Background: We specifically tested the aetiological hypothesis that a factor influencing geographical or temporal\r\nheterogeneity of childhood central nervous system (CNS) tumour incidence was related to exposure to a transient\r\nenvironmental agent.\r\nMethods: Information was extracted on individuals aged 0-14 years, diagnosed with a CNS tumour between the\r\n1st January 1974 and 31st December 2006 from the Yorkshire Specialist Register of Cancer in Children and Young\r\nPeople. Ordnance Survey eight-digit grid references were allocated to each case with respect to addresses at the\r\ntime of birth and the time of diagnosis, locating each address to within 0.1 km. The following diagnostic groups\r\nwere specified a priori for analysis: ependymoma; astrocytoma; primitive neuroectodermal tumours (PNETs); other\r\ngliomas; total CNS tumours. We applied the K-function method for testing global space-time clustering using fixed\r\ngeographical distance thresholds. Tests were repeated using variable nearest neighbour (NN) thresholds.\r\nResults: There was statistically significant global space-time clustering for PNETs only, based on time and place of\r\ndiagnosis (P = 0.03 and 0.01 using the fixed geographical distance and the variable NN threshold versions of the Kfunction\r\nmethod respectively).\r\nConclusions: There was some evidence for a transient environmental component to the aetiology of PNETs.\r\nHowever, a possible role for chance cannot be excluded.
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