Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences

Colin G DeYoung; Kirsten Hilger; Jamie L Hanson; Rany Abend; Timothy A Allen; Roger E Beaty; Scott D Blain; Robert S Chavez; Stephen A Engel; Ma Feilong; Alex Fornito; Erhan Genç; Vina Goghari; Rachael G Grazioplene; Philipp Homan; Keanan Joyner; Antonia N Kaczkurkin; Robert D Latzman; Elizabeth A Martin; Aki Nikolaidis; Alan D Pickering; Adam Safron; Tyler A Sassenberg; Michelle N Servaas; Luke D Smillie; R Nathan Spreng; Essi Viding; Jan Wacker

doi:10.1162/jocn_a_02297

Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences

Colin G DeYoung, Kirsten Hilger, Jamie L Hanson, Rany Abend, Timothy A Allen, Roger E Beaty, Scott D Blain, Robert S Chavez, Stephen A Engel, Ma Feilong, Alex Fornito, Erhan Genç, Vina Goghari, Rachael G Grazioplene, Philipp Homan, Keanan Joyner, Antonia N Kaczkurkin, Robert D Latzman, Elizabeth A Martin, Aki NikolaidisAlan D Pickering, Adam Safron, Tyler A Sassenberg, Michelle N Servaas, Luke D Smillie, R Nathan Spreng, Essi Viding, Jan Wacker

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Linking neurobiology to relatively stable individual differences in cognition, emotion, motivation, and behavior can require large sample sizes to yield replicable results. Given the nature of between-person research, sample sizes at least in the hundreds are likely to be necessary in most neuroimaging studies of individual differences, regardless of whether they are investigating the whole brain or more focal hypotheses. However, the appropriate sample size depends on the expected effect size. Therefore, we propose four strategies to increase effect sizes in neuroimaging research, which may help to enable the detection of replicable between-person effects in samples in the hundreds rather than the thousands: (1) theoretical matching between neuroimaging tasks and behavioral constructs of interest; (2) increasing the reliability of both neural and psychological measurement; (3) individualization of measures for each participant; and (4) using multivariate approaches with cross-validation instead of univariate approaches. We discuss challenges associated with these methods and highlight strategies for improvements that will help the field to move toward a more robust and accessible neuroscience of individual differences.

Original language	English
Number of pages	12
Journal	Journal of Cognitive Neuroscience
DOIs	https://doi.org/10.1162/jocn_a_02297
Publication status	E-pub ahead of print - 7-Jan-2025

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DeYoung, C. G., Hilger, K., Hanson, J. L., Abend, R., Allen, T. A., Beaty, R. E., Blain, S. D., Chavez, R. S., Engel, S. A., Feilong, M., Fornito, A., Genç, E., Goghari, V., Grazioplene, R. G., Homan, P., Joyner, K., Kaczkurkin, A. N., Latzman, R. D., Martin, E. A., ... Wacker, J. (2025). Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences. Journal of Cognitive Neuroscience. Advance online publication. https://doi.org/10.1162/jocn_a_02297

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title = "Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences",

abstract = "Linking neurobiology to relatively stable individual differences in cognition, emotion, motivation, and behavior can require large sample sizes to yield replicable results. Given the nature of between-person research, sample sizes at least in the hundreds are likely to be necessary in most neuroimaging studies of individual differences, regardless of whether they are investigating the whole brain or more focal hypotheses. However, the appropriate sample size depends on the expected effect size. Therefore, we propose four strategies to increase effect sizes in neuroimaging research, which may help to enable the detection of replicable between-person effects in samples in the hundreds rather than the thousands: (1) theoretical matching between neuroimaging tasks and behavioral constructs of interest; (2) increasing the reliability of both neural and psychological measurement; (3) individualization of measures for each participant; and (4) using multivariate approaches with cross-validation instead of univariate approaches. We discuss challenges associated with these methods and highlight strategies for improvements that will help the field to move toward a more robust and accessible neuroscience of individual differences.",

author = "DeYoung, {Colin G} and Kirsten Hilger and Hanson, {Jamie L} and Rany Abend and Allen, {Timothy A} and Beaty, {Roger E} and Blain, {Scott D} and Chavez, {Robert S} and Engel, {Stephen A} and Ma Feilong and Alex Fornito and Erhan Gen{\c c} and Vina Goghari and Grazioplene, {Rachael G} and Philipp Homan and Keanan Joyner and Kaczkurkin, {Antonia N} and Latzman, {Robert D} and Martin, {Elizabeth A} and Aki Nikolaidis and Pickering, {Alan D} and Adam Safron and Sassenberg, {Tyler A} and Servaas, {Michelle N} and Smillie, {Luke D} and Spreng, {R Nathan} and Essi Viding and Jan Wacker",

note = "{\textcopyright} 2025 Massachusetts Institute of Technology.",

year = "2025",

month = jan,

day = "7",

doi = "10.1162/jocn_a_02297",

language = "English",

journal = "Journal of Cognitive Neuroscience",

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DeYoung, CG, Hilger, K, Hanson, JL, Abend, R, Allen, TA, Beaty, RE, Blain, SD, Chavez, RS, Engel, SA, Feilong, M, Fornito, A, Genç, E, Goghari, V, Grazioplene, RG, Homan, P, Joyner, K, Kaczkurkin, AN, Latzman, RD, Martin, EA, Nikolaidis, A, Pickering, AD, Safron, A, Sassenberg, TA, Servaas, MN, Smillie, LD, Spreng, RN, Viding, E & Wacker, J 2025, 'Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences', Journal of Cognitive Neuroscience. https://doi.org/10.1162/jocn_a_02297

TY - JOUR

T1 - Beyond Increasing Sample Sizes

T2 - Optimizing Effect Sizes in Neuroimaging Research on Individual Differences

AU - DeYoung, Colin G

AU - Hilger, Kirsten

AU - Hanson, Jamie L

AU - Abend, Rany

AU - Allen, Timothy A

AU - Beaty, Roger E

AU - Blain, Scott D

AU - Chavez, Robert S

AU - Engel, Stephen A

AU - Feilong, Ma

AU - Fornito, Alex

AU - Genç, Erhan

AU - Goghari, Vina

AU - Grazioplene, Rachael G

AU - Homan, Philipp

AU - Joyner, Keanan

AU - Kaczkurkin, Antonia N

AU - Latzman, Robert D

AU - Martin, Elizabeth A

AU - Nikolaidis, Aki

AU - Pickering, Alan D

AU - Safron, Adam

AU - Sassenberg, Tyler A

AU - Servaas, Michelle N

AU - Smillie, Luke D

AU - Spreng, R Nathan

AU - Viding, Essi

AU - Wacker, Jan

PY - 2025/1/7

Y1 - 2025/1/7

N2 - Linking neurobiology to relatively stable individual differences in cognition, emotion, motivation, and behavior can require large sample sizes to yield replicable results. Given the nature of between-person research, sample sizes at least in the hundreds are likely to be necessary in most neuroimaging studies of individual differences, regardless of whether they are investigating the whole brain or more focal hypotheses. However, the appropriate sample size depends on the expected effect size. Therefore, we propose four strategies to increase effect sizes in neuroimaging research, which may help to enable the detection of replicable between-person effects in samples in the hundreds rather than the thousands: (1) theoretical matching between neuroimaging tasks and behavioral constructs of interest; (2) increasing the reliability of both neural and psychological measurement; (3) individualization of measures for each participant; and (4) using multivariate approaches with cross-validation instead of univariate approaches. We discuss challenges associated with these methods and highlight strategies for improvements that will help the field to move toward a more robust and accessible neuroscience of individual differences.

AB - Linking neurobiology to relatively stable individual differences in cognition, emotion, motivation, and behavior can require large sample sizes to yield replicable results. Given the nature of between-person research, sample sizes at least in the hundreds are likely to be necessary in most neuroimaging studies of individual differences, regardless of whether they are investigating the whole brain or more focal hypotheses. However, the appropriate sample size depends on the expected effect size. Therefore, we propose four strategies to increase effect sizes in neuroimaging research, which may help to enable the detection of replicable between-person effects in samples in the hundreds rather than the thousands: (1) theoretical matching between neuroimaging tasks and behavioral constructs of interest; (2) increasing the reliability of both neural and psychological measurement; (3) individualization of measures for each participant; and (4) using multivariate approaches with cross-validation instead of univariate approaches. We discuss challenges associated with these methods and highlight strategies for improvements that will help the field to move toward a more robust and accessible neuroscience of individual differences.

U2 - 10.1162/jocn_a_02297

DO - 10.1162/jocn_a_02297

M3 - Article

C2 - 39792657

SN - 0898-929X

JO - Journal of Cognitive Neuroscience

JF - Journal of Cognitive Neuroscience

ER -

Beyond Increasing Sample Sizes: Optimizing Effect Sizes in Neuroimaging Research on Individual Differences

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