Research output

Cognitive improvement and brain changes after real-time functional MRI neurofeedback training in healthy elderly and prodromal Alzheimer's disease

Research output: Contribution to journalArticleAcademicpeer-review

Associated researcher

  • Hohenfeld, C.
  • Nellessen, N.
  • Dogan, I.
  • Kuhn, H.
  • Müller, C.
  • Papa, F.
  • Ketteler, S.
  • Goebel, Rainer

  • Heinecke, A.
  • Shah, N.J.

  • Schulz, J. B.
  • Reske, M.
  • Reetz, K.

Associated organisations

Abstract

BACKGROUND: Cognitive decline is characteristic for Alzheimer's disease (AD) and also for healthy ageing. As a proof-of-concept study, we examined whether this decline can be counteracted using real-time fMRI neurofeedback training. Visuospatial memory and the parahippocampal gyrus (PHG) were targeted.

METHODS: Sixteen healthy elderly subjects (mean age 63.5 years, SD = 6.663) and 10 patients with prodromal AD (mean age 66.2 years, SD = 8.930) completed the experiment. Four additional healthy subjects formed a sham-feedback condition to validate the paradigm. The protocol spanned five examination days (T1-T5). T1 contained a neuropsychological pre-test, the encoding of a real-world footpath, and an anatomical MRI scan of the brain. T2-T4 included the fMRI neurofeedback training paradigm, in which subjects learned to enhance activation of the left PHG while recalling the path encoded on T1. At T5, the neuropsychological post-test and another anatomical MRI brain scan were performed. The neuropsychological battery included the Montreal Cognitive Assessment (MoCA); the Visual and Verbal Memory Test (VVM); subtests of the Wechsler Memory Scale (WMS); the Visual Patterns Test; and Trail Making Tests (TMT) A and B.

RESULTS: Healthy elderly and patients with prodromal AD showed improved visuospatial memory performance after neurofeedback training. Healthy subjects also performed better in a working-memory task (WMS backward digit-span) and in the MoCA. Both groups were able to elicit parahippocampal activation during training, but no significant changes in brain activation were found over the course of the training. However, Granger-causality-analysis revealed changes in cerebral connectivity over the course of the training, involving the parahippocampus and identifying the precuneus as main driver of activation in both groups. Voxel-based morphometry showed increases in grey matter volumes in the precuneus and frontal cortex. Neither cognitive enhancements, nor parahippocampal activation were found in the control group undergoing sham-feedback.

CONCLUSION: These findings suggest that cognitive decline, either related to prodromal AD or healthy ageing, could be counteracted using fMRI-based neurofeedback. Future research needs to determine the potential of this method as a treatment tool.

    Research areas

  • Journal Article, visuospatial memory, ACTIVATION, PARIETAL LOBE, OLDER-ADULTS, plasticity, PREFRONTAL CORTEX, mental imagery, IMPAIRMENT, GRANGER CAUSALITY ANALYSIS, MOTOR IMAGERY, parahippocampus, real-time fMRI, GRAY-MATTER, FMRI, cognitive training, neurofeedback, WORKING-MEMORY
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Details

Original languageEnglish
Article number384
Number of pages15
JournalFrontiers in Neurology
Volume8
DOIs
Publication statusPublished - 9 Aug 2017