Reproducibility in the absence of selective reporting: An illustration from large-scale brain asymmetry research

ENIGMA Laterality Working Group

doi:10.1002/hbm.25154

Reproducibility in the absence of selective reporting: An illustration from large-scale brain asymmetry research

ENIGMA Laterality Working Group

Medicine

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

11 Citations (Scopus)

Abstract

The problem of poor reproducibility of scientific findings has received much attention over recent years, in a variety of fields including psychology and neuroscience. The problem has been partly attributed to publication bias and unwanted practices such as p-hacking. Low statistical power in individual studies is also understood to be an important factor. In a recent multisite collaborative study, we mapped brain anatomical left–right asymmetries for regional measures of surface area and cortical thickness, in 99 MRI datasets from around the world, for a total of over 17,000 participants. In the present study, we revisited these hemispheric effects from the perspective of reproducibility. Within each dataset, we considered that an effect had been reproduced when it matched the meta-analytic effect from the 98 other datasets, in terms of effect direction and significance threshold. In this sense, the results within each dataset were viewed as coming from separate studies in an “ideal publishing environment,” that is, free from selective reporting and p hacking. We found an average reproducibility rate of 63.2% (SD = 22.9%, min = 22.2%, max = 97.0%). As expected, reproducibility was higher for larger effects and in larger datasets. Reproducibility was not obviously related to the age of participants, scanner field strength, FreeSurfer software version, cortical regional measurement reliability, or regional size. These findings constitute an empirical illustration of reproducibility in the absence of publication bias or p hacking, when assessing realistic biological effects in heterogeneous neuroscience data, and given typically-used sample sizes.

Original language	English
Pages (from-to)	244-254
Number of pages	11
Journal	Human Brain Mapping
Volume	43
Issue number	1
DOIs	https://doi.org/10.1002/hbm.25154
Publication status	Published - Jan 2022

Bibliographical note

Funding Information:
This research was funded by the Max Planck Society (Germany). Funding information for each participating site is available in the Supporting Information Appendix. Funding information

Publisher Copyright:
© 2020 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.

ASJC Scopus Subject Areas

Anatomy
Radiological and Ultrasound Technology
Radiology Nuclear Medicine and imaging
Neurology
Clinical Neurology

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

Access to Document

10.1002/hbm.25154

Cite this

@article{d5076d8c44e94ba59c8844a9b790ce0c,

title = "Reproducibility in the absence of selective reporting: An illustration from large-scale brain asymmetry research",

abstract = "The problem of poor reproducibility of scientific findings has received much attention over recent years, in a variety of fields including psychology and neuroscience. The problem has been partly attributed to publication bias and unwanted practices such as p-hacking. Low statistical power in individual studies is also understood to be an important factor. In a recent multisite collaborative study, we mapped brain anatomical left–right asymmetries for regional measures of surface area and cortical thickness, in 99 MRI datasets from around the world, for a total of over 17,000 participants. In the present study, we revisited these hemispheric effects from the perspective of reproducibility. Within each dataset, we considered that an effect had been reproduced when it matched the meta-analytic effect from the 98 other datasets, in terms of effect direction and significance threshold. In this sense, the results within each dataset were viewed as coming from separate studies in an “ideal publishing environment,” that is, free from selective reporting and p hacking. We found an average reproducibility rate of 63.2% (SD = 22.9%, min = 22.2%, max = 97.0%). As expected, reproducibility was higher for larger effects and in larger datasets. Reproducibility was not obviously related to the age of participants, scanner field strength, FreeSurfer software version, cortical regional measurement reliability, or regional size. These findings constitute an empirical illustration of reproducibility in the absence of publication bias or p hacking, when assessing realistic biological effects in heterogeneous neuroscience data, and given typically-used sample sizes.",

author = "{ENIGMA Laterality Working Group} and Kong, {Xiang Zhen} and Clyde Francks and Kong, {Xiang Zhen} and Mathias, {Samuel R.} and Tulio Guadalupe and Christoph Ab{\'e} and Ingrid Agartz and Akudjedu, {Theophilus N.} and Andre Aleman and Saud Alhusaini and Allen, {Nicholas B.} and David Ames and Andreassen, {Ole A.} and Vasquez, {Alejandro Arias} and Armstrong, {Nicola J.} and Phil Asherson and Felipe Bergo and Bastin, {Mark E.} and Albert Batalla and Jochen Bauer and Baune, {Bernhard T.} and Ramona Baur-Streubel and Joseph Biederman and Blaine, {Sara K.} and Premika Boedhoe and Erlend B{\o}en and Anushree Bose and Janita Bralten and Daniel Brandeis and Silvia Brem and Henry Brodaty and Dilara Y{\"u}ksel and Brooks, {Samantha J.} and Jan Buitelaar and Christian B{\"u}rger and Robin B{\"u}low and Vince Calhoun and Anna Calvo and Canales-Rodr{\'i}guez, {Erick Jorge} and Cannon, {Dara M.} and Caparelli, {Elisabeth C.} and Castellanos, {Francisco X.} and Fernando Cendes and Chaim-Avancini, {Tiffany Moukbel} and Kaylita Chantiluke and Chen, {Qun lin} and Xiayu Chen and Yuqi Cheng and Anastasia Christakou and Tim Hahn",

note = "Funding Information: This research was funded by the Max Planck Society (Germany). Funding information for each participating site is available in the Supporting Information Appendix. Funding information Publisher Copyright: {\textcopyright} 2020 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.",

year = "2022",

month = jan,

doi = "10.1002/hbm.25154",

language = "English",

volume = "43",

pages = "244--254",

journal = "Human Brain Mapping",

issn = "1065-9471",

publisher = "Wiley-Liss Inc.",

number = "1",

}

TY - JOUR

T1 - Reproducibility in the absence of selective reporting

T2 - An illustration from large-scale brain asymmetry research

AU - ENIGMA Laterality Working Group

AU - Kong, Xiang Zhen

AU - Francks, Clyde

AU - Kong, Xiang Zhen

AU - Mathias, Samuel R.

AU - Guadalupe, Tulio

AU - Abé, Christoph

AU - Agartz, Ingrid

AU - Akudjedu, Theophilus N.

AU - Aleman, Andre

AU - Alhusaini, Saud

AU - Allen, Nicholas B.

AU - Ames, David

AU - Andreassen, Ole A.

AU - Vasquez, Alejandro Arias

AU - Armstrong, Nicola J.

AU - Asherson, Phil

AU - Bergo, Felipe

AU - Bastin, Mark E.

AU - Batalla, Albert

AU - Bauer, Jochen

AU - Baune, Bernhard T.

AU - Baur-Streubel, Ramona

AU - Biederman, Joseph

AU - Blaine, Sara K.

AU - Boedhoe, Premika

AU - Bøen, Erlend

AU - Bose, Anushree

AU - Bralten, Janita

AU - Brandeis, Daniel

AU - Brem, Silvia

AU - Brodaty, Henry

AU - Yüksel, Dilara

AU - Brooks, Samantha J.

AU - Buitelaar, Jan

AU - Bürger, Christian

AU - Bülow, Robin

AU - Calhoun, Vince

AU - Calvo, Anna

AU - Canales-Rodríguez, Erick Jorge

AU - Cannon, Dara M.

AU - Caparelli, Elisabeth C.

AU - Castellanos, Francisco X.

AU - Cendes, Fernando

AU - Chaim-Avancini, Tiffany Moukbel

AU - Chantiluke, Kaylita

AU - Chen, Qun lin

AU - Chen, Xiayu

AU - Cheng, Yuqi

AU - Christakou, Anastasia

AU - Hahn, Tim

N1 - Funding Information: This research was funded by the Max Planck Society (Germany). Funding information for each participating site is available in the Supporting Information Appendix. Funding information Publisher Copyright: © 2020 The Authors. Human Brain Mapping published by Wiley Periodicals LLC.

PY - 2022/1

Y1 - 2022/1

N2 - The problem of poor reproducibility of scientific findings has received much attention over recent years, in a variety of fields including psychology and neuroscience. The problem has been partly attributed to publication bias and unwanted practices such as p-hacking. Low statistical power in individual studies is also understood to be an important factor. In a recent multisite collaborative study, we mapped brain anatomical left–right asymmetries for regional measures of surface area and cortical thickness, in 99 MRI datasets from around the world, for a total of over 17,000 participants. In the present study, we revisited these hemispheric effects from the perspective of reproducibility. Within each dataset, we considered that an effect had been reproduced when it matched the meta-analytic effect from the 98 other datasets, in terms of effect direction and significance threshold. In this sense, the results within each dataset were viewed as coming from separate studies in an “ideal publishing environment,” that is, free from selective reporting and p hacking. We found an average reproducibility rate of 63.2% (SD = 22.9%, min = 22.2%, max = 97.0%). As expected, reproducibility was higher for larger effects and in larger datasets. Reproducibility was not obviously related to the age of participants, scanner field strength, FreeSurfer software version, cortical regional measurement reliability, or regional size. These findings constitute an empirical illustration of reproducibility in the absence of publication bias or p hacking, when assessing realistic biological effects in heterogeneous neuroscience data, and given typically-used sample sizes.

AB - The problem of poor reproducibility of scientific findings has received much attention over recent years, in a variety of fields including psychology and neuroscience. The problem has been partly attributed to publication bias and unwanted practices such as p-hacking. Low statistical power in individual studies is also understood to be an important factor. In a recent multisite collaborative study, we mapped brain anatomical left–right asymmetries for regional measures of surface area and cortical thickness, in 99 MRI datasets from around the world, for a total of over 17,000 participants. In the present study, we revisited these hemispheric effects from the perspective of reproducibility. Within each dataset, we considered that an effect had been reproduced when it matched the meta-analytic effect from the 98 other datasets, in terms of effect direction and significance threshold. In this sense, the results within each dataset were viewed as coming from separate studies in an “ideal publishing environment,” that is, free from selective reporting and p hacking. We found an average reproducibility rate of 63.2% (SD = 22.9%, min = 22.2%, max = 97.0%). As expected, reproducibility was higher for larger effects and in larger datasets. Reproducibility was not obviously related to the age of participants, scanner field strength, FreeSurfer software version, cortical regional measurement reliability, or regional size. These findings constitute an empirical illustration of reproducibility in the absence of publication bias or p hacking, when assessing realistic biological effects in heterogeneous neuroscience data, and given typically-used sample sizes.

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DO - 10.1002/hbm.25154

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