Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion

Christian Kreis; Judith E. Lupatsch; Felix Niggli; Matthias Egger; Claudia E. Kuehni; Ben D. Spycher; R. A. Ammann; R. Angst; M. Ansari; M. Beck Popovic; E. Bergstraesser; P. Brazzola; J. Greiner; M. Grotzer; H. Hengartner; T. Kuehne; C. Kuehni; K. Leibundgut; F. Niggli; J. Rischewski; N. Von Der Weid; M. Egger; A. Spoerri; M. Zwahlen; M. Puhan; M. Bopp; D. Fäh; N. Künzli; F. Paccaud; M. Oris; M. Schwyn; Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group

doi:10.1371/journal.pone.0170020

Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion

Christian Kreis, Judith E. Lupatsch, Felix Niggli, Matthias Egger, Claudia E. Kuehni, Ben D. Spycher, R. A. Ammann, R. Angst, M. Ansari, M. Beck Popovic, E. Bergstraesser, P. Brazzola, J. Greiner, M. Grotzer, H. Hengartner, T. Kuehne, C. Kuehni, K. Leibundgut, F. Niggli, J. RischewskiN. Von Der Weid, M. Egger, A. Spoerri, M. Zwahlen, M. Puhan, M. Bopp, D. Fäh, N. Künzli, F. Paccaud, M. Oris, M. Schwyn, Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group

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Abstract

Background Many studies have observed space-time clustering of childhood leukemia (CL) yet few have attempted to elicit etiological clues from such clustering. We recently reported space-time clustering of CL around birth, and now aim to generate etiological hypotheses by comparing clustered and nonclustered cases. We also investigated whether the clustering resulted from many small aggregations of cases or from a few larger clusters. Methods We identified cases of persons born and diagnosed between 1985 and 2014 at age 0-15 years from the Swiss Childhood Cancer Registry. We determined spatial and temporal lags that maximized evidence of clustering based on the Knox test and classified cases born within these lags from another case as clustered. Using logistic regression adjusted for child population density, we determined whether clustering status was associated with age at diagnosis, immunophenotype, cytogenetic subtype, perinatal and socioeconomic characteristics, and pollution sources. Results Analyses included 1,282 cases of which 242 were clustered (born within 1 km and 2 years from another case). Of all investigated characteristics only the t(12;21)(p13;q22) translocation (resulting in ETV6-RUNX1 fusion) differed significantly in prevalence between clustered and nonclustered cases (40% and 25%, respectively; adjusted OR 2.54 [1.52-4.23]; p = 0.003). Spatio-temporal clustering was driven by an excess of aggregations of two or three children rather than by a few large clusters. Conclusion Our findings suggest ETV6-RUNX1 is associated with space-time clustering of CL and are consistent with an infection interacting with that oncogene in early life leading to clinical leukemia.

Original language	English (US)
Article number	e0170020
Journal	PLoS One
Volume	12
Issue number	1
DOIs	https://doi.org/10.1371/journal.pone.0170020
State	Published - Jan 1 2017
Externally published	Yes

ASJC Scopus subject areas

General Medicine
General Biochemistry, Genetics and Molecular Biology
General Agricultural and Biological Sciences

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Kreis, C., Lupatsch, J. E., Niggli, F., Egger, M., Kuehni, C. E., Spycher, B. D., Ammann, R. A., Angst, R., Ansari, M., Beck Popovic, M., Bergstraesser, E., Brazzola, P., Greiner, J., Grotzer, M., Hengartner, H., Kuehne, T., Kuehni, C., Leibundgut, K., Niggli, F., ... Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group (2017). Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion. PLoS One, 12(1), Article e0170020. https://doi.org/10.1371/journal.pone.0170020

Kreis, C, Lupatsch, JE, Niggli, F, Egger, M, Kuehni, CE, Spycher, BD, Ammann, RA, Angst, R, Ansari, M, Beck Popovic, M, Bergstraesser, E, Brazzola, P, Greiner, J, Grotzer, M, Hengartner, H, Kuehne, T, Kuehni, C, Leibundgut, K, Niggli, F, Rischewski, J, Von Der Weid, N, Egger, M, Spoerri, A, Zwahlen, M, Puhan, M, Bopp, M, Fäh, D, Künzli, N, Paccaud, F, Oris, M, Schwyn, M & Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group 2017, 'Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion', PLoS One, vol. 12, no. 1, e0170020. https://doi.org/10.1371/journal.pone.0170020

@article{a749fc73eb2941bba4fe6f2a9d68242f,

title = "Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion",

abstract = "Background Many studies have observed space-time clustering of childhood leukemia (CL) yet few have attempted to elicit etiological clues from such clustering. We recently reported space-time clustering of CL around birth, and now aim to generate etiological hypotheses by comparing clustered and nonclustered cases. We also investigated whether the clustering resulted from many small aggregations of cases or from a few larger clusters. Methods We identified cases of persons born and diagnosed between 1985 and 2014 at age 0-15 years from the Swiss Childhood Cancer Registry. We determined spatial and temporal lags that maximized evidence of clustering based on the Knox test and classified cases born within these lags from another case as clustered. Using logistic regression adjusted for child population density, we determined whether clustering status was associated with age at diagnosis, immunophenotype, cytogenetic subtype, perinatal and socioeconomic characteristics, and pollution sources. Results Analyses included 1,282 cases of which 242 were clustered (born within 1 km and 2 years from another case). Of all investigated characteristics only the t(12;21)(p13;q22) translocation (resulting in ETV6-RUNX1 fusion) differed significantly in prevalence between clustered and nonclustered cases (40% and 25%, respectively; adjusted OR 2.54 [1.52-4.23]; p = 0.003). Spatio-temporal clustering was driven by an excess of aggregations of two or three children rather than by a few large clusters. Conclusion Our findings suggest ETV6-RUNX1 is associated with space-time clustering of CL and are consistent with an infection interacting with that oncogene in early life leading to clinical leukemia.",

author = "Christian Kreis and Lupatsch, {Judith E.} and Felix Niggli and Matthias Egger and Kuehni, {Claudia E.} and Spycher, {Ben D.} and Ammann, {R. A.} and R. Angst and M. Ansari and {Beck Popovic}, M. and E. Bergstraesser and P. Brazzola and J. Greiner and M. Grotzer and H. Hengartner and T. Kuehne and C. Kuehni and K. Leibundgut and F. Niggli and J. Rischewski and {Von Der Weid}, N. and M. Egger and A. Spoerri and M. Zwahlen and M. Puhan and M. Bopp and D. F{\"a}h and N. K{\"u}nzli and F. Paccaud and M. Oris and M. Schwyn and {Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group}",

year = "2017",

month = jan,

day = "1",

doi = "10.1371/journal.pone.0170020",

language = "English (US)",

volume = "12",

journal = "PLoS One",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "1",

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TY - JOUR

T1 - Space-Time Clustering of Childhood Leukemia

T2 - Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion

AU - Kreis, Christian

AU - Lupatsch, Judith E.

AU - Niggli, Felix

AU - Egger, Matthias

AU - Kuehni, Claudia E.

AU - Spycher, Ben D.

AU - Ammann, R. A.

AU - Angst, R.

AU - Ansari, M.

AU - Beck Popovic, M.

AU - Bergstraesser, E.

AU - Brazzola, P.

AU - Greiner, J.

AU - Grotzer, M.

AU - Hengartner, H.

AU - Kuehne, T.

AU - Kuehni, C.

AU - Leibundgut, K.

AU - Niggli, F.

AU - Rischewski, J.

AU - Von Der Weid, N.

AU - Egger, M.

AU - Spoerri, A.

AU - Zwahlen, M.

AU - Puhan, M.

AU - Bopp, M.

AU - Fäh, D.

AU - Künzli, N.

AU - Paccaud, F.

AU - Oris, M.

AU - Schwyn, M.

AU - Swiss Paediatric Oncology Groupm, Swiss National Cohort Study Group

PY - 2017/1/1

Y1 - 2017/1/1

N2 - Background Many studies have observed space-time clustering of childhood leukemia (CL) yet few have attempted to elicit etiological clues from such clustering. We recently reported space-time clustering of CL around birth, and now aim to generate etiological hypotheses by comparing clustered and nonclustered cases. We also investigated whether the clustering resulted from many small aggregations of cases or from a few larger clusters. Methods We identified cases of persons born and diagnosed between 1985 and 2014 at age 0-15 years from the Swiss Childhood Cancer Registry. We determined spatial and temporal lags that maximized evidence of clustering based on the Knox test and classified cases born within these lags from another case as clustered. Using logistic regression adjusted for child population density, we determined whether clustering status was associated with age at diagnosis, immunophenotype, cytogenetic subtype, perinatal and socioeconomic characteristics, and pollution sources. Results Analyses included 1,282 cases of which 242 were clustered (born within 1 km and 2 years from another case). Of all investigated characteristics only the t(12;21)(p13;q22) translocation (resulting in ETV6-RUNX1 fusion) differed significantly in prevalence between clustered and nonclustered cases (40% and 25%, respectively; adjusted OR 2.54 [1.52-4.23]; p = 0.003). Spatio-temporal clustering was driven by an excess of aggregations of two or three children rather than by a few large clusters. Conclusion Our findings suggest ETV6-RUNX1 is associated with space-time clustering of CL and are consistent with an infection interacting with that oncogene in early life leading to clinical leukemia.

AB - Background Many studies have observed space-time clustering of childhood leukemia (CL) yet few have attempted to elicit etiological clues from such clustering. We recently reported space-time clustering of CL around birth, and now aim to generate etiological hypotheses by comparing clustered and nonclustered cases. We also investigated whether the clustering resulted from many small aggregations of cases or from a few larger clusters. Methods We identified cases of persons born and diagnosed between 1985 and 2014 at age 0-15 years from the Swiss Childhood Cancer Registry. We determined spatial and temporal lags that maximized evidence of clustering based on the Knox test and classified cases born within these lags from another case as clustered. Using logistic regression adjusted for child population density, we determined whether clustering status was associated with age at diagnosis, immunophenotype, cytogenetic subtype, perinatal and socioeconomic characteristics, and pollution sources. Results Analyses included 1,282 cases of which 242 were clustered (born within 1 km and 2 years from another case). Of all investigated characteristics only the t(12;21)(p13;q22) translocation (resulting in ETV6-RUNX1 fusion) differed significantly in prevalence between clustered and nonclustered cases (40% and 25%, respectively; adjusted OR 2.54 [1.52-4.23]; p = 0.003). Spatio-temporal clustering was driven by an excess of aggregations of two or three children rather than by a few large clusters. Conclusion Our findings suggest ETV6-RUNX1 is associated with space-time clustering of CL and are consistent with an infection interacting with that oncogene in early life leading to clinical leukemia.

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DO - 10.1371/journal.pone.0170020

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Space-Time Clustering of Childhood Leukemia: Evidence of an Association with ETV6-RUNX1 (TEL-AML1) Fusion

Abstract

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