J. E. Kingston scite author profile

Summary In a series of 882 retinoblastoma patients, 384 known to have the genetic form of the disease and 498 others, 30 patients developed second primary neoplasms. The spectrum of these second neoplasms is discussed in relation to the forms of treatment used for the retinoblastoma. Cumulative incidence rates of second tumours in the whole series are 2.0% at 12 years after diagnosis and 4.2% after 18 years. For patients with the genetic form of retinoblastoma the cumulative incidence rate after 18 years is 8.4% for all second neoplasms and 6.0% for osteosarcomas alone. The inherent risk among survivors from genetic retinoblastoma of developing an osteosarcoma, excluding all possible effects of treatment, is estimated to be 2.2% after 18 years. Within the field of radiation treatment the cumulative incidence rate for all second neoplasms after 18 years is 6.6% and for osteosarcomas alone 3.7%. There is some evidence that patients with genetic retinoblastoma are particularly sensitive to the carcinogenic effects of radiation. The results also suggest that the use of cyclophosphamide may increase the risk of second primary neoplasms in patients with genetic retinoblastoma. The incidence rates of second primary neoplasms in retinoblastoma survivors reported here are lower than those quoted for previously published series. Evidence from this and other papers strongly suggests an association between retinoblastoma and malignant melanoma.

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Results of Combined Chemotherapy and Radiotherapy for Advanced Intraocular Retinoblastoma

Kingston

Hungerford²,

Madreperla³

et al. 1996

Arch Ophthalmol

276

162

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Incidence of second primary tumours among childhood cancer survivors

Hawkins¹,

Draper²,

Kingston³

1987

Br J Cancer

317

133

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Summary Among a cohort of 10,106 three-year survivors of childhood cancer, 90 second primary tumours (SPTs) were observed. Within 25 years of 3-year survival about 4% developed a SPT, about 6-fold expected, the relative risk not varying much with increasing follow-up.Following genetic retinoblastoma we observed 30-fold the expected number of SPTs, and over 400-fold the expected number of osteosarcomas. The risk of SPT in the absence of radiotherapy and chemotherapy (inherent risk) following genetic retinoblastoma was 13-fold expected and over 200-fold the expected number of osteosarcomas were observed. There was evidence that both radiotherapy and cyclophosphamide were associated with an increased risk of SPT.After all first primary tumours (FPTs) excluding retinoblastoma we observed almost 5-fold the expected number of SPTs. The inherent risk was 4-fold expected, the relative risks associated with radiotherapy but no chemotherapy, and both radiotherapy and chemotherapy were 6-and 9-fold expected respectively. There were about 20-fold the number of malignant bone tumours expected, most were osteosarcoma; also 7-fold the number of central nervous system tumours expected. There were 8 basal cell carcinomas and it seems likely that radiotherapy was involved in the development of some of these. Radiotherapy appears to have been involved in the development of many of the SPTs observed following all FPTs excluding retinoblastoma, particularly after CNS tumours, Wilms' tumour and Hodgkin's disease. Currently there is insufficient followup to examine the risk following chemotherapy. After acute leukaemia there was 20-fold the expected number of central nervous system tumours, though this is based on only 3 cases; whether therapy is directly involved in their development is uncertain.The risks we report are rarely greater than those reported in previous large-scale studies; in most instances they are substantially less. It is very unlikely that many SPTs were missed with our follow-up system so alternative explanations require further investigation; in particular it is possible the lower risks in our data compared to series treated in the United States may be explained, in part, by less combination therapy and lower doses of radiotherapy.At least half of the children who develop cancer now survive beyond three years (Stiller, pers. comm.); thus we expect in excess of 600 such survivors each year from among individuals currently treated in Britain. The intensive therapy given to achieve the improvement in survival contributes towards late effects generally, and second primary tumours in particular. The duration of survival for many individuals includes the latent periods characteristic of radiation and chemical carcinogenesis (Boice, 1981

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Adjuvant Chemotherapy in the Treatment of Osteosarcoma: Results of the Multi-Institutional Osteosarcoma Study

et al. 1988

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Secondary Acute Myelogenous Leukemia in Patients with Retinoblastoma

et al. 2007

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J. E. Kingston

Second primary neoplasms in patients with retinoblastoma

Results of Combined Chemotherapy and Radiotherapy for Advanced Intraocular Retinoblastoma

Incidence of second primary tumours among childhood cancer survivors

Adjuvant Chemotherapy in the Treatment of Osteosarcoma: Results of the Multi-Institutional Osteosarcoma Study

Secondary Acute Myelogenous Leukemia in Patients with Retinoblastoma

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