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E-grāmata: Cognitive Reserve: Theory and Applications

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Cognitive Reserve: Theory and ApplicationsPalielināt
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Cognitive reserve has emerged as a powerful concept for interpreting individual differences in susceptibility to, and recovery from, brain injury or pathology. Underlying cognitive reserve is the idea that individual differences in how cognitive tasks are mediated in the brain allow some people to cope with pathology to a greater degree than others. Cognitive Reserve: Theory and Applications describes in depth the source of these individual differences.

This volume provides a comprehensive review of theory, research and clinical application of the cognitive reserve. Chapters explore the theoretical underpinnings of cognitive reserve, and evidence for its existence. Various approaches for studying this concept are addressed, including epidemiologic, cognitive experimental, and neuroimaging. Possible genetic and physiologic underpinnings of cognitive reserve are presented. Application of this concept to a wide range of situations, including child development, aging, Alzheimer’s disease, stroke, HIV, and head injury is discussed. The result is an up-to-date, global treatment of cognitive reserve that will be of interest to someone new to the concept or the experienced investigator.

List of figures xi
List of tables xv
About the editor xvii
List of contributors xix
From the series editor xxiii
1 The concept of cognitive reserve: A catalyst for research
1(4)
YAAKOV STERN
2 Understanding cognitive reserve through genetics and genetic epidemiology
5(32)
JOSEPH H. LEE
3 Lifetime antecedents of cognitive reserve
37(16)
MARCUS RICHARDS, AMANDA SACKER, AND IAN J. DEARY
4 Brain reserve capacity, cognitive reserve capacity, and age-based functional plasticity after congenital and acquired brain injury in children
53(32)
MAUREEN DENNIS, KEITH OWEN YEATES, H. GERRY TAYLOR, AND JACK M. FLETCHER
5 Traumatic brain injury and cognitive reserve
85(32)
ERIN D. BIGLER
6 Electroconvulsive therapy and coronary artery bypass grafting surgery: Pseudoexperimental paradigms for studying cognitive reserve
117(14)
PATRICIA A. BOYLE, SUSAN A. LEGENDRE ROPACKI, AND ROBERT A. STERN
7 The impact of cognitive reserve on neuropsychological measures in clinical trials
131(12)
LINAS A. BIELIAUSKAS AND AMI ANTONUCCI
8 Association between early life physical activity and late-life cognition: Evidence for cognitive reserve
143(16)
MIRANDA G. DIK, DORLY J.H. DEEG, MARJOLFIN VISSER, AND CEES JONKER
9 Assessment of lifetime participation in cognitively stimulating activities
159(14)
ROBERT S. WILSON, LISA L. BARNES, AND DAVID A. BENNETT
10 Lifestyle activities and late-life changes in cognitive performance 173(14)
BRENT J. SMALL, TIFFANY F. HUGHES, DAVID F. HULTSCH, AND ROGER A. DIXON
11 Lifestyle patterns and cognitive reserve 187(20)
NIKOLAOS SCARMEAS
12 Brain reserve: HIV morbidity and mortality 207(12)
MATTHEW J. REINHARD, PAUL SATZ, OLA A. SELNES, NED SACKTOR, BRUCE A. COHEN, JAMES T. BECKER, AND ERIC N. MILLER
13 Literacy and cognitive decline among ethnically diverse elders 219(18)
JENNIFER J. MANLY, NICOLE SCHUPF, MING-XIN TANG, CHRISTOPHER C. WEISS, AND YAAKOV STERN
14 Brain reserve and risk of dementia: Findings from the Nun Study 237(14)
JAMES A. MORTIMER, DAVID A. SNOWDON, AND WILLIAM R. MARKESBERY
15 Imaging cognitive reserve 251(14)
YAAKOV STERN
16 Cognitive reserve in healthy aging and Alzheimer disease: Evidence for compensatory reorganization of brain networks 265(20)
CHERYL L. GRADY
17 A neurocognitive overview of aging phenomena based on the event-related brain potential (ERP) 285(20)
DAVID FRIEDMAN
18 Adult neurogenesis and regeneration in the brain 305(22)
YEVGENIA KOZOROVITSKIY AND ELIZABETH GOULD
Author index 327(5)
Subject index 332


Yaakov Stern
Biežāk uzdotie jautājumi par e-grāmatām Biežāk uzdotie jautājumi par e-grāmatām
Permanent link: https://www.kriso.lv/db/97811349543842e.html
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