References
- Brannon EM, Libertus ME, Meck WH, Woldorff MG. Electrophysiological measures of time processing in infant and adult brains: Weber's Law holds. Journal of Cognitive Neuroscience 2008;20:193–203
- vanMarle K, Wynn K. Six-month-old infants use analog magnitudes to represent duration. Developmental Science 2006;9:F41–F49
- Janeslätt G, Granlund M, Kottorp A, Almqvist N. Patterns of time processing ability in children with and without developmental disabilities. Journal of Applied Research in Intellectual Disabilities 2010;23:250–262
- Barkley RA, Koplowitz S, Anderson T, McMurray MB. Sense of time in children with ADHD: Effects of duration, distraction, and stimulant medication. Journal of the International Neuropsychological Society 1997;3:359–369
- McInerney RJ, Kerns KA. Time reproduction in children with ADHD: Motivation matters. Child Neuropsychology 2003;9:91–108
- Plummer C, Humphrey N. Time perception in children with ADHD: The effects of task modality and duration. Child Neuropsychology 2009;15:147–162
- Smith A, Taylor E, Rogers J, Newman S, Rubia K. Evidence for a pure time perception deficit in children with ADHD. Journal of Child Psychology and Psychiatry 2002;43:529–542
- West J, Douglas G, Houghton S, Lawrence V, Whiting K, Glasgow K. Time perception in boys with attention deficit/hyperactivity disorder according to time duration, distraction, and mode of presentation. Child Neuropsychology 2000;6:241–250
- Jueptner M, Rijntjes M, Weiller C. Localization of a cerebellar timing process using PET. Neurobiology 1995;45:1540–1545
- Mostofsky S, Kunze JC, Cutting LE, Ledderman HM, Denkla MB. Judgment of duration in individuals with ataxia-telangiectasia. Developmental Neuropsychology 2000;17:63–74
- Salman MS. The cerebellum: It’s about time! But timing is not everything. New insights into the role of the cerebellum in timing motor and cognitive tasks. Journal of Child Neurology 2002;17:1–9
- Ivry RB. Cerebellar timing system. International Review of Neurobiology 1996;41:555–573
- Raymond JL, Lisberger SG, Mauk D. The cerebellum: A neural learning machine? Science 1996;272:1126–1131
- Hetherington R, Dennis M, Spiegler B. Perception and estimation of time in long-term survivors of childhood posterior fossa tumors. Journal of the International Neuropsychological Society 2000;6:682–692
- Droit-Volet S, Zelanti PS, Dellatolas G, Kieffer V, El Massioui N, Brown BL, Doyére V, Provasi J, Grill J. Time perception in children treated for a cerebellar medulloblastoma. Research in Developmental Disabilities 2013;34:480–484
- Zelanti PS, Droit-Volet S. Cognitive abilities explaining age-related changes in time perception of short and long durations. Journal of Experimental Child Psychology 2011;109:143–157
- Kieffer-Renaux V, Bulteau C, Grill J, Kalifa C, Viguier D, Jambaqué I. Patterns of neuropsychological deficits in children with medulloblastoma according to cranio-spinal irradiation doses. Developmental Medicine and Child Neurology 2000;42:741–745
- Kieffer-Renaux V, Viguier D, Raquin MA, Laurent-Vannier A, Habrand JL, Dellatolas G, et al. Therapeutic schedules influence the pattern of intellectual decline after irradiation of posterior fossa tumors. Pediatric Blood & Cancer 2005;45:814–819
- Kieffer V, Longaud A, Callu D, Laroussinie F, Viguier D, Grill J, Dellatolas G. Teachers’ report of learning and behavioural difficulties in children treated for cerebellar tumours. Brain Injury 2012;26:1014–1020
- Levisohn L, Cronin-Golomb A, Schmahmann JD. Neuropsychological consequences of cerebellar tumour resection in children: Cerebellar cognitive affective syndrome in a paediatric population. Brain 2000;123:1041–1050
- Mulhern RK, Merchant TE, Gajjar A, Reddick WE, Kun LE. Late neurocognitive sequelae in survivors of brain tumours in childhood. The Lancet Oncology 2004;5:399–408
- Ravizza SM, McCormick CA, Schlerf JE, Justus T, Ivry RB, Fiez JA. Cerebellar damage produces selective deficits in verbal working memory. Brain 2006;129:306–320
- Riva D, Giorgi C. The cerebellum contributes to higher functions during development: Evidence from a series of children surgically treated for posterior fossa tumors. Brain 2000;123:1051–1061
- Robinson KE, Kuttesh JF, Champion JE, Andreotti CF, Hipps DW, Bettis A, Barnwell A, Compas BE. A quantitative meta-analysis of neurocognitive sequelae in survivors of pediatric brain tumors. Pediatr Blood Cancer 2010;55:525–531
- Palmer SL, Goloubeva O, Reddick WE, Glass JO, Gajjar A, Kun L, Merchant TE, Mulhern RK. Patterns of intellectual development among survivors of pediatric medulloblastoma: A longitudinal analysis. Journal of Clinical Oncology 2010;19:2302–2308
- Friedman WJ. Children’s representations of the pattern of daily activities. Child Development 1990;61:1399–1412
- Friedman WJ. The development of children’s understanding of cyclic aspects of time. Child Development 1977;48:1593–1599
- Hickling AK, Gelman SA. How does your garden grow? Early conceptualisation of seeds and their place in the plant growth cycle. Child Development 1995;66:856–876
- Friedman WJ. The development of children’s knowledge of temporal structure. Child Development 1986;57:1386–1400
- Janeslätt G, Granlund M, Alderman I, Kottorp A. Development of a new assessment of time processing ability for children, using Rasch analysis. Child: Care, Health and Development 2008;34:771–780
- Montangero J. Understanding changes in time: Development of diachronic thinking in 7–12 year old children. London: Taylor & Francis; 1996
- Pons F, Montangero J. Is diachronic thought a specific reasoning ability? Swiss Journal of Psychology 1999;58:191–200
- Labrell F, Stefaniak N. The development of diachronic thinking between 6 and 11 years: The case of growth and death. International Journal of Behavioral Development 2011;35:532–541
- Boucher J, Pons F, Lind S, Williams D. Temporal cognition in children with autistic spectrum disorders: Tests of diachronic thinking. Journal of Autism and Developmental Disorders 2007;37:1413–1429
- Maurice-Naville D, Montangero J. The development of diachronic thinking: 8–12-year-old children’s understanding of the evolution of forest disease. British Journal of Developmental Psychology 1992;10:365–383
- Tharinger DJ, Pilgrim S. Parent and child experiences of neuropsychological assessment as a function of child feedback by individualized fable. Child Neuropsychology 2012;18:228–241
- Burny E, Valcke M, Desoete A. Towards an agenda for studying learning and instruction focusing on time-related competences in children. Educational Studies 2009;35:338–349
- Hoodless PA. Time and timelines in the primary school. London: Historical Association; 1996
- Jay SM, Green V, Johnson S, Caldwell S, Nitschke R. Differences in death concepts between children with cancer and physically healthy children. Journal of Clinical Child Psychology 1987;16:301–306
- Nguyen SP, Gelman SA. Four- and 6-year olds’ biological concept of death: the case of plants. British Journal of Developmental Psychology 2002;20:495–513
- Eiser C, Havermans T. Children’s understanding of cancer. Psycho-Oncology 1992;1:169–181
- Ness KK, Gurney JG, Zeltzer LK, Leisenring W, Mulrooney DA, Nathan PC, Robison LL, Mertens AC. The impact of limitations in physical, executive, and emotional function on health-related quality of life among adult survivors of childhood cancer: a report from the Childhood Cancer Survivor Study. Archives of Physical Medicine and Rehabilitation 2008;89:128–136
- Poggi G, Liscio M, Galbiati S, Adduci A, Massimino M, Gandola L, Spreafico F, Clerici CA, Fossati-Bellani F, Sommovigo M, Castelli E. Brain tumors in children and adolescents: cognitive and psychological disorders at different ages. Psycho-Oncology 2005;14:386–395
- Schultz KAP, Ness KK, Whitton J, Recklitis C, Zebrack B, Robison LL, Zeltzer L, Mertens AC. Behavioral and social outcomes in adolescent survivors of childhood cancer: a report from the childhood cancer survivor study. Journal of Clinical Oncology 2007;25:3649–3656