TY - JOUR
T1 - Stimulating aged brains with transcranial direct current stimulation
T2 - Opportunities and challenges
AU - Habich, Annegret
AU - Fehér, Kristoffer D.
AU - Antonenko, Daria
AU - Boraxbekk, Carl Johan
AU - Flöel, Agnes
AU - Nissen, Christoph
AU - Siebner, Hartwig Roman
AU - Thielscher, Axel
AU - Klöppel, Stefan
PY - 2020
Y1 - 2020
N2 - Ageing involves significant neurophysiological changes that are both systematic while at the same time exhibiting divergent trajectories across individuals. These changes underlie cognitive impairments in elderly while also affecting the response of aged brains to interventions like transcranial direct current stimulation (tDCS). While the cognitive benefits of tDCS are more variable in elderly, older adults also respond differently to stimulation protocols compared to young adults. The age-related neurophysiological changes influencing the responsiveness to tDCS remain to be addressed in-depth. We review and discuss the premise that, in comparison to the better calibrated brain networks present in young adults, aged systems perform further away from a homoeostatic set-point. We argue that this age-related neurophysiological deviation from the homoeostatic optimum extends the leeway for tDCS to modulate the aged brain. This promotes the potency of immediate tDCS effects to induce directional plastic changes towards the homoeostatic equilibrium despite the impaired plasticity induction in elderly. We also consider how age-related neurophysiological changes pose specific challenges for tDCS that necessitate proper adaptations of stimulation protocols. Appreciating the distinctive properties of aged brains and the accompanying adjustment of stimulation parameters can increase the potency and reliability of tDCS as a treatment avenue in older adults.
AB - Ageing involves significant neurophysiological changes that are both systematic while at the same time exhibiting divergent trajectories across individuals. These changes underlie cognitive impairments in elderly while also affecting the response of aged brains to interventions like transcranial direct current stimulation (tDCS). While the cognitive benefits of tDCS are more variable in elderly, older adults also respond differently to stimulation protocols compared to young adults. The age-related neurophysiological changes influencing the responsiveness to tDCS remain to be addressed in-depth. We review and discuss the premise that, in comparison to the better calibrated brain networks present in young adults, aged systems perform further away from a homoeostatic set-point. We argue that this age-related neurophysiological deviation from the homoeostatic optimum extends the leeway for tDCS to modulate the aged brain. This promotes the potency of immediate tDCS effects to induce directional plastic changes towards the homoeostatic equilibrium despite the impaired plasticity induction in elderly. We also consider how age-related neurophysiological changes pose specific challenges for tDCS that necessitate proper adaptations of stimulation protocols. Appreciating the distinctive properties of aged brains and the accompanying adjustment of stimulation parameters can increase the potency and reliability of tDCS as a treatment avenue in older adults.
KW - Ageing
KW - Cognition
KW - Neurophysiology
KW - Transcranial direct current stimulation
U2 - 10.1016/j.pscychresns.2020.111179
DO - 10.1016/j.pscychresns.2020.111179
M3 - Journal article
C2 - 32972813
AN - SCOPUS:85090746251
VL - 306
JO - Psychiatry Research: Neuroimaging
JF - Psychiatry Research: Neuroimaging
SN - 0925-4927
M1 - 111179
ER -