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Financial Decision Making And The Aging Brain

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Financial Decision Making And The Aging Brain

Gregory R. Samanez-Larkin

Yale University – Department of Psychology


Observer, Vol. 26, No. 5, 30–33, (2013)


We are currently at a unique moment in human history where demographic changes are and will continue to drastically alter the profile of decision makers in the global population. These changes highlight the challenges (e.g., rising entitlement costs) but also opportunities of a graying population. To the extent that an emerging subfield of multidisciplinary science can respond to the immediate demand for integrative and translational research, we have the potential to make major contributions to improving the well-being of humans across the life span.

Financial Decision Making And The Aging Brain – Introduction

Many of the most influential financial decision makers in our society from business to politics happen to be middle-aged. The average age of Fortune 500 chief executive officers and chief financial officers is around the mid-fifties. Historically, the average appointment age of Federal Reserve Chairs and National Economic Council Directors is also in the fifties. The number is not an artifact of averaging; all current members of the Council of Economic Advisors and half of the National Economic Council members are fifty-something. Is there some sort of peak of financial reason in the fifties? Recent research in economics, psychology, and neuroscience suggests that there may be.

In an analysis of financial mistakes across a range of credit behaviors (e.g., sub-optimal balance transfers, fee payments, etc.), a recent paper identified the age around where mistakes are minimized as 53 (Agarwal, Driscoll, Gabaix, & Laibson, 2009). Heavily influenced by classic work in the psychology of aging on fluid and crystallized intelligence (Horn & Cattell, 1967), the authors presented a model of how financial decision-making performance may be influenced by divergent changes in cognitive abilities over adulthood. The idea is that the youngest and oldest decision makers make mistakes for different reasons. The young are cognitively robust but inexperienced; the elders can draw on a lifetime of experience but are limited in some fluid cognitive abilities. The peak in middle age is at a sweet spot where individuals have not suffered much fluid decline but also have decades of life experience.

Importantly, the evidence is not limited to credit behavior. In general, increases in risky financial mistakes at older ages have been linked to limitations in fluid cognitive ability and age differences in frontostriatal network structure and function. A meta-analysis of behavioral studies on risky decision making and aging reveals the largest age differences for decisions that depend on learning in a novel environment (Mata, Josef, Samanez-Larkin, & Hertwig, 2011). A series of recent neuroimaging studies has focused on age differences in risky financial decision making (Samanez-Larkin & Knutson, 2014). These studies have shown that subcortical regions like the ventral striatum, which reliably activate in older adults in simple reward tasks (Samanez-Larkin et al., 2007), show irregular functional activity in old age in decision tasks that depend on recent learning (Chowdhury et al., 2013; Samanez-Larkin, Kuhnen, Yoo, & Knutson, 2010). Evidence from structural imaging suggests that the learning-related decision impairments and neural signal irregularities are associated with reduced white matter integrity in frontostriatal circuits (Chowdhury et al., 2013; Samanez-Larkin, Levens, Perry, Dougherty, & Knutson, 2012). Together, the findings suggest that basic striatal function may remain preserved over adulthood, but that broader network disruption may underlie the fluid cognitive limitations on making wise decisions in an uncertain and novel environment. Based on these findings, studies are beginning to test various “decision aids” that may provide external environmental support to compensate for limitations in fluid cognition (Samanez-Larkin, Wagner, & Knutson, 2011b).

However, in many situations, crystallized intelligence compensates for reduced fluid cognitive abilities without the need for external environmental support. There is growing evidence for preservation or even improvement in old age for decisions that depend on accumulated life experience (Li, Baldassi, Johnson, & Weber, 2012). One example is intertemporal choice. A review of the behavioral literature reveals that older adults are often more willing to wait over short-time delays for a larger amount of money compared to a smaller amount of money available immediately (Löckenhoff, 2011). Recent neuroscience research suggests that the accumulation of experience with delayed rewards over the lifespan may serve to tune activity in regions like the ventral striatum. In two recent datasets, the strong sensitivity to immediately available rewards in the striatum in young adulthood is reduced in older age (Figure 1); older adults show similar activity for rewards available now or later (Eppinger, Nystrom, & Cohen, 2012; Samanez-Larkin et al., 2011a). One interpretation is that it is as if the older folks know that $20 is going to be just as good in two weeks as it is today. The twenty-somethings just haven’t had the opportunity to realize interest rates over decades and appreciate the long-term rewards of waiting. This may be a situation where we should be trying to get those impatient young people to make decisions more like the older folks. A fascinating series of recent studies is doing just that; increasing the connectedness of younger people to their older selves (e.g., using virtual reality) reduces temporal discounting and increases savings in early life (Hershfield, 2011).

The evidence for declines in learning-based risky decisions and improvement in intertemporal decisions in old age is consistent with the model Agarwal and colleagues adapted from Horn and Cattell. It also suggests that the model can be flexibly adapted to explain decision behavior across a range of contexts. Decision-performance differences across adulthood are heavily dependent on the specific cognitive demands or opportunities for drawing on prior knowledge in different contexts (Mata et al., 2012). An extension of the model from Agarwal and colleagues suggests that in situations that are more dependent on fluid ability, performance will be worse in old age; in situations with greater opportunity to rely on crystallized skills, performance will be better in old age (Figure 2).

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