Reduced hippocampal subfield volumes and memory performance in preterm children with and without germinal matrix-intraventricular hemorrhage.

Preterm newborns with germinal matrix-intraventricular hemorrhage (GM-IVH) are at a higher risk of evidencing neurodevelopmental alterations. Present study aimed to explore the long-term effects that GM-IVH have on hippocampal subfields, and their correlates with memory. The sample consisted of 58 participants, including 36 preterm-born (16 with GM-IVH and 20 without neonatal brain injury), and 22 full-term children aged between 6 and 15 years old. All participants underwent a cognitive assessment and magnetic resonance imaging study. GM-IVH children evidenced lower scores in Full Intelligence Quotient and memory measures compared to their low-risk preterm and full-term peers. High-risk preterm children with GM-IVH evidenced significantly lower total hippocampal volumes bilaterally and hippocampal subfield volumes compared to both low-risk preterm and full-term groups. Finally, significant positive correlations between memory and hippocampal subfield volumes were only found in preterm participants together; memory and the right CA-field correlation remained significant after Bonferroni correction was applied (p = .002). In conclusion, memory alterations and both global and regional volumetric reductions in the hippocampus were found to be specifically related to a preterm sample with GM-IVH. Nevertheless, results also suggest that prematurity per se has a long-lasting impact on the association between the right CA-field volume and memory during childhood.

Beyond the Epileptic Focus: Functional Epileptic Networks in Focal Epilepsy.

Focal epilepsy can be conceptualized as a network disorder, and the functional epileptic network can be described as a complex system of multiple brain areas that interact dynamically to generate epileptic activity. However, we still do not fully understand the functional architecture of epileptic networks. We studied a cohort of 21 patients with extratemporal focal epilepsy. We used independent component analysis of functional magnetic resonance imaging (fMRI) data. In order to identify the epilepsy-related components, we examined the general linear model-derived electroencephalography-fMRI (EEG-fMRI) time courses associated with interictal epileptic activity as intrinsic hemodynamic epileptic biomarkers. Independent component analysis revealed components related to the epileptic time courses in all 21 patients. Each epilepsy-related component described a network of spatially distributed brain areas that corresponded to the specific epileptic network in each patient. We also provided evidence for the interaction between the epileptic activity generated at the epileptic network and the physiological resting state networks. Our findings suggest that independent component analysis, guided by EEG-fMRI epileptic time courses, have the potential to define the functional architecture of the epileptic network in a noninvasive way. These data could be useful in planning invasive EEG electrode placement, guiding surgical resections, and more effective therapeutic interventions.

Uso de internet para evaluar el distrés psicológico en pacientes con cáncer de mama / Use of internet to assess psychological distress in breast cancer patients

Objetivo: El objetivo de este estudio es determinar la prevalencia de síntomas de distrés y la estrategia de adaptación entre una amplia muestra de pacientes de habla hispana con cáncer de mama mediante el uso de internet. Métodos: Se diseñó un estudio transversal con pacientes con cáncer de mama (n = 434) reclutadas a través de Internet (http://www.cancermama.org). Las participantes completaron un cuestionario demográfico y médico, y también se usaron cuestionarios de evaluación psicológica ampliamente utilizados en Psicooncología, la HADs (Escala de Ansiedad y Depresión Hospitalaria) y la escala MAC (La Escala de Ajuste Mental al Cáncer), en su versión reducida de 29 ítems (Mini-MAC). Resultados: En nuestro estudio el resultado global de la HADs como medida de distrés en línea es confiable en nuestro estudio. La tasa de prevalencia general de distrés para nuestra muestra fue del 50%, sin diferencias según nivel socio-demográfico o variables médicas. En cuanto a puntuación de ansiedad 66,2% y 34% alcanzaron nivel clínico de ansiedad y depresión, respectivamente. Estos resultados se relacionaron con los de la Mini-MAC según lo esperado. Conclusiones: Estos resultados dan apoyo al uso de Internet como herramienta válida para la evaluación de los trastornos psicológicos en pacientes con cáncer de mama. Internet nos brinda la posibilidad de identificar pacientes de alto riesgo a través de screening psicológico con el fin de realizar intervenciones tempranas, y las puntuaciones globales de distrés pueden ser una herramienta precisa. Sin embargo se necesitan más estudios para analizar la situación de consulta en internet como un estímulo provocador de ansiedad

Objective: The object of this study is to determine the prevalence of distress symptoms and coping strategy among a large sample of Spanish-speaking breast cancer patients recruited on-line. Methods: We designed a cross-sectional study with breast cancer survivors (n=434) that were accrued via Internet (http://www.cancermama.org). Participants completed a demographic and medical questionnaire, and they were also evaluated using self-reporting measures of psychological distress and adjustment to cancer; the 14-item Hospital Anxiety and Depression Scale (HADS) and the 29-item version of the Mental Adjustment to Cancer Scale (Mini-MAC), respectively. Results: Global HAD as a measure of distress on-line is reliable in our study. The overall prevalence rate of distress for our sample was 50%, with no differences for socio-demographics or medical status variables. Concerning to anxiety punctuation 66.2% were clinical cases and 34.5% reached the clinical level for depression. These results were associated with Mini-MAC scales as expected. Conclusions: These results offer support for the use of Internet as valid tool for the psychological distress assessment in patients with breast cancer Spanish-speaking patients. Internet brings us the possibility to identify high-risk patients through psychological screening in order to provide early interventions, and Global HAD punctuation may be an accurate tool. However more studies are needed to analyze internet illness consulting situation as an anxious provoking space

Cortical thickness and behavior abnormalities in children born preterm.

AIM: To identify long-term effects of preterm birth and of periventricular leukomalacia (PVL) on cortical thickness (CTh). To study the relationship between CTh and cognitive-behavioral abnormalities. METHODS: We performed brain magnetic resonance imaging on 22 preterm children with PVL, 14 preterm children with no evidence of PVL and 22 full-term peers. T1-weighted images were analyzed with FreeSurfer software. All participants underwent cognitive and behavioral assessments by means of the Wechsler Intelligence Scales for Children-Fourth Edition (WISC-IV) and the Child Behavior Checklist (CBCL). RESULTS: We did not find global CTh differences between the groups. However, a thinner cortex was found in left postcentral, supramarginal, and caudal middle rostral gyri in preterm children with no evidence of PVL than in the full-term controls, while PVL preterm children showed thicker cortex in right pericalcarine and left rostral middle frontal areas than in preterm children with no evidence of PVL. In the PVL group, internalizing and externalizing scores correlated mainly with CTh in frontal areas. Attentional scores were found to be higher in PVL and correlated with CTh increments in right frontal areas. INTERPRETATION: The preterm group with no evidence of PVL, when compared with full-term children, showed evidence of a different pattern of regional thinning in the cortical gray matter. In turn, PVL preterm children exhibited atypical increases in CTh that may underlie their prevalent behavioral problems.

Thalamic changes in a preterm sample with periventricular leukomalacia: correlation with white-matter integrity and cognitive outcome at school age.

INTRODUCTION: Thalamic abnormalities have been well documented in preterms with periventricular leukomalacia (PVL), although their contribution to long-term cognitive dysfunctions has not been thoroughly investigated. RESULTS: Significant differences between groups were observed for global thalamic volume. Neuropsychological assessments showed that preterms with PVL scored within the normal range, although significantly below controls in the full intelligence quotient and the specific cognitive domains of processing speed and working memory. Correlations of several thalamic regions with Working Memory Index and FIQ were found in the PVL group. Moreover, thalamic atrophy correlated with white-matter (WM) damage indexes (fractional anisotropy and radial diffusivity) assessed by diffusion tensor imaging. DISCUSSION: The findings suggest that thalamic damage is a common correlate of WM microstructural alterations and might be involved in the cognitive deficits seen in premature infants with PVL at school age. METHODS: We analyzed the impact of PVL-associated thalamic injury on cognitive status at school age and its correlation with WM integrity as measured by magnetic resonance imaging techniques. Thalamic volume and shape of 21 preterm children with PVL were compared with those of 11 preterm children of similar gestational age and birth weight with no evidence of focal WM abnormality.

Gray matter volume decrements in preterm children with periventricular leukomalacia.

Periventricular leukomalacia (PVL) is the prototypic lesion in the encephalopathy of prematurity. Although PVL is identified by targeting cerebral white matter (WM), neuropathological and MRI studies document gray matter (GM) loss in cortical and subcortical structures. This study aimed to investigate the distribution of GM changes in children with a history of premature birth and PVL. Voxel-based morphometry was used to examine regional GM abnormalities in 22 children with a history of preterm birth and PVL. Preterms with PVL were compared with 22 terms and 14 preterms without PVL of similar GA and birth weight. GM and WM global volumetric volumes were found to decrease in comparison with both control groups. Regional GM volume abnormalities were also found: compared with their term peers, preterm children with PVL showed several regions of GM reduction. Moreover, PVL differed from preterms without PVL in the medial temporal lobe bilaterally, thalamus bilaterally, and caudate nuclei bilaterally. In addition, in our preterm sample with PVL, birth weight showed a statistical significant correlation with decreased GM regions. In conclusion, the voxel-based morphometry methodology revealed that PVL per se does involve GM reductions.

Decreased regional brain volume and cognitive impairment in preterm children at low risk.

OBJECTIVE: To investigate whether preterm children with low risk for neurodevelopmental deficits show long-term changes in gray matter (GM) and white matter (WM) volumes compared with term children and to relate these changes to cognitive outcome. METHODS: MRI was used to evaluate 20 preterm children who were determined to be at low risk for neurodevelopmental deficits and were born between 30 and 34 weeks' gestational age without major neonatal morbidity or cerebral pathology in the neonatal period and 22 matched, term control subjects. Volumetric images were analyzed by means of voxel-based morphometry to identify regional cerebral alterations. Children also underwent cognitive and behavioral/emotional assessments. RESULTS: Preterm children showed global and regional GM volume reductions in several brain areas, including temporal and parietal lobes and concomitant WM volume reductions in the same areas, although only the left temporal regions achieved statistical significance. Global intellectual performance in the preterm group was significantly decreased compared with control subjects. Neither behavioral nor emotional problems were found in the preterm group. In the whole sample, we found a positive correlation between GM volume bilaterally in the middle temporal and in the postcentral gyri with IQ. Positive correlations were observed between GM and gestational age at birth in parietal and temporal cerebral regions and with WM in parietal regions. CONCLUSION: Preterm birth has an important impact on the neurodevelopmental and cognitive outcome of children at 9 years of age, being a risk factor for decreased regional cortical GM and WM even in preterm children with low risk for neurodevelopmental deficits.

Magnetic resonance imaging study of cerebral sulci in low-risk preterm children.

Premature birth is associated with several brain dysfunctions including changes in the normal pattern of sulcal development. Previous studies on sulcal abnormalities were performed in subjects with perinatal brain complications. We selected a sample of preterm subjects with a low risk of neurodevelopmental abnormalities with the aim of investigating the effects of prematurity per se. Surface and maximum depth measures of four sulci that develop at different gestational ages were obtained using Anatomist/Brain Visa 3.0.2 software. The sulci measured were the olfactory sulcus (16 weeks), the parieto-occipital sulcus (22-23 weeks), the superior temporal sulcus (32 weeks) and the orbitofrontal sulcus (36-39 weeks). The sample comprised 17 low-risk preterms (mean gestational age: 32 weeks) and 16 full-term children who were matched for age at scan, gender, handedness and socio-cultural status. Analysis of surface variance showed a significant group effect (P<0.015), as well as an interaction between the type of sulcus and group (P<0.001). The superior temporal sulcus surface was inferior in the low-risk preterm group compared to controls. Our findings suggest that even without perinatal complications, premature birth affects sulcal morphology.

Patterns of cerebral white matter damage and cognitive impairment in adolescents born very preterm.

There is increasing evidence about the presence of white matter damage in subjects with a history of premature birth, even in those classified as good outcome because of an apparently normal development. Although intellectual performance is within normal limits in premature children it is significantly decreased compared to paired controls. The purpose of this study was to investigate the relationship between a lower performance intelligence quotient and white matter damage in preterm adolescents. The sample comprised 44 adolescents (mean age+/-S.D.: 14.4+/-1.6 years) born before 32 weeks of gestational age and 43 term-born adolescents (14.5+/-2.1 years). Individual voxel-based morphometry analyses demonstrated that 35/44 (80%) preterm subjects had white matter abnormalities. The centrum semiovale and the posterior periventricular regions were the most frequently affected areas. Correlation analysis showed that in preterms the performance intelligence quotient correlated with the whole-brain white matter volume (r=0.32; P=0.036) but not with grey matter volume. Complementary analysis showed that low scores in the Digit Symbol subtest, a measure of processing speed, in the preterm group correlated with reductions in white matter concentration. These results suggest that white matter damage is highly common and that it persists until adolescence. Hence, diffuse white matter loss may be responsible for performance intelligence quotient and processing speed decrements in subjects with very preterm birth.

Proton magnetic resonance spectroscopy reveals medial temporal metabolic abnormalities in adolescents with history of preterm birth.

Prematurity is associated with volumetric reductions in specific brain areas such as the hippocampus and with metabolic changes that can be detected by spectroscopy. Short echo time (35 ms) Proton magnetic resonance spectroscopy (1H MRS) was performed to assess possible medial temporal lobe metabolic abnormalities in 21 adolescents with preterm birth (mean age: 14.8, SD: 1.3) compared with an age-matched control sample (mean age: 14.8, SD: 1.6). 1H MRS spectra were analyzed with linear combination model fitting, obtaining the absolute metabolite concentrations for Creatine (Cr), and myo-inositol (Ins). In addition, the following metabolite sums were measured: total Cho (glycerophospho-choline + phosphocholine), total N-acetyl-aspartate + N-acetyl-aspartylglutamate (NA), and total Glx (glutamate + glutamine). A stereological analysis was performed to calculate hippocampal volume. Absolute Cr, and total NA values were decreased in the preterm group (p = 0.016; p = 0.002, respectively). The preterm also showed a hippocampal reduction (p < 0.0001). Significant relationships were found between gestational age and different metabolites and the hippocampal volume. Moreover, hippocampal volume correlated with brain metabolites in the whole sample. Results demonstrate that prematurity affects medial temporal lobe metabolites, and that the alteration is related to structural changes, suggesting that the cerebral changes persist until adolescence.