Abstract
Neuropsychological and functional magnetic resonance imaging evidence suggests that the ability to vividly remember our personal past, and imagine future scenarios, involves two closely connected regions: the hippocampus and ventromedial prefrontal cortex (vmPFC). Despite evidence of a direct anatomical connection from hippocampus to vmPFC, it is unknown whether hippocampal-vmPFC structural connectivity supports both past- and future-oriented episodic thinking. To address this, we applied a novel deterministic tractography protocol to diffusion-weighted magnetic resonance imaging (dMRI) data from a group of healthy young adult humans who undertook an adapted past-future autobiographical interview (portions of this data were published in Hodgetts et al., 2017a). This tractography protocol enabled distinct subdivisions of the fornix, detected previously in axonal tracer studies, to be reconstructed in vivo, namely the pre-commissural (connecting the hippocampus to vmPFC) and post-commissural (linking the hippocampus and medial diencephalon) fornix. As predicted, we found that inter-individual differences in pre-commissural - but not post-commissural - fornix microstructure (fractional anisotropy) were significantly correlated with the episodic richness of both past and future autobiographical narratives. Notably, these results held when controlling for non-episodic narrative content, verbal fluency, and grey matter volumes of the hippocampus and vmPFC. This study provides novel evidence that reconstructing events from one's personal past, and constructing possible future events, involves a distinct, structurally-instantiated hippocampal-vmPFC pathway.
Highlights
A key adaptive feature of human cognition is the ability to reexperience our personal histories and imagine the future in vivid detail (Suddendorf and Corballis, 2007; Tulving, 2005; Wheeler et al, 1997)
The number of episodic details an individual recalled for the past correlated with the number of external details recalled for the past (Pearson’s r 1⁄4 0.35, p 1⁄4 0.035, Vovk-Sellke Maximum p –ratios (VS-MPR) 1⁄4 3.15); this was not the case, for the future (Pear son’s r 1⁄4 À 0.16, p 1⁄4 0.783, VS-MPR 1⁄4 1.00)
Despite evidence of a direct connection from hippocampus to ventromedial prefrontal cortex (vmPFC) mediated by the pre-commissural fornix (Aggleton et al, 2015), it is unknown whether this connectivity supports both past and future-oriented episodic thinking
Summary
A key adaptive feature of human cognition is the ability to reexperience our personal histories and imagine the future in vivid detail (Suddendorf and Corballis, 2007; Tulving, 2005; Wheeler et al, 1997). The ability to retrieve episodically rich autobiographical memories and construct coherent future simulations is diminished following lesions to both the hippo campus and vmPFC (Kwan et al, 2010; McCormick et al, 2018; Race et al, 2011; but see Dede et al, 2016). Given the directed hippocampus-PFC functional connections identified above in relation to (re)constructing events in episodic memory and episodic simulation (Campbell et al, 2018; McCormick et al, 2015), we hypothesized that individual differences in the episodic richness of past and future thinking would be related to the microstructure of the hippocampus-PFC connections underpinned by the pre-commissural fornix. As a compar ison tract, we used the post-commissural fornix, which connects hip pocampus to mammillary bodies and anterior thalamic nuclei (Aggleton, 2012; Christiansen et al, 2016; Mathiasen et al, 2019)
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