Spatially resolved neural slowing predicts impairment and amyloid burden in Alzheimer’s disease

Wiesman, Alex I.; Murman, Daniel L.; Losh, Rebecca A; Schantell, Mikki; Christopher‐Hayes, Nicholas J.; Johnson, Hallie J; Willett, Madelyn P; Wolfson, Sara L; Losh, Kathryn L; Johnson, Craig M.; May, Pamela E.; Wilson, Tony W.

doi:10.1093/brain/awab430

Cited by 43 publications

(49 citation statements)

References 98 publications

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“…In this regard, the novel spectral analysis method proposed by Donoghue et al, (2020) , which consists in the parameterization of the neural power spectra into periodic and aperiodic components, deserves special mention. This method has already provided promising results, showing that aperiodic activity changes are strongly associated with aging ( Brady and Bardouille, 2022 , Thuwal et al, 2021 ), and with Alzheimer's dementia ( Wiesman et al, 2022 ). Moreover, most of the studies incorporated in this review report data from resting state conditions.…”

Section: Discussionmentioning

confidence: 99%

Understanding brain function in vascular cognitive impairment and dementia with EEG and MEG: A systematic review

Torres-Simón

Doval

Nebreda

et al. 2022

NeuroImage: Clinical

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Section: Discussionmentioning

confidence: 99%

Understanding brain function in vascular cognitive impairment and dementia with EEG and MEG: A systematic review

Torres-Simón

Doval

Nebreda

et al. 2022

NeuroImage: Clinical

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“…We adapted a recent measure of neurophysiological slowing 52 (Figure 1A) with magnetoencephalography (MEG) data from a large sample of patients with PD (N = 79) and a matched group of healthy older adults (N = 65). We related neurophysiological slowing effects measured in the PD group to detailed clinical and neuropsychological indicators of motor and cognitive deficits, with the hypothesis that stronger cortical slowing is associated with greater clinical impairments.…”

Section: Introductionmentioning

confidence: 99%

A sagittal gradient of pathological and compensatory effects of neurophysiological slowing in Parkinson’s disease

Wiesman

Castanheira

Degroot

et al. 2022

Preprint

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Using magnetoencephalographic imaging and extensive clinical and neuropsychological assessments, we show that patients with Parkinson's disease (PD; N = 79) exhibit a slowing of neurophysiological activity relative to healthy adults (N = 65), which relates to motor and cognitive abilities. Importantly, the association between neurophysiological slowing and PD clinical features varies systematically across the cortex along a sagittal gradient: cortical slowing is associated with worse impairment in dorsal-posterior cortices, and this association is reversed in ventral-anterior cortical regions. This pathological-to-compensatory anatomical gradient is sensitive to differences in patients' individual clinical profiles, and co-localizes with normative atlases of neurotransmitter receptor/transporter density. Long-range functional connectivity between posterior regions and parietal and frontal cortices is also significantly shifted towards lower frequencies in PD, demonstrating a novel network-level slowing effect. Taken together, these findings demonstrate the multifaceted nature of neurophysiological slowing in patients with PD, with anatomically-dependent clinical relevance to motor and cognitive symptoms.

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“…The changes in power reported here are reminiscent of pathological alterations observed in other neurological diseases such as multiple sclerosis (van Schependom et al 2021), hepatic encephalopathy (Butz et al 2013), and AD. Especially for AD, numerous studies have reported spectral slowing (Fernández et al 2006; Wiesman et al 2022), increased theta activity and decreased alpha and beta activity (Huang et al 2000; Berendse et al 2000; Fernández et al 2002; Osipova et al 2005; Fernández et al 2006; Dauwels et al 2011; Haan et al 2008; Jelic et al 2000; Coben et al 1985; Jafari et al 2020; Nakamura et al 2018; Wiesman et al 2022). These spectral changes have been linked to disease progression (Jelic et al 2000; Coben et al 1985; Huang et al 2000; Babiloni et al 2009; Nakamura et al 2018) and were successfully used to differentiate AD patients from healthy controls (Gouw et al 2021).…”

Section: Discussionmentioning

confidence: 99%

“…Furthermore, tau accumulation was related to posterior slowing of oscillatory activity in a recent MEG study (Coomans et al 2021) and human-tau-transgenic mice exhibit power increases in the delta and theta band in parietal areas reminiscent of spectral changes observed in AD patients (Das et al 2018). Oscillatory markers were also found to correlate with amyloid-beta accumulation in AD (Nakamura et al 2018; Wiesman et al 2022), a pathological process assumed to precede tau pathology (Buchhave et al 2012; Jack et al 2013), suggesting general sensitivity of oscillatory metrics to proteinopathy (Wiesman et al 2022).…”

Section: Discussionmentioning

confidence: 99%

Slowing of Frontocentral Beta Oscillations in Atypical Parkinsonism

Krösche

Kannenberg

Butz

et al. 2022

Preprint

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Diagnosis of atypical parkinsonian syndromes mostly relies on clinical presentation as well as structural and molecular brain imaging. It has not been investigated whether cortical oscillatory activity exhibits features distinguishing these syndromes. Therefore, we measured resting-state magnetoencephalography in 13 patients with corticobasal syndrome, 10 patients with progressive supranuclear palsy, 23 patients with idiopathic Parkinson’s disease and 23 healthy controls. We compared spectral power as well as amplitude and frequency of power peaks between the groups.Atypical Parkinsonism was associated with spectral slowing, distinguishing both corticobasal syndrome and progressive supranuclear palsy from age-matched healthy controls and Parkinson’s disease. Patients with atypical Parkinsonism showed a shift of beta peaks (13-30 Hz) towards lower frequencies in frontal and central areas bilaterally. A concomitant increase in theta/alpha power relative to controls was observed in both atypical parkinsonian syndromes and in Parkinson’s disease.Our results demonstrate that slowing of frontocentral beta oscillations is characteristic of atypical Parkinsonism. Spectral slowing with a different topography has previously been observed in other neurodegenerative disorders, such as Alzheimer’s disease, suggesting that spectral slowing might be an electrophysiological marker of cortical neurodegeneration. As such, it might support differential diagnosis of parkinsonian syndromes in the future.HighlightsSlowing of beta oscillations distinguishes atypical parkinsonian syndromes from healthy controls and idiopathic Parkinson’s diseaseSpectral slowing is most pronounced in frontocentral areasBeta oscillations are shifted towards lower frequencies independent of their amplitude

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Spatially resolved neural slowing predicts impairment and amyloid burden in Alzheimer’s disease

Cited by 43 publications

References 98 publications

Understanding brain function in vascular cognitive impairment and dementia with EEG and MEG: A systematic review

Understanding brain function in vascular cognitive impairment and dementia with EEG and MEG: A systematic review

A sagittal gradient of pathological and compensatory effects of neurophysiological slowing in Parkinson’s disease

Slowing of Frontocentral Beta Oscillations in Atypical Parkinsonism

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