CONTEXT: Little is known about the incidence of secondary neoplasms after 15 to 20 years in children and adolescents who were treated for acute lymphoblastic leukemia. OBJECTIVES: To investigate the cumulative incidence of secondary neoplasms in pediatric patients treated for acute lymphoblastic leukemia over 30 years and to characterize late-occurring tumors. DESIGN, SETTING, AND PATIENTS: Retrospective study of 2169 patients with acute lymphoblastic leukemia treated between 1962 and 1998 at St Jude Children's Research Hospital, Memphis, Tenn, who achieved complete remission and had a median follow-up time of 18.7 years (range, 2.4-41.3 years). MAIN OUTCOME MEASURES: Cumulative incidences of secondary neoplasms in first remission and standard incidence ratios of observed rates compared with rates of cancer development in the general US population. RESULTS: Secondary neoplasms developed as the first event in 123 patients and comprised 46 myeloid malignancies, 3 lymphomas, 14 basal cell carcinomas, 16 other carcinomas, 6 sarcomas, 16 meningiomas, and 22 other brain tumors. The cumulative incidence of secondary neoplasm was 4.17% (SE, 0.46%) at 15 years and increased substantially after 20 years, reaching 10.85% (SE, 1.27%) at 30 years. When meningiomas and basal cell carcinomas were excluded, the overall cumulative incidence was 3.99% (SE, 0.44%) at 15 years and 6.27% (SE, 0.83%) at 30 years, representing a 13.5-fold increase in overall risk compared with the general population. The cumulative incidence of each tumor type at 30 years was 2.19% (SE, 0.32%) for myeloid malignancy, 0.17% (SE, 0.10%) for lymphoma, 3.00% (SE, 0.59%) for brain tumor, 4.91% (SE, 1.04%) for carcinoma, and 0.57% (SE, 0.37%) for sarcoma. CONCLUSIONS: The cumulative incidence of secondary neoplasms increases steadily over 30 years after treatment of acute lymphoblastic leukemia. Although the majority of the late-occurring secondary neoplasms are low-grade tumors, the increase in incidence of more aggressive malignant neoplasms is significantly higher than expected in the general population. These results suggest that lifelong follow-up of acute lymphoblastic leukemia survivors is needed to ascertain the full impact of treatment and other leukemia-related factors on secondary neoplasm development.
CONTEXT: Little is known about the incidence of secondary neoplasms after 15 to 20 years in children and adolescents who were treated for acute lymphoblastic leukemia. OBJECTIVES: To investigate the cumulative incidence of secondary neoplasms in pediatric patients treated for acute lymphoblastic leukemia over 30 years and to characterize late-occurring tumors. DESIGN, SETTING, AND PATIENTS: Retrospective study of 2169 patients with acute lymphoblastic leukemia treated between 1962 and 1998 at St Jude Children's Research Hospital, Memphis, Tenn, who achieved complete remission and had a median follow-up time of 18.7 years (range, 2.4-41.3 years). MAIN OUTCOME MEASURES: Cumulative incidences of secondary neoplasms in first remission and standard incidence ratios of observed rates compared with rates of cancer development in the general US population. RESULTS: Secondary neoplasms developed as the first event in 123 patients and comprised 46 myeloid malignancies, 3 lymphomas, 14 basal cell carcinomas, 16 other carcinomas, 6 sarcomas, 16 meningiomas, and 22 other brain tumors. The cumulative incidence of secondary neoplasm was 4.17% (SE, 0.46%) at 15 years and increased substantially after 20 years, reaching 10.85% (SE, 1.27%) at 30 years. When meningiomas and basal cell carcinomas were excluded, the overall cumulative incidence was 3.99% (SE, 0.44%) at 15 years and 6.27% (SE, 0.83%) at 30 years, representing a 13.5-fold increase in overall risk compared with the general population. The cumulative incidence of each tumor type at 30 years was 2.19% (SE, 0.32%) for myeloid malignancy, 0.17% (SE, 0.10%) for lymphoma, 3.00% (SE, 0.59%) for brain tumor, 4.91% (SE, 1.04%) for carcinoma, and 0.57% (SE, 0.37%) for sarcoma. CONCLUSIONS: The cumulative incidence of secondary neoplasms increases steadily over 30 years after treatment of acute lymphoblastic leukemia. Although the majority of the late-occurring secondary neoplasms are low-grade tumors, the increase in incidence of more aggressive malignant neoplasms is significantly higher than expected in the general population. These results suggest that lifelong follow-up of acute lymphoblastic leukemia survivors is needed to ascertain the full impact of treatment and other leukemia-related factors on secondary neoplasm development.
Authors: Lois B Travis; Andrea K Ng; James M Allan; Ching-Hon Pui; Ann R Kennedy; X George Xu; James A Purdy; Kimberly Applegate; Joachim Yahalom; Louis S Constine; Ethel S Gilbert; John D Boice Journal: J Natl Cancer Inst Date: 2012-02-06 Impact factor: 13.506
Authors: Debra L Friedman; Alicia Rovo; Wendy Leisenring; Anna Locasciulli; Mary E D Flowers; Andre Tichelli; Jean E Sanders; H Joachim Deeg; Gerard Socie Journal: Blood Date: 2007-10-02 Impact factor: 22.113
Authors: Elyse R Park; Anne C Kirchhoff; Giselle K Perez; Wendy Leisenring; Joel S Weissman; Karen Donelan; Ann C Mertens; James D Reschovsky; Gregory T Armstrong; Leslie L Robison; Mariel Franklin; Kelly A Hyland; Lisa R Diller; Christopher J Recklitis; Karen A Kuhlthau Journal: J Clin Oncol Date: 2015-02-02 Impact factor: 44.544
Authors: Claudia P Miller; Sharmistha Rudra; Michael J Keating; William G Wierda; Michael Palladino; Joya Chandra Journal: Blood Date: 2009-01-30 Impact factor: 22.113
Authors: Moriah J Brier; Anne E Kazak; Branlyn Werba Derosa; Matthew C Hocking; Lisa A Schwartz; Jill P Ginsberg; Wendy Hobbie; Richard F Ittenbach Journal: J Adolesc Young Adult Oncol Date: 2011-12 Impact factor: 2.223