cutoff value, based on genotype, should be used when deciding to perform a prostate biopsy. Article in Journal/Newspaper Iceland Radboud University: DSpace
institution	Open Polar
collection	Radboud University: DSpace
op_collection_id	ftunivnijmegen
language	unknown
topic	IGMD 6: Hormonal regulation NCEBP 1: Molecular epidemiology NCEBP 2: Evaluation of complex medical interventions ONCOL 5: Aetiology screening and detection
spellingShingle	IGMD 6: Hormonal regulation NCEBP 1: Molecular epidemiology NCEBP 2: Evaluation of complex medical interventions ONCOL 5: Aetiology screening and detection Gudmundsson, J. Besenbacher, S. Sulem, P. Gudbjartsson, D.F. Olafsson, I. Arinbjarnarson, S. Agnarsson, B.A. Benediktsdottir, K.R. Isaksson, H.J. Kostic, J.P. Gudjonsson, S.A. Stacey, S.N. Gylfason, A Sigurdsson, A. Holm, H. Bjornsdottir, U.S. Eyjolfsson, G.I. Navarrete, S. Fuertes, F. Garcia-Prats, M.D. Polo, E. Checherita, I.A. Jinga, M. Badea, P. Aben, K.K.H. Schalken, J.A. Oort, I.M. van Sweep, C.G.J. Helfand, B.T. Davis, M. Donovan, J.L. Hamdy, F.C. Kristjansson, K. Gulcher, J.R. Masson, G. Kong, A. Catalona, W.J. Mayordomo, J.I. Geirsson, G. Einarsson, G.V. Barkardottir, R.B. Jonsson, E. Jinga, V. Mates, D. Kiemeney, L.A.L.M. Neal, D.E. Thorsteinsdottir, U. Rafnar, T. Stefansson, K. Genetic correction of PSA values using sequence variants associated with PSA levels.
topic_facet	IGMD 6: Hormonal regulation NCEBP 1: Molecular epidemiology NCEBP 2: Evaluation of complex medical interventions ONCOL 5: Aetiology screening and detection
description	Item does not contain fulltext Measuring serum levels of the prostate-specific antigen (PSA) is the most common screening method for prostate cancer. However, PSA levels are affected by a number of factors apart from neoplasia. Notably, around 40% of the variability of PSA levels in the general population is accounted for by inherited factors, suggesting that it may be possible to improve both sensitivity and specificity by adjusting test results for genetic effects. To search for sequence variants that associate with PSA levels, we performed a genome-wide association study and follow-up analysis using PSA information from 15,757 Icelandic and 454 British men not diagnosed with prostate cancer. Overall, we detected a genome-wide significant association between PSA levels and single-nucleotide polymorphisms (SNPs) at six loci: 5p15.33 (rs2736098), 10q11 (rs10993994), 10q26 (rs10788160), 12q24 (rs11067228), 17q12 (rs4430796), and 19q13.33 [rs17632542 (KLK3: I179T)], each with P(combined) <3 x 10(-10). Among 3834 men who underwent a biopsy of the prostate, the 10q26, 12q24, and 19q13.33 alleles that associate with high PSA levels are associated with higher probability of a negative biopsy (odds ratio between 1.15 and 1.27). Assessment of association between the six loci and prostate cancer risk in 5325 cases and 41,417 controls from Iceland, the Netherlands, Spain, Romania, and the United States showed that the SNPs at 10q26 and 12q24 were exclusively associated with PSA levels, whereas the other four loci also were associated with prostate cancer risk. We propose that a personalized PSA cutoff value, based on genotype, should be used when deciding to perform a prostate biopsy.
format	Article in Journal/Newspaper
author	Gudmundsson, J. Besenbacher, S. Sulem, P. Gudbjartsson, D.F. Olafsson, I. Arinbjarnarson, S. Agnarsson, B.A. Benediktsdottir, K.R. Isaksson, H.J. Kostic, J.P. Gudjonsson, S.A. Stacey, S.N. Gylfason, A Sigurdsson, A. Holm, H. Bjornsdottir, U.S. Eyjolfsson, G.I. Navarrete, S. Fuertes, F. Garcia-Prats, M.D. Polo, E. Checherita, I.A. Jinga, M. Badea, P. Aben, K.K.H. Schalken, J.A. Oort, I.M. van Sweep, C.G.J. Helfand, B.T. Davis, M. Donovan, J.L. Hamdy, F.C. Kristjansson, K. Gulcher, J.R. Masson, G. Kong, A. Catalona, W.J. Mayordomo, J.I. Geirsson, G. Einarsson, G.V. Barkardottir, R.B. Jonsson, E. Jinga, V. Mates, D. Kiemeney, L.A.L.M. Neal, D.E. Thorsteinsdottir, U. Rafnar, T. Stefansson, K.
author_facet	Gudmundsson, J. Besenbacher, S. Sulem, P. Gudbjartsson, D.F. Olafsson, I. Arinbjarnarson, S. Agnarsson, B.A. Benediktsdottir, K.R. Isaksson, H.J. Kostic, J.P. Gudjonsson, S.A. Stacey, S.N. Gylfason, A Sigurdsson, A. Holm, H. Bjornsdottir, U.S. Eyjolfsson, G.I. Navarrete, S. Fuertes, F. Garcia-Prats, M.D. Polo, E. Checherita, I.A. Jinga, M. Badea, P. Aben, K.K.H. Schalken, J.A. Oort, I.M. van Sweep, C.G.J. Helfand, B.T. Davis, M. Donovan, J.L. Hamdy, F.C. Kristjansson, K. Gulcher, J.R. Masson, G. Kong, A. Catalona, W.J. Mayordomo, J.I. Geirsson, G. Einarsson, G.V. Barkardottir, R.B. Jonsson, E. Jinga, V. Mates, D. Kiemeney, L.A.L.M. Neal, D.E. Thorsteinsdottir, U. Rafnar, T. Stefansson, K.
author_sort	Gudmundsson, J.
title	Genetic correction of PSA values using sequence variants associated with PSA levels.
title_short	Genetic correction of PSA values using sequence variants associated with PSA levels.
title_full	Genetic correction of PSA values using sequence variants associated with PSA levels.
title_fullStr	Genetic correction of PSA values using sequence variants associated with PSA levels.
title_full_unstemmed	Genetic correction of PSA values using sequence variants associated with PSA levels.
title_sort	genetic correction of psa values using sequence variants associated with psa levels.
publishDate	2010
url	http://hdl.handle.net/2066/88521
genre	Iceland
genre_facet	Iceland
op_source	Science Translational Medicine, 2, 62, pp. 62ra92-62ra92
op_relation	http://hdl.handle.net/2066/88521
_version_	1766041818980417536

Genetic correction of PSA values using sequence variants associated with PSA levels.

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