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Chapter 101 - Neurocognitive effects of CNS tumors

Chapter 101 - Neurocognitive effects of CNS tumors
Chapter 101 - Neurocognitive effects of CNS tumors
There is ample evidence that many children treated for brain tumors experience long-term neurocognitive deficits. The severity of those deficits is determined by a complex interaction of the child's genetic make-up and age, neuroanatomical damage caused by tumor and surgery, radiotherapy and chemotherapy, the psychosocial environment, and the intensity of targeted rehabilitation. The consequences of neurocognitive deficits are moderated by the number and severity of other deficits, including neurological and endocrine impairments, and this wider context must be considered.

The impact of intellectual decline on academic functioning is evident, and underlies, for example, poor reading, writing, and mathematical skills. The effects of early brain damage on development are cumulative as more functions are expected to mature. Many survivors of CNS tumors can be expected to grow into deficits that have far-reaching consequences not only for academic achievement but also for their psychological and social development and their ability to be self-sufficient. Because the problems typically only become apparent over time, surveillance for their detection is an essential prerequisite for early educational and other interventions to support learning and successful transition to independent adult life
978-0-444-52910-7
967-972
Elsevier
Bull, K.S.
751f8b25-29ba-4d4f-96e2-6c339a83a47f
Kennedy, C.R.
7c3aff62-0a86-4b44-b7d7-4bc01f23ec93
Bull, K.S.
751f8b25-29ba-4d4f-96e2-6c339a83a47f
Kennedy, C.R.
7c3aff62-0a86-4b44-b7d7-4bc01f23ec93

Bull, K.S. and Kennedy, C.R. (2013) Chapter 101 - Neurocognitive effects of CNS tumors. In, Handbook of Clinical Neurology. Chennai, IN. Elsevier, pp. 967-972. (doi:10.1016/B978-0-444-52910-7.00017-9).

Record type: Book Section

Abstract

There is ample evidence that many children treated for brain tumors experience long-term neurocognitive deficits. The severity of those deficits is determined by a complex interaction of the child's genetic make-up and age, neuroanatomical damage caused by tumor and surgery, radiotherapy and chemotherapy, the psychosocial environment, and the intensity of targeted rehabilitation. The consequences of neurocognitive deficits are moderated by the number and severity of other deficits, including neurological and endocrine impairments, and this wider context must be considered.

The impact of intellectual decline on academic functioning is evident, and underlies, for example, poor reading, writing, and mathematical skills. The effects of early brain damage on development are cumulative as more functions are expected to mature. Many survivors of CNS tumors can be expected to grow into deficits that have far-reaching consequences not only for academic achievement but also for their psychological and social development and their ability to be self-sufficient. Because the problems typically only become apparent over time, surveillance for their detection is an essential prerequisite for early educational and other interventions to support learning and successful transition to independent adult life

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Published date: 2013
Organisations: Clinical & Experimental Sciences

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Local EPrints ID: 372946
URI: http://eprints.soton.ac.uk/id/eprint/372946
ISBN: 978-0-444-52910-7
PURE UUID: 7bc770c0-d679-4c20-a7a2-9f25be4dbf75
ORCID for K.S. Bull: ORCID iD orcid.org/0000-0002-5541-4556

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Date deposited: 08 Jan 2015 11:36
Last modified: 15 Mar 2024 03:01

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