Yongxia Zhou had completed her Ph.D from University of Southern California in Biomedical imaging (2004). Her research interest is neuroimaging and neuroscience applications. She had been trained and worked as neuroimaging scientists in several prestigious institutes including Columbia University, New York University and University of Pennsylvania. Her research focuses on multi-modal neuroimaging including using MRI/PET and EEG instrumentation as well as the integration of these multi-modal to make the best usage of each modality and to help interpreting underlying co-existing pathophysiological for better disease diagnosis and treatment. Her specific interest in MRI technology includes mapping of blood flow, oxygen saturation and extraction fraction and metabolism as well as vascular reactivity assessment with BOLD and arterial spin labeling (ASL)-based blood flow measures. She has published several books and book chapters, over 20 papers and more than 40 abstracts in reputed international journals and conferences, . She has been serving as several journal and international conference abstract reviewers including JMRI, JCBFM, ISMRM and ICAD. Multiple sclerosis (MS) is a chronic inflammatory demyelinating disease that affects the whole brain. Neuroimaging techniques that can help elucidate and characterize the nature and mechanism of tissue injury and disease progression in MS are of particular importance, given their roles in seeking successful preventive and therapeutic treatments for the disease. Imaging biomarkers of MS include multiple lesions, brain atrophy and normal appearing brain tissue abnormalities. Although MS is considered to be an autoimmune inflammatory disease that primarily activates hematogenous macrophages that destroy myelin, growing evidence strongly suggests that MS is a diffused neurodegenerative disease. Imaging myelin in the brain has great potential in revealing the myelination and maturation process in the brain, and can help further explain the link between the initial inflammatory event and subsequent degenerative processes of the disease. While myelin is most abundant in white matter, forefront studies suggest that demyelination could occur in grey matter during aging and MS. Further improvements are expected in this active research field in terms of quantification and improvement of myelin detection accuracy. The neuroimaging techniques in MS detection can be further extended to other neurodegenerative diseases including Alzheimer’s disease, schizophrenia and white matter injuries following stroke. Furthermore, cerebrovascular reactivity (CVR) describes the compensatory dilatory capacity of cerebral vasculature in upregulating perfusion. Investigating the hypercapnia-induced CVR characteristics using well-validated pseudo-continuous ASL (p CASL) for CBF and BOLD f MRI acquisitions could provide a physiological clue to the underlying neurovascular and vascular inflammatory mechanism in the etiology of MS.The authors hope to introduce the readers to some perspectives using multi-modality imaging for MS disease detection and diagnosis, including two imaging hallmark-demyelination and inflammation. Various advanced technical developments and applications will be demonstrated, including conventional and homotopic functional and structural connectivity, underlying pathological investigation with robust blood-flow and BOLD-based vascular reactivity techniques, and longitudinal monitoring of multiparametric MRI data. Therefore, the book will present some forefront, up-to-date and interesting examples in the MS research field. This book will hopefully capture the interests of colleagues in this challenging field and help convey the technical and developmental information of the neuroimaging applications in MS.Target Audience:College to post-graduate students, professionals including faculties and scientists in universities and research institutes, as well as research and development staff interested in this topic
Yongxia Zhou
Neuroimaging in Multiple Sclerosis [PDF ebook]
Neuroimaging in Multiple Sclerosis [PDF ebook]
Cumpărați această carte electronică și primiți încă 1 GRATUIT!
Format PDF ● Pagini 144 ● ISBN 9781536119688 ● Editor Yongxia Zhou ● Editura Nova Science Publishers ● Publicat 2017 ● Descărcabil 3 ori ● Valută EUR ● ID 7217121 ● Protecție împotriva copiilor Adobe DRM
Necesită un cititor de ebook capabil de DRM