Person:
Bruña Fernández, Ricardo

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First Name
Ricardo
Last Name
Bruña Fernández
URI
https://hdl.handle.net/20.500.14352/81051
Affiliation
Universidad Complutense de Madrid
Faculty / Institute
Medicina
Department
Radiología, Rehabilitación y Fisioterapia
Area
Radiología y Medicina Física
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2016 - 20194
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Now showing 1 - 4 of 4
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    Searching for Primary Predictors of Conversion from Mild Cognitive Impairment to Alzheimer’s Disease: A Multivariate Follow-Up Study
    (Journal of Alzheimer's Disease, 2016) López García, María Eugenia; Turrero Nogués, Agustín; Cuesta Prieto, Pablo; López Sanz, David; Bruña Fernández, Ricardo; Marcos Dolado, Alberto; Gil Gregorio, Pedro; Yus, Miguel; Barabash Bustelo, Ana; Cabranes Díaz, José Antonio; Maestu Unturbe, Fernando; Fernández Lucas, Alberto Amable
    Recent proposals of diagnostic criteria within the healthy aging-Alzheimer’s disease (AD) continuum stressed the role of biomarker information. More importantly, such information might be critical to predict those mild cognitive impairment (MCI) patients at a higher risk of conversion to AD. Usually, follow-up studies utilize a reduced number of potential markers although the conversion phenomenon may be deemed as multifactorial in essence. In addition, not only biological but also cognitive markers may play an important role. Considering this background, we investigated the role of cognitive reserve, cognitive performance in neuropsychological testing, hippocampal volumes, APOE genotype, and magnetoencephalography power sources to predict the conversion to AD in a sample of 33 MCI patients. MCIs were followed up during a 2-year period and divided into two subgroups according to their outcome: The “stable” MCI group (sMCI, 21 subjects) and the “progressive” MCI group (pMCI, 12 subjects). Baseline multifactorial information was submitted to a hierarchical logistic regression analysis to build a predictive model of conversion to AD. Results indicated that the combination of left hippocampal volume, occipital cortex theta power, and clock drawing copy subtest scores predicted conversion to AD with a 100% of sensitivity and 94.7% of specificity. According to these results it might be suggested that anatomical, cognitive, and neurophysiological markers may be considered as “first order” predictors of progression to AD, while APOE or cognitive reserve proxies might play a more secondary role.
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    Spatiotemporal oscillatory patterns during working memory maintenance in mild cognitive impairment and subjective cognitive decline
    (International Journal of Neural Systems, 2019) Serrano Martínez, Noelia; López Sanz, David; Bruña Fernández, Ricardo; Garcés, Pilar; Rodríguez Rojo, Inmaculada Concepción; Marcos Dolado, Alberto; Prada Crespo, David; Maestu Unturbe, Fernando
    Working memory (WM) is a crucial cognitive process and its disruption is among the earliest symptoms of Alzheimer’s disease. While alterations of the neuronal processes underlying WM have been evidenced in mild cognitive impairment (MCI), scarce literature is available in subjective cognitive decline (SCD). We used magnetoencephalography during a WM task performed by MCI (n=45), SCD (n=49) and healthy elders (n=49) to examine group differences during the maintenance period (0–4000ms). Data were analyzed using time–frequency analysis and significant oscillatory differences were localized at the source level. Our results indicated significant differences between groups, mainly during the early maintenance (250–1250ms) in the theta, alpha and beta bands and in the late maintenance (2750–3750ms) in the theta band. MCI showed lower local synchronization in fronto-temporal cortical regions in the early theta–alpha window relative to controls (p=2×10−03) and SCD (p=4×10−03), and in the late theta window relative to controls (p=1×1003) and SCD (p=0.01). Early theta–alpha power was significantly correlated with memory scores (rho=0.24,p=0.02) and late theta power was correlated with task performance (rho=0.24,p=0.03) and functional activity scores (rho=−0.23,p=0.02). In the early beta window, MCI showed reduced power in temporo-posterior regions relative to controls (p=3×10−03) and SCD (p=0.02). Our results may suggest that these alterations would reflect that memory-related networks are damaged.
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    Hypersynchronization in mild cognitive impairment: the ‘X’ model
    (Brain, 2019) Pusil Arce, Sandra Angélica; López García, María Eugenia; Cuesta Prieto, Pablo; Bruña Fernández, Ricardo; Pereda, Ernesto; Maestu Unturbe, Fernando
    Hypersynchronization has been proposed as a synaptic dysfunction biomarker in the Alzheimer's disease continuum, reflecting the alteration of the excitation/inhibition balance. While animal models have verified this idea extensively, there is still no clear evidence in humans. Here we test this hypothesis, evaluating the risk of conversion from mild cognitive impairment (MCI) to Alzheimer's disease in a longitudinal study. We compared the functional resting state eyes-closed magnetoencephalographic networks of 54 patients with MCI who were followed-up every 6 months. According to their clinical outcome, they were split into: (i) the 'progressive' MCI (n = 27) group; and (ii) the 'stable' MCI group (n = 27). They did not differ in gender or educational level. For all participants, two magnetoencephalographic recordings were acquired. Functional connectivity was evaluated using the phase locking value. To extract the functional connectivity network with significant changes between both magnetoencephalographic recordings, we evaluated the functional connectivity ratio, defined as functional connectivity post-/pre-condition, in a network-based statistical model with an ANCOVA test with age as covariate. Two significant networks were found in the theta and beta bands, involving fronto-temporal and fronto-occipital connections, and showing a diminished functional connectivity ratio in the progressive MCI group. These topologies were then evaluated at each condition showing that at baseline, patients with progressive MCI showed higher synchronization than patients with stable MCI, while in the post-condition this pattern was reversed. These results may be influenced by two main factors in the post-condition: the increased synchrony in the stable MCI patients and the network failure in the progressive MCI patients. These findings may be explained as an 'X' form model where the hypersynchrony predicts conversion, leading subsequently to a network breakdown in progressive MCI. Patients with stable MCI showed an opposite phenomenon, which could indicate that they were a step beyond in the Alzheimer's disease continuum. This model would be able to predict the risk for the conversion to dementia in MCI patients.
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    Neuropsychological and neurophysiological characterization of mild cognitive impairment and Alzheimer's disease in Down syndrome
    (Neurobiology of Aging, 2019) García Alba, Javier; Ramírez Toraño, Federico; Esteba Castillo, Susanna; Bruña Fernández, Ricardo; Moldenhauer, Fernando; Novell, Ramón; Romero Medina, Verónica; Maestu Unturbe, Fernando; Fernández Lucas, Alberto Amable
    Down syndrome (DS) has been considered a unique model for the investigation of Alzheimer’s disease AD) but intermediate stages in the continuum are poorly defined. Considering this, we investigated the neurophysiological (i.e., magnetoencephalography [MEG]) and neuropsychological patterns of mild cognitive impairment (MCI) and AD in middle-aged adults with DS. The sample was composed of four groups: Control-DS (n ¼ 14, mean age 44.64 3.30 years), MCI-DS (n ¼ 14, 51.64 3.95 years), AD-DS (n ¼ 13, 53.54 6.58 years), and Control-no-DS (healthy controls, n ¼ 14, 45.21 4.39 years). DS individuals were studied with neuropsychological tests and MEG, whereas the Control-no-DS group completed only the MEG session. Our results showed that the AD-DS group exhibited a significantly poorer performance as compared with the Control-DS group in all tests. Furthermore, this effect was crucially evident in AD-DS individuals when compared with the MCI-DS group in verbal and working memory abilities. In the neurophysiological domain, the Control-DS group showed a widespread increase of theta activity when compared with the Control-no-DS group. With disease progression, this increased theta was substituted by an augmented delta, accompanied with a reduction of alpha activity. Such spectral patterndspecifically observed in occipital, posterior temporal, cuneus, and precuneus regionsdcorrelated with the performance in cognitive tests. This is the first MEG study in the field incorporating both neuropsychological and neurophysiological information, and demonstrating that this combination of markers is sensitive enough to characterize different stages along the AD continuum in DS.