Frontiers in Aging Neuroscience (Jan 2020)

Functional Near-Infrared Spectroscopy to Study Cerebral Hemodynamics in Older Adults During Cognitive and Motor Tasks: A Review

  • Cristina Udina,
  • Cristina Udina,
  • Cristina Udina,
  • Stella Avtzi,
  • Turgut Durduran,
  • Turgut Durduran,
  • Roee Holtzer,
  • Roee Holtzer,
  • Andrea L. Rosso,
  • Carmina Castellano-Tejedor,
  • Carmina Castellano-Tejedor,
  • Carmina Castellano-Tejedor,
  • Laura-Monica Perez,
  • Laura-Monica Perez,
  • Luis Soto-Bagaria,
  • Luis Soto-Bagaria,
  • Marco Inzitari,
  • Marco Inzitari,
  • Marco Inzitari

DOI
https://doi.org/10.3389/fnagi.2019.00367
Journal volume & issue
Vol. 11

Abstract

Read online

The integrity of the frontal areas of the brain, specifically the prefrontal cortex, are critical to preserve cognition and mobility in late life. Prefrontal cortex regions are involved in executive functions and gait control and have been related to the performance of dual-tasks. Dual-task performance assessment may help identify older adults at risk of negative health outcomes. As an alternative to neuroimaging techniques that do not allow assessment during actual motion, functional Near-Infrared Spectroscopy (fNIRS) is a non-invasive technique that can assess neural activation through the measurement of cortical oxygenated and deoxygenated hemoglobin levels, while the person is performing a motor task in a natural environment as well as during cognitive tasks. The aim of this review was to describe the use of fNIRS to study frontal lobe hemodynamics during cognitive, motor and dual-tasks in older adults. From the 46 included publications, 20 studies used only cognitive tasks, three studies used motor tasks and 23 used dual-tasks. Our findings suggest that fNIRS detects changes in frontal activation in older adults (cognitively healthy and mild cognitive impairment), especially while performing cognitive and dual-tasks. In both the comparison between older and younger adults, and in people with different neurological conditions, compared to healthier controls, the prefrontal cortex seems to experience a higher activation, which could be interpreted in the context of proposed neural inefficiency and limited capacity models. Further research is needed to establish standardized fNIRS protocols, study the cerebral hemodynamic in different neurological and systemic conditions that might influence cortical activation and explore its role in predicting incident health outcomes such as dementia.

Keywords