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Tests whether age-related visual deficits arise from disrupted alpha-gamma coupling in visual cortex (V1) and MT. Uses fMRI, source-resolved HD-EEG, and personalized complex-waveform HD-tACS to (1) quantify aging effects on phase-amplitude coupling, (2) drive PAC into a preferred "gamma-at-alpha-troughs" state, and (3) bidirectionally change perception by aligning gamma to alpha troughs vs peaks. Two five-day, double-blind, sham-controlled studies (n=120 each) target contrast sensitivity (V1) and 3D shape-from-motion (MT), aiming for mechanistic insight and remediation in older adults with implications for ADRD.
The project probes a causal account of age-related perceptual decline by focusing on alpha-gamma phase-amplitude coupling (PAC) in early visual cortex and area MT. The central hypothesis is that aging alters both the magnitude and phase structure of alpha-gamma interactions, degrading visual performance; restoring a preferred configuration-gamma power nested at alpha troughs-should improve perception.
Multimodal methods combine structural/functional MRI, high-density EEG with source reconstruction, and individualized complex-waveform HD-tACS tuned to each participant's neuroanatomy and oscillatory frequencies. Three questions drive the work: (i) Do age-related deficits track changes in alpha-gamma PAC magnitude/phase? (ii) Can frequency-coupled HD-tACS enforce the preferred PAC configuration and enhance perception, especially in more impaired older adults? (iii) Is perception bidirectionally controllable by placing gamma at alpha troughs (facilitation) versus peaks (disruption)?
Two specific aims implement matched, five-day, within-subjects, double-blind, sham-controlled experiments with 120 participants each. Aim 1 targets early visual cortex to test whether contrast sensitivity deficits scale with age, spatial frequency, and noise, and whether personalized HD-tACS can optimize PAC to improve contrast perception. Aim 2 targets MT to test whether 3D shape-from-motion (parallax) judgments decline with age as a function of surface-point lifetime and simulated depth, and whether trough- versus peak-aligned stimulation can restructure PAC to enhance motion-based shape perception. Outcomes will establish mechanistic links between PAC and visual aging and evaluate a noninvasive, personalized intervention path relevant to age-related decline and ADRD.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| active stimulation | Experimental |
| |
| sham stimulation | Sham Comparator |
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| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| High definition transcranial electrical current stimulation | Device | Low-intensity and safe, noninvasive application of electrical current to the human scalp with the goal of gradually modulating levels of neuronal excitability. |
| Measure | Description | Time Frame |
|---|---|---|
| contrast sensitivity | Orientation identification task | Baseline (pre-stimulation) and immediately post-stimulation, collected on each of the 5 study days. |
| 3D structural-from-motion | surface point lifetime (unlimited, 12 and 2 successive views) on 3D discrimination task | Baseline (pre-stimulation) and immediately post-stimulation, collected on each of the 5 study days. |
| phase-amplitude coupling | alpha phase, gamma amplitude coupling (magnitude of coherency) | Baseline (pre-stimulation) and immediately post-stimulation, collected on each of the 5 study days. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Robert Reinhart, PhD | Contact | (617) 353-9481 | rmgr@bu.edu |
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