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39 results on '"Dominguez D"'

1. Network diffusion modeling predicts neurodegeneration in traumatic brain injury

Author

Govinda R. Poudel, Juan F. Dominguez D, Helena Verhelst, Catharine Vander Linden, Karel Deblaere, Derek K. Jones, Ester Cerin, Guy Vingerhoets, and Karen Caeyenberghs

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Objective Traumatic brain injury (TBI) is a heterogeneous disease with multiple neurological deficits that evolve over time. It is also associated with an increased incidence of neurodegenerative diseases. Accordingly, clinicians need better tools to predict a patient’s long‐term prognosis. Methods Diffusion‐weighted and anatomical MRI data were collected from 17 adolescents (mean age = 15y8mo) with moderate‐to‐severe TBI and 19 healthy controls. Using a network diffusion model (NDM), we examined the effect of progressive deafferentation and gray matter thinning in young TBI patients. Moreover, using a novel automated inference method, we identified several injury epicenters in order to determine the neural degenerative patterns in each TBI patient. Results We were able to identify the subject‐specific patterns of degeneration in each patient. In particular, the hippocampus, temporal cortices, and striatum were frequently found to be the epicenters of degeneration across the TBI patients. Orthogonal transformation of the predicted degeneration, using principal component analysis, identified distinct spatial components in the temporal–hippocampal network and the cortico‐striatal network, confirming the vulnerability of these networks to injury. The NDM model, best predictive of the degeneration, was significantly correlated with time since injury, indicating that NDM can potentially capture the pathological progression in the chronic phase of TBI. Interpretation These findings suggest that network spread may help explain patterns of distant gray matter thinning, which would be consistent with Wallerian degeneration of the white matter connections (i.e., “diaschisis”) from diffuse axonal injuries and multifocal contusive injuries, and the neurodegenerative patterns of abnormal protein aggregation and transmission, which are hallmarks of brain changes in TBI. NDM approaches could provide highly subject‐specific biomarkers relevant for disease monitoring and personalized therapies in TBI.

Published
2020
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5. The Moscamed Regional Programme: review of a success story of area-wide sterile insect technique application

Author

Enkerlin, W.R., primary, Gutiérrez Ruelas, J.M., additional, Pantaleon, R., additional, Soto Litera, C., additional, Villaseñor Cortés, A., additional, Zavala López, J.L., additional, Orozco Dávila, D., additional, Montoya Gerardo, P., additional, Silva Villarreal, L., additional, Cotoc Roldán, E., additional, Hernández López, F., additional, Arenas Castillo, A., additional, Castellanos Dominguez, D., additional, Valle Mora, A., additional, Rendón Arana, P., additional, Cáceres Barrios, C., additional, Midgarden, D., additional, Villatoro Villatoro, C., additional, Lira Prera, E., additional, Zelaya Estradé, O., additional, Castañeda Aldana, R., additional, López Culajay, J., additional, Ramírez y Ramírez, F., additional, Liedo Fernández, P., additional, Ortíz Moreno, G., additional, Reyes Flores, J., additional, and Hendrichs, J., additional

Published
2017
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37. A hierarchical method for whole-brain connectivity-based parcellation.

Author

Moreno-Dominguez D, Anwander A, and Knösche TR

Subjects
Brain physiology, Cluster Analysis, Datasets as Topic, Diffusion Magnetic Resonance Imaging, Female, Functional Laterality, Humans, Image Processing, Computer-Assisted, Male, Nerve Net anatomy & histology, Brain anatomy & histology, Brain Mapping, Connectome, Neural Pathways anatomy & histology, White Matter anatomy & histology
Abstract

In modern neuroscience there is general agreement that brain function relies on networks and that connectivity is therefore of paramount importance for brain function. Accordingly, the delineation of functional brain areas on the basis of diffusion magnetic resonance imaging (dMRI) and tractography may lead to highly relevant brain maps. Existing methods typically aim to find a predefined number of areas and/or are limited to small regions of grey matter. However, it is in general not likely that a single parcellation dividing the brain into a finite number of areas is an adequate representation of the function-anatomical organization of the brain. In this work, we propose hierarchical clustering as a solution to overcome these limitations and achieve whole-brain parcellation. We demonstrate that this method encodes the information of the underlying structure at all granularity levels in a hierarchical tree or dendrogram. We develop an optimal tree building and processing pipeline that reduces the complexity of the tree with minimal information loss. We show how these trees can be used to compare the similarity structure of different subjects or recordings and how to extract parcellations from them. Our novel approach yields a more exhaustive representation of the real underlying structure and successfully tackles the challenge of whole-brain parcellation., (Copyright © 2014 Wiley Periodicals, Inc.)

Published
2014
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38. Fabry disease: multidisciplinary evaluation after 10 years of treatment with agalsidase Beta.

Author

Juan P, Hernan A, Beatriz SA, Gustavo C, Antonio M, Eduardo T, Raul D, Margarita L, Mariana B, Daniela G, and Marina S

Abstract

Unlabelled: Fabry disease is an X linked disorder of metabolism due to deficient α-galactosidase A activity. Enzyme replacement therapy (ERT) with agalsidase Beta was approved by EMA in 2001 and FDA in 2003., Patients and Methods: Six patients were enrolled. Baseline data was measured for renal, cardiac, and cerebrovascular functioning. We compared baseline quality of life scales with the current results. These parameters were assessed during the 10 years of follow-up period., Results: Before ERT four patients showed normal eGFR, one stage 2 of CKD, and one hyperfiltration stage. All presented microalbuminuria and just two cases showed proteinuria. After 10 years of ERT, no patient showed decrease in renal functioning. One patient decreased from proteinuria to microalbuminuria range. Before treatment one case showed left ventricular (LV) hypertrophy and LV Mass Index was abnormal in two female patients. After 10 years echocardiographic values did not present progression to LVH and one female showed regression to normal values of LV posterior wall and interventricular septum. Brain MRI showed ischemic lesions in one female and vertebrobasilar dolichoectasia in one male. From baseline and during the follow-up period MRI did not progress to new ischemic lesions and there were no clinical signs of cerebrovascular damage. After 10 years quality of life showed improvement in all domains measured., Conclusion: Early treatment of agalsidase Beta is related to a better outcome regarding stability and regression of signs and symptoms in Fabry disease. Our results in patients with mild organ involvement showed good outcomes and support an early and continuous ERT.

Published
2014
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39. Progressive cardiomyopathic lentiginosis: report of six cases and one autopsy.

Author

Ruiz-Maldonado R, Trevizo L, Tamayo L, de los Rios MF, Skurovich M, Carrillo J, Dominguez D, and del Castillo V

Subjects
Child, Child, Preschool, Deafness diagnosis, Electrocardiography, Female, Humans, Intellectual Disability diagnosis, Lentigo pathology, Male, Pedigree, Syndrome, Arrhythmias, Cardiac diagnosis, Cardiomyopathies diagnosis, Lentigo diagnosis
Abstract

Progressive cardiomyopathic lentiginosis (PCL) is a syndrome with progressive multisystem abnormalities. Lentigines, the cutaneous hallmark, are usually present from early age and are of utmost diagnostic value. Six children with PCL are reported. The most constant diagnostic features in this age group were multiple cutaneous lentigines, structural cardiac anomalies, and electrocardiographic alterations. Less constant findings were neurosensory deafness, short stature, and osseous, ocular, and genitourinary abnormalities.

Published
1983
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