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14 - The aging brain: morphology, imaging and function

from PART II - DISORDERS OF HIGHER FUNCTION

Published online by Cambridge University Press:  05 August 2016

Marilyn S. Albert
Affiliation:
Department of Psychiatry and Neurology, Harvard Medical School, Boston, MA, USA
Guy M. McKhann
Affiliation:
Department of Neurology, Johns Hopkins School of Medicine, Baltimore, MD, USA
Arthur K. Asbury
Affiliation:
University of Pennsylvania School of Medicine
Guy M. McKhann
Affiliation:
The Johns Hopkins University School of Medicine
W. Ian McDonald
Affiliation:
University College London
Peter J. Goadsby
Affiliation:
University College London
Justin C. McArthur
Affiliation:
The Johns Hopkins University School of Medicine
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Summary

Not too many years ago, the concept by both physicians and the general public was that your brain deteriorated as you got older. It was believed that, with aging, the brain shrank, there was significant drop out of nerve cells throughout the brain, and that once lost, those cells could not be replaced. In addition, at a subcellular level, data suggested that synaptic contacts markedly decreased. Moreover, it was thought that these changes began among individuals in young adulthood and progressed inexorably across the adult life span. As we will emphasize, among individuals who are optimally healthy these previously held concepts are wrong. The information that allows us to draw this conclusion is based on modern technologies for studying postmortem tissue, imaging the living brain, careful cognitive evaluations, and the innovative use of animal models.

Methodologic and technical issues

Focus on optimally healthy older individuals

One of the major changes to occur in the study of brain–behaviour relationships in aging is the focus on optimally healthy participants. This permits one to differentiate changes related to disease from those related to age. Among human subjects, this requires careful exclusion of subjects in the early stages of dementia. However, many medical diseases are common in older individuals (e.g. hypertension, respiratory or cardiac disease, vitamin deficiency), all of which may impair intellectual function. Ideally, if one wants to study healthy individuals, these disorders should be excluded as well. Subjects selected without evidence of clinical disease will differ greatly from a group of older persons that is chosen at random from a population, containing many individuals with serious medical illness. Some of these illnesses will include those with considerable impact on cognitive function, such as Alzheimer's disease (Odenheimer et al., 1994). Thus, optimally healthy individuals, although non-representative, can be of heuristic value, and may ultimately make it easier to identify interventions that can minimize age-related cognitive change.

Inter-individual differences and aging

In recent years, when researchers have focused their attention on animal models and human studies of aging, it has become clear that, even among optimally healthy subjects, there is considerable variability in both cognitive and physical abilities.

Type
Chapter
Information
Diseases of the Nervous System
Clinical Neuroscience and Therapeutic Principles
, pp. 195 - 209
Publisher: Cambridge University Press
Print publication year: 2002

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