Incidence of second primary tumours among childhood cancer survivors

Hawkins, Michael M.; Draper, G J; Kingston, J. E.

doi:10.1038/bjc.1987.200

Cited by 317 publications

(152 citation statements)

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“…The well-recognised increased risk of a second malignant neoplasm (SMN) (Meadows et al, 1985) may represent the greatest challenge to long-term survival (Robison and Mertens, 1993). Further study of their causes, which include both exposure to chemotherapy (CT), radiotherapy (RT) and genetic predisposition (Kony et al, 1997), requires follow-up of large numbers of survivors with a wide spectrum of treatments.Soft tissue sarcoma (STS) represents an important risk of SMN following childhood cancer, particularly heritable retinoblastoma (Draper et al, 1986;Hawkins et al, 1987;Westermeier et al, 1998; Menu-Branthomme et al, 2004). The one published case -control study of STS following childhood cancer demonstrated an independent association with exposure to RT and CT with procarbazine (Menu-Branthomme et al, 2004).…”

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confidence: 99%

“…Soft tissue sarcoma (STS) represents an important risk of SMN following childhood cancer, particularly heritable retinoblastoma (Draper et al, 1986;Hawkins et al, 1987;Westermeier et al, 1998; Menu-Branthomme et al, 2004). The one published case -control study of STS following childhood cancer demonstrated an independent association with exposure to RT and CT with procarbazine (Menu-Branthomme et al, 2004).…”

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A study of soft tissue sarcomas after childhood cancer in Britain

et al. 2007

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Among 16 541 3-year survivors of childhood cancer in Britain, 39 soft tissue sarcomas (STSs) occurred and 1.1 sarcomas were expected, yielding a standardised incidence ratio (SIR) of 16.1. When retinoblastomas were excluded from the cohort, the SIR for STSs was 15.9, and the cumulative risk of developing a soft tissue tumour after childhood cancer within 20 years of 3-year survival was 0.23%. In the case -control study, there was a significant excess of STSs in those patients exposed to both radiotherapy (RT) and chemotherapy, which was five times that observed among those not exposed (P ¼ 0.02). On the basis of individual radiation dosimetry, there was evidence of a strong dose -response effect with a significant increase in the risk of STS with increasing dose of RT (Po0.001). This effect remained significant in a multivariate model. The adjusted risk in patients exposed to RT doses of over 3000 cGy was over 50 times the risk in the unexposed. There was evidence of a dose -response effect with exposure to alkylating agents, the risk increasing substantially with increasing cumulative dose (P ¼ 0.05). This effect remained after adjusting for the effect of radiation exposure. British Journal of Cancer (2007) Survival after childhood cancer has greatly improved over the last three decades and most recent figures indicate that about 75% of children diagnosed with cancer are likely to survive at least 5 years (Toms, 2004). Thus a growing number of survivors, estimated at 1 in every 1000 young adults (Hawkins and Stevens, 1996), are at risk of various adverse late effects of both the cancer and its treatment. The well-recognised increased risk of a second malignant neoplasm (SMN) (Meadows et al, 1985) may represent the greatest challenge to long-term survival (Robison and Mertens, 1993). Further study of their causes, which include both exposure to chemotherapy (CT), radiotherapy (RT) and genetic predisposition (Kony et al, 1997), requires follow-up of large numbers of survivors with a wide spectrum of treatments.Soft tissue sarcoma (STS) represents an important risk of SMN following childhood cancer, particularly heritable retinoblastoma (Draper et al, 1986;Hawkins et al, 1987;Westermeier et al, 1998; Menu-Branthomme et al, 2004). The one published case -control study of STS following childhood cancer demonstrated an independent association with exposure to RT and CT with procarbazine (Menu-Branthomme et al, 2004).We here examined the incidence of STS in a population-based cohort of 3-year survivors of childhood cancer in Britain, and explored their aetiological factors in a much larger case -control analysis than previously reported. For present purposes, STS occurring as an SMN will be referred to simply as STS. MATERIALS AND METHODS Cohort studyA cohort of 3-year survivors of childhood cancer was selected from the National Register of Childhood Tumours (NRCT), a population-based national register covering the whole of Great Britain, which is maintained by the Childhood Cancer Research Group (CCRG), at the Univ...

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A study of soft tissue sarcomas after childhood cancer in Britain

et al. 2007

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“…Abramson et al (1984), we have not included them as second tumour cases as in our opinion the intracranial lesion in these cases is not histologically distinct from the primary retinoblastoma. Further details of the ascertainment of cases will be given by Hawkins et al (1987).…”

Section: Methodsmentioning

confidence: 99%

“…In this report we describe 161 patients who have developed more than one primary neoplasm and examine the various factors which may have influenced the development of the second primary tumour. We have not attempted to estimate the risk of developing a second tumour in this paper as an analysis of incidence rates is the subject of a separate communication (Hawkins et al, 1987). Our main purpose here is to describe the patterns of multiple tumours that have been observed and to identify the possible influence of genetic factors and previous therapy in the pathogenesis of the second tumour.…”

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“…A large proportion of these survivors will reach adulthood, potentially 'cured' of their tumours. Recently however, the considerable optimism engendered amongst clinicians by this improvement in survival has been tempered by a growing awareness that patients who have been successfully treated for one cancer appear to be at greater risk than the general population of developing a second histologically distinct malignancy (Li, 1977;Mike et al, 1982;Meadows et al, 1985;Hawkins et al, 1987). Although the occurrence of multiple primary tumours in any individual may reflect an inherent predisposition to cancer, it is likely that the therapies given to eradicate the first tumour are significant factors in the pathogenesis of many, perhaps most, second primary tumours.…”

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Patterns of multiple primary tumours in patients treated for cancer during childhood

Kingston

Hawkins²,

Draper³

et al. 1987

Br J Cancer

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Summary One hundred and sixty one children who have developed more than one primary neoplasm have been identified. Children with tumours of the central nervous system, retinoblastoma and leukaemia were those most frequently observed to develop a second malignancy whilst osteosarcoma was the most common second tumour. The patterns of second neoplasms appear to be changing and a recent increase in the number of children with leukaemia and lymphoma who develop second primary tumours has been observed. In this series, the two most frequent associations of tumours were retinoblastoma followed by osteosarcoma and the combination of acute leukaemia with a tumour of the central nervous system. Genetic factors which may have contributed to the development of the second primary tumour were identified in 53 patients (33%), 33 of whom had the genetic form of retinoblastoma. In an analysis of the treatment of 151 patients, for whom the interval between the two neoplasms was greater than 12 months, the second malignancy was considered to be 'radiation associated' in 93 (61%). Fifty children (33%) had been treated with either single or multiple agent chemotherapy which included an alkylating agent in 38. Forty five children had received a combination of chemotherapy and radiotherapy and of these, 10 developed leukaemia as their second tumour. Of the 19 secondary leukaemias, 16 have occurred in patients treated since 1970.About one in 10,000 children in Britain develop cancer each year (Draper et al., 1982). At present about 50% of these children can be expected to survive for at least five years which means that there are -600 patients each year who will become 'long term' survivors. A large proportion of these survivors will reach adulthood, potentially 'cured' of their tumours. Recently however, the considerable optimism engendered amongst clinicians by this improvement in survival has been tempered by a growing awareness that patients who have been successfully treated for one cancer appear to be at greater risk than the general population of developing a second histologically distinct malignancy (Li, 1977;Mike et al., 1982;Meadows et al., 1985;Hawkins et al., 1987). Although the occurrence of multiple primary tumours in any individual may reflect an inherent predisposition to cancer, it is likely that the therapies given to eradicate the first tumour are significant factors in the pathogenesis of many, perhaps most, second primary tumours.In an attempt to discern possible aetiological factors in the development of multiple primary tumours in childhood cancer patients, a registry has been established to identify those patients treated in Britain who develop second malignancies. The patterns of multiple tumours in these patients are the subject of this study. In this report we describe 161 patients who have developed more than one primary neoplasm and examine the various factors which may have influenced the development of the second primary tumour. We have not attempted to estimate the risk of developing a second tumour in ...

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Hyperfractionated External Beam Radiation Therapy in the Treatment of Murine Transgenic Retinoblastoma

Hayden¹,

Murray

Cicciarelli

et al. 2002

Arch Ophthalmol

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Objective: To determine the in vivo efficacy of hyperfractionated external beam radiation therapy (EBRT) in comparison with standard daily EBRT in a murine model of heritable retinoblastoma. Methods: Two hundred twenty eyes from 6-week-old simian virus-40 large T-antigen-positive mice were treated with a total dose of EBRT ranging from 10-76 Gy (1000 to 7600 rad). One hundred ten eyes underwent EBRT administered in 2.0-Gy (200-rad) fractions once per day. Forty-two eyes received hyperfractionated EBRT administered in 1.2-Gy (120-rad) fractions twice per day, while 48 eyes received EBRT twice daily in fractions of 5.0 Gy (500 rad). Twenty eyes served as untreated controls. All eyes were obtained for histopathologic examination and graded positive if any tumor was present. Results: A dose-dependent inhibition of ocular tumor was observed for EBRT in these transgenic retinoblastoma mice. The tumor control dose for 50% of eyes (TCD 50) treated with 2.0 Gy fractions of EBRT was 45 Gy (4500 rad) when treatments were administered once daily. A significant increase in tumor control was observed when treatments were administered twice per day at fractions of 1.2 Gy, resulting in a TCD 50 of 33 Gy (3300 rad) (P=.003). A further increase in tumor control was observed when twice-daily EBRT was administered in 5.0 Gy fractions resulting in a TCD 50 of 28 Gy (2800 rad). Conclusions: Hyperfractionated EBRT safely and effectively controls intraocular retinoblastoma in this transgenic animal model. Use of hyperfractionation allows for a reduction in total radiation delivered dose, while shortening the total treatment time. Clinical Relevance: This treatment approach may be applicable in the management of pediatric retinoblastoma by maintaining excellent tumor control, while reducing treatment-associated complications.

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Incidence of second primary tumours among childhood cancer survivors

Cited by 317 publications

References 23 publications

A study of soft tissue sarcomas after childhood cancer in Britain

A study of soft tissue sarcomas after childhood cancer in Britain

Patterns of multiple primary tumours in patients treated for cancer during childhood

Hyperfractionated External Beam Radiation Therapy in the Treatment of Murine Transgenic Retinoblastoma

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