RATIONALE: As the population of the world ages, age-related cognitive decline is becoming an ever-increasing problem. However, the changes in brain structure that accompany normal aging, and the role they play in cognitive decline, remain to be fully elucidated. AIMS: This study aims to characterize changes in brain structure in old age, and to investigate relationships between brain aging and cognitive decline using the Lothian Birth Cohort 1936. Here, we report the rationale, design and methodology of the brain and neurovascular imaging protocol developed to study this cohort. DESIGN: An observational, longitudinal study of the Lothian Birth Cohort 1936, which comprises 1091 relatively healthy individuals now in their 70s and living in the Edinburgh area. They are surviving participants of the Scottish Mental Survey 1947, which involved a test of general intelligence taken at age 11 years. At age 70 years, the Lothian Birth Cohort 1936 undertook detailed cognitive, medical and genetic testing, and provided social, family, nutritional, quality of life and physical activity information. At mean age 73 years they underwent detailed brain MRI and neurovascular ultrasound imaging, repeat cognitive and other testing. The MRI protocol is designed to provide qualitative and quantitative measures of gray and white matter atrophy, severity and location of white matter lesions, enlarged perivascular spaces, brain mineral deposits, microbleeds and integrity of major white matter tracts. The neurovascular ultrasound imaging provides velocity, stenosis and intima-media thickness measurements of the carotid and vertebral arteries. STUDY: This valuable imaging dataset will be used to determine which changes in brain structural parameters have the largest effects on cognitive aging. Analysis will include multimodal image analysis and multivariate techniques, such as factor analysis and structural equation modelling. Especially valuable is the ability within this sample to examine the influence that early life intelligence has on brain structural parameters in old age, and the role of genetic, vascular, educational and lifestyle factors. OUTCOMES: Final outcomes include associations between early and late life cognition and integrity of key white matter tracts, volume of gray and white matter, myelination, brain water content, and visible abnormalities such as white matter lesions and mineral deposits; and influences of vascular risk factors, diet, environment, social metrics, education and genetics on healthy brain aging. It is intended that this information will help to inform and develop strategies for successful cognitive aging.
RATIONALE: As the population of the world ages, age-related cognitive decline is becoming an ever-increasing problem. However, the changes in brain structure that accompany normal aging, and the role they play in cognitive decline, remain to be fully elucidated. AIMS: This study aims to characterize changes in brain structure in old age, and to investigate relationships between brain aging and cognitive decline using the Lothian Birth Cohort 1936. Here, we report the rationale, design and methodology of the brain and neurovascular imaging protocol developed to study this cohort. DESIGN: An observational, longitudinal study of the Lothian Birth Cohort 1936, which comprises 1091 relatively healthy individuals now in their 70s and living in the Edinburgh area. They are surviving participants of the Scottish Mental Survey 1947, which involved a test of general intelligence taken at age 11 years. At age 70 years, the Lothian Birth Cohort 1936 undertook detailed cognitive, medical and genetic testing, and provided social, family, nutritional, quality of life and physical activity information. At mean age 73 years they underwent detailed brain MRI and neurovascular ultrasound imaging, repeat cognitive and other testing. The MRI protocol is designed to provide qualitative and quantitative measures of gray and white matter atrophy, severity and location of white matter lesions, enlarged perivascular spaces, brain mineral deposits, microbleeds and integrity of major white matter tracts. The neurovascular ultrasound imaging provides velocity, stenosis and intima-media thickness measurements of the carotid and vertebral arteries. STUDY: This valuable imaging dataset will be used to determine which changes in brain structural parameters have the largest effects on cognitive aging. Analysis will include multimodal image analysis and multivariate techniques, such as factor analysis and structural equation modelling. Especially valuable is the ability within this sample to examine the influence that early life intelligence has on brain structural parameters in old age, and the role of genetic, vascular, educational and lifestyle factors. OUTCOMES: Final outcomes include associations between early and late life cognition and integrity of key white matter tracts, volume of gray and white matter, myelination, brain water content, and visible abnormalities such as white matter lesions and mineral deposits; and influences of vascular risk factors, diet, environment, social metrics, education and genetics on healthy brain aging. It is intended that this information will help to inform and develop strategies for successful cognitive aging.
Authors: David Alexander Dickie; Dominic E Job; Ian Poole; Trevor S Ahearn; Roger T Staff; Alison D Murray; Joanna M Wardlaw Journal: Eur Radiol Date: 2012-02-22 Impact factor: 5.315
Authors: Susan D Shenkin; Cyril Pernet; Thomas E Nichols; Jean-Baptiste Poline; Paul M Matthews; Aad van der Lugt; Clare Mackay; Linda Lanyon; Bernard Mazoyer; James P Boardman; Paul M Thompson; Nick Fox; Daniel S Marcus; Aziz Sheikh; Simon R Cox; Devasuda Anblagan; Dominic E Job; David Alexander Dickie; David Rodriguez; Joanna M Wardlaw Journal: Neuroimage Date: 2017-02-14 Impact factor: 6.556
Authors: M Del C Valdés Hernández; J Kyle; J Allan; M Allerhand; H Clark; S Muñoz Manieg; N A Royle; A J Gow; A Pattie; J Corley; M E Bastin; J M Starr; J M Wardlaw; I J Deary; E Combet Journal: J Nutr Health Aging Date: 2017 Impact factor: 4.075
Authors: Maria Del C Valdés Hernández; Francesca M Chappell; Susana Muñoz Maniega; David Alexander Dickie; Natalie A Royle; Zoe Morris; Devasuda Anblagan; Eleni Sakka; Paul A Armitage; Mark E Bastin; Ian J Deary; Joanna M Wardlaw Journal: Neuroradiology Date: 2017-08-16 Impact factor: 2.804
Authors: Michelle Luciano; Riccardo E Marioni; Maria Valdés Hernández; Susana Muñoz Maniega; Iona F Hamilton; Natalie A Royle; Ganesh Chauhan; Joshua C Bis; Stephanie Debette; Charles DeCarli; Myriam Fornage; Reinhold Schmidt; M Arfan Ikram; Lenore J Launer; Sudha Seshadri; Mark E Bastin; David J Porteous; Joanna Wardlaw; Ian J Deary Journal: Twin Res Hum Genet Date: 2015-10-02 Impact factor: 1.587
Authors: Stuart J Ritchie; Mark E Bastin; Elliot M Tucker-Drob; Susana Muñoz Maniega; Laura E Engelhardt; Simon R Cox; Natalie A Royle; Alan J Gow; Janie Corley; Alison Pattie; Adele M Taylor; Maria Del C Valdés Hernández; John M Starr; Joanna M Wardlaw; Ian J Deary Journal: J Neurosci Date: 2015-06-03 Impact factor: 6.167
Authors: Benjamin S Aribisala; Stewart Wiseman; Zoe Morris; Maria C Valdés-Hernández; Natalie A Royle; Susana M Maniega; Alan J Gow; Janie Corley; Mark E Bastin; John Starr; Ian J Deary; Joanna M Wardlaw Journal: Stroke Date: 2014-01-07 Impact factor: 7.914
Authors: M C Valdés Hernández; R J Piper; M E Bastin; N A Royle; S Muñoz Maniega; B S Aribisala; C Murray; I J Deary; J M Wardlaw Journal: AJNR Am J Neuroradiol Date: 2013-06-27 Impact factor: 3.825
Authors: Benjamin S Aribisala; Zoe Morris; Elizabeth Eadie; Avril Thomas; Alan Gow; Maria C Valdés Hernández; Natalie A Royle; Mark E Bastin; John Starr; Ian J Deary; Joanna M Wardlaw Journal: Hypertension Date: 2014-01-27 Impact factor: 10.190