Abnormal MEG Oscillatory Activity during Visual Processing in the Prefrontal Cortices and Frontal Eye-Fields of the Aging HIV Brain

Wilson, Tony W.; Fox, Howard S.; Robertson, Kevin; Sandkovsky, Uriel; Heinrichs‐Graham, Elizabeth; Knott, Nichole L.; Swindells, Susan

doi:10.1371/journal.pone.0066241

Cited by 29 publications

(17 citation statements)

References 47 publications

(61 reference statements)

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“…This implicates HIV in injury to multimodal association regions of the brain, which is also suggested by abnormal levels of brain activation in the dorsolateral prefrontal (DLPFC) and parietal cortices in HIV positive participants compared to healthy controls during the performance of working memory, attention, risky decision-making, and executive functioning tasks (Chang et al, 2001; Chang et al, 2004; Connolly et al, 2014; Ernst, Chang, Jovicich, Ames, & Arnold, 2002; Melrose, Tinaz, Castelo, Courtney, & Stern, 2008). Similar disruptions in local magnetic field potentials within the lateral PFC have been reported in HIV patients using magnetoencephalography (MEG), both at rest (Becker et al, 2012) and during the performance of visual attention (Wilson, Fox, et al, 2013) and fine motor control (Wilson, Heinrichs-Graham, et al, 2013) tasks.…”

Section: Introductionsupporting

confidence: 68%

HIV Infection Is Associated with Attenuated Frontostriatal Intrinsic Connectivity: A Preliminary Study

Ipser

Brown

Bischoff‐Grethe

et al. 2015

J Int Neuropsychol Soc

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Objective HIV-associated cognitive impairments are prevalent, and are consistent with injury to both frontal cortical and subcortical regions of the brain. The current study aimed to assess the impact of HIV infection on functional connections within the frontostriatal network, circuitry hypothesized to be highly vulnerable to HIV infection. Method Fifteen HIV-positive and 15 demographically matched control participants underwent 6 minutes of resting-state functional magnetic resonance imaging (RS-fMRI). Multivariate group comparisons of age-adjusted estimates of connectivity within the frontostriatal network were derived from BOLD data for dorsolateral prefrontal cortex (DLPFC), dorsal caudate and mediodorsal thalamic regions of interest. Whole-brain comparisons of group differences in frontostriatal connectivity were conducted, as were pairwise tests of connectivity associations with measures of global cognitive functioning and clinical and immunological characteristics (nadir and current CD4 count, duration of HIV infection, plasma HIV RNA). Results HIV – associated reductions in connectivity were observed between the DLPFC and the dorsal caudate, particularly in younger participants (< 50 years, N = 9). Seropositive participants also demonstrated reductions in dorsal caudate connectivity to frontal and parietal brain regions previously demonstrated to be functionally connected to the DLPFC. Cognitive impairment, but none of the assessed clinical/immunological variables, was associated with reduced frontostriatal connectivity. Conclusions In conclusion, our data indicate that a diagnosis of HIV is associated with attenuated intrinsic frontostriatal connectivity. Intrinsic connectivity of this network may therefore serve as a marker of the deleterious effects of HIV infection on the brain, possibly via HIV-associated dopaminergic abnormalities. These findings warrant independent replication in larger studies.

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Section: Introductionsupporting

confidence: 68%

HIV Infection Is Associated with Attenuated Frontostriatal Intrinsic Connectivity: A Preliminary Study

Ipser

Brown

Bischoff‐Grethe

et al. 2015

J Int Neuropsychol Soc

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“…In the current study, we observed a disease-related reduction in gamma power in response to electrical stimulation. Previous studies using neuroimaging modalities such as fMRI and MEG have provided evidence for similar disease-related alterations in the primary visual, motor and somatosensory cortices ( Ances et al, 2009 ; Ances et al, 2010 ; Wilson et al, 2013a ; Wilson et al, 2015 ; Wilson et al, 2013b ). Specifically, using fMRI, Ances and colleagues found reduced activity in the primary visual cortices during visual stimulation and at rest in HIV-infected adults ( Ances et al, 2009 ; Ances et al, 2010 ).…”

Section: Discussionmentioning

confidence: 84%

“…Previous neuroimaging studies investigating the impact of HIV infection on cognitive and sensory processing suggest hyperactivation in frontal and parietal regions during cognitive tasks, and hypoactivation in primary visual cortices during visual tasks and at rest ( Ances et al, 2011 ; Ances et al, 2009 ; Ances et al, 2010 ; Chang et al, 2004 ; Chang et al, 2008 ; Ernst et al, 2002 ; Wiesman et al, 2018 ; Wilson et al, 2013a ; Wilson et al, 2017 ). For example, a study of resting cerebral blood flow (rCBF) revealed diminished rCBF within the lenticular nuclei and visual cortex for HIV-infected participants compared to uninfected controls.…”

Section: Introductionmentioning

confidence: 98%

Aberrant oscillatory dynamics during somatosensory processing in HIV-infected adults

Spooner

Wiesman

Mills

et al. 2018

NeuroImage: Clinical

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While the arrival of combination antiretroviral therapy significantly decreased the prevalence of HIV-associated dementia, between 35 and 70% of all infected adults continue to develop some form of cognitive impairment. These deficits appears to affect multiple neural subsystems, but the mechanisms and extent of damage are not fully understood. In the current study, we utilized magnetoencephalography (MEG), advanced oscillatory analysis methods, and a paired-pulse somatosensory stimulation paradigm to interrogate pre-attentive inhibitory processing in 43 HIV-infected adults and 28 demographically-matched uninfected controls. MEG responses were imaged using a beamformer, and time series data were extracted from the peak voxel in grand-averaged functional brain images to quantify the dynamics of sensory gating, oscillatory power, spontaneous power, and other neural indices. We found a significantly weakened response to the second stimulation compared to the first across groups, indicating significant sensory gating irrespective of HIV-infection. Interestingly, HIV-infected participants exhibited reduced neural responses in the 20–75 Hz gamma range to each somatosensory stimulation compared to uninfected controls, and exhibited significant alterations in peak gamma frequency in response to the second stimulation. Finally, HIV-infected participants also had significantly stronger spontaneous activity in the gamma range (i.e., 20–75 Hz) during the baseline period before stimulation onset. In conclusion, while HIV-infected participants had the capacity to efficiently gate somatosensory input, their overall oscillatory responses were weaker, spontaneous baseline activity was stronger, and their response to the second stimulation had an altered peak gamma frequency. We propose that this pattern of deficits suggests dysfunction in the somatosensory cortices, which is potentially secondary to accelerated aging.

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“…Visuospatial dysfunction in HIV-infected participants has been well documented; however, the underlying neurophysiology of these impairments has remained elusive until fairly recently. [2][3][4]10,33 In addition to these functional imaging studies, the visual cortices have been found to be preferentially vulnerable to HIV-related degeneration, 34 an effect which may be due to latent viral reservoirs instigating immune system decline in these regions. 34,35 Despite these advances, the role of aging in these visuospatial deficits has not been examined, which is surprising because these same cognitive faculties degrade substantially as a function of age in uninfected populations.…”

Section: Discussionmentioning

confidence: 99%

“…HIV-associated neurocognitive disorders (HAND) are a persistent concern for those living with HIV and include substantial impairments to visuospatial processing. [1][2][3][4] A greater understanding of the neural dynamics underlying these impairments has the potential to enhance diagnosis of HAND and inform prognoses and further delineation of HAND subtypes. Previous structural and functional imaging research has reported neural aberrations in visual-perceptual networks in HIV-infected adults.…”

mentioning

confidence: 99%

Age-related visual dynamics in HIV-infected adults with cognitive impairment

Groff

Wiesman²,

Rezich

et al. 2020

Neurol Neuroimmunol Neuroinflamm

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ObjectiveTo investigate whether aging differentially affects neural activity serving visuospatial processing in a large functional neuroimaging study of HIV-infected participants and to determine whether such aging effects are attributable to differences in the duration of HIV infection.MethodsA total of 170 participants, including 93 uninfected controls and 77 HIV-infected participants, underwent neuropsychological assessment followed by neuroimaging with magnetoencephalography (MEG). Time-frequency analysis of the MEG data followed by advanced image reconstruction of neural oscillatory activity and whole-brain statistical analyses were used to examine interactions between age, HIV infection, and cognitive status. Post hoc testing for a mediation effect of HIV infection duration on the relationship between age and neural activity was performed using a quasi-Bayesian approximation for significance testing.ResultsCognitively impaired HIV-infected participants were distinguished from unimpaired HIV-infected and control participants by their unique association between age and gamma oscillations in the parieto-occipital cortex. This relationship between age and gamma was fully mediated by the duration of HIV infection in cognitively impaired participants. Impaired HIV-infected participants were also distinguished by their atypical relationship between alpha oscillations and age in the superior parietal cortex.ConclusionsImpaired HIV-infected participants exhibited markedly different relationships between age and neural responses in the parieto-occipital cortices relative to their peers. This suggests a differential effect of chronological aging on the neural bases of visuospatial processing in a cognitively impaired subset of HIV-infected adults. Some of these relationships were fully accounted for by differences in HIV infection duration, whereas others were more readily associated with aging.

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Abnormal MEG Oscillatory Activity during Visual Processing in the Prefrontal Cortices and Frontal Eye-Fields of the Aging HIV Brain

Cited by 29 publications

References 47 publications

HIV Infection Is Associated with Attenuated Frontostriatal Intrinsic Connectivity: A Preliminary Study

HIV Infection Is Associated with Attenuated Frontostriatal Intrinsic Connectivity: A Preliminary Study

Aberrant oscillatory dynamics during somatosensory processing in HIV-infected adults

Age-related visual dynamics in HIV-infected adults with cognitive impairment

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