Working memory in preterm-born adults: load-dependent compensatory activity of the posterior default mode network.

Daamen, Marcel; Bäuml, Josef G; Scheef, Lukas; Sorg, Christian; Busch, Barbara; Baumann, Nicole; Bartmann, Peter; Wolke, Dieter; Wohlschläger, Afra; Boecker, Henning

doi:10.1002/hbm.22691

2015

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Dokumenttyp:: Journal Article; Research Support, Non-U.S. Gov't
Autor(en):: Daamen, Marcel; Bäuml, Josef G; Scheef, Lukas; Sorg, Christian; Busch, Barbara; Baumann, Nicole; Bartmann, Peter; Wolke, Dieter; Wohlschläger, Afra; Boecker, Henning
Titel:: Working memory in preterm-born adults: load-dependent compensatory activity of the posterior default mode network.
Abstract:: Premature birth is associated with an increased risk of cognitive performance deficits that are dependent on working memory (WM) load in childhood. Less clear is whether preterm-born adults show similar WM impairments, or develop compensatory brain mechanisms that help to overcome prematurity-related functional deficits, for example, by a workload-dependent over-recruitment of WM-typical areas, and/or engagement of alternative brain networks. In this functional magnetic resonance imaging study, 73 adults born very preterm and/or with very low birth weight (VP/VLBW) and 73 term-born controls (CON, mean age: 26.5 years) performed a verbal N-Back paradigm with varying workload (0-back, 1-back, 2-back). Generally, both groups showed similar performance accuracy and task-typical patterns of brain activations (especially in fronto-cingulo-parietal, thalamic, and cerebellar areas) and deactivations (especially in mesial frontal and parietal aspects of the default mode network [DMN]). However, VP/VLBW adults showed significantly stronger deactivations (P < 0.05, cluster-level corrected) than CON in posterior DMN regions, including right ventral precuneus, and right parahippocampal areas (with adjacent cerebellar areas), which were specific for the most demanding 2-back condition. Consistent with a workload-dependent effect, VP/VLBW adults with stronger deactivations (1-back > 2-back) in the parahippocampal/cerebellar cluster also presented a greater slowing of response latencies with increasing WM load (2-back > 1-back), indicative of higher effort. In conclusion, VP/VLBW adults recruited similar anatomical networks as controls during N-back performance, but showed an enhanced suppression of posterior DMN regions during higher workload, which may reflect a temporary suppression of stimulus-independent thoughts that helps to maintain adequate task performance with increasing attentional demands.
Zeitschriftentitel:: Hum Brain Mapp
Jahr:: 2015
Band / Volume:: 36
Heft / Issue:: 3
Seitenangaben Beitrag:: 1121-37
Sprache:: eng
Volltext / DOI:: doi:10.1002/hbm.22691
PubMed:: http://view.ncbi.nlm.nih.gov/pubmed/25413496
Print-ISSN:: 1065-9471
TUM Einrichtung:: Fachgebiet Neuroradiologie (Prof. Zimmer); Klinik und Poliklinik für Psychiatrie und Psychotherapie
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