Biometals in Neurodegenerative Diseases: Mechanisms and Therapeutics
Editat de Anthony R. White, Michael Aschner, Lucio G. Costa, Ashley I. Bushen Limba Engleză Hardback – 28 apr 2017
This book is written for academic researchers, clinicians and advanced graduate students studying or treating patients in neurodegeneration, neurochemistry, neurology and neurotoxicology. The scientific literature in this field is advancing rapidly, with approximately 300 publications per year adding to our knowledge of how biometals contribute to neurodegenerative diseases.
Despite this rapid increase in our understanding of biometals in brain disease, the fields of biomedicine and neuroscience have often overlooked this information. The need to bring the research on biometals in neurodegeneration to the forefront of biomedical research is essential in order to understand neurodegenerative disease processes and develop effective therapeutics.
- Authoritative and timely resource bringing together the major findings in the field for those with an interest in metals and their role in the brain function, disease, and as therapeutic targets
- Written for academic researchers, clinicians, and advanced graduate students studying, or treating, patients in neurodegeneration, neurochemistry, neurology and neurotoxicology
- Edited by international leaders in the field who have contributed greatly to the study of metals in neurodegenerative diseases
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Specificații
ISBN-13: 9780128045626
ISBN-10: 0128045620
Pagini: 462
Dimensiuni: 191 x 235 x 28 mm
Greutate: 1.16 kg
Editura: ELSEVIER SCIENCE
ISBN-10: 0128045620
Pagini: 462
Dimensiuni: 191 x 235 x 28 mm
Greutate: 1.16 kg
Editura: ELSEVIER SCIENCE
Public țintă
Academic researchers, clinicians, and advanced graduate students studying or treating patients in neurodegeneration, neurochemistry, neurology, and neurotoxicologyCuprins
1. Biometals and Alzheimer’s Disease
2. Copper in Alzheimer’s Disease
3. The Role of Selenium in Neurodegenerative Diseases
4. Does HFE Genotype Impact Macrophage Phenotype in Disease Process and Therapeutic Response?
5. Chemical Elements and Oxidative Status in Neuroinflammation
6. Metals and Neuroinflammation
7. Metals and Prions: Twenty Years of Mining the Awe
8. Manganese and Neurodegeneration
9. Zinc in Autism
10. Metals and Motor Neuron Disease
11. Metals and Lysosomal Storage Disorders
12. Developmental Exposure to Metals and its Contribution to Age-Related Neurodegeneration
13. Metal Biology Associated with Huntington’s Disease
14. Metal-Binding to Amyloid-β Peptide: Coordination, Aggregation, and Reactive Oxygen Species Production
15. Metals and Mitochondria in Neurodegeneration
16. Metal Transporters in Neurodegeneration
17. Metal Imaging in the Brain
18. Metalloregulation of Protein Clearance: New Therapeutic Avenues for Neurodegenerative Diseases
19. Metals and Autophagy in Neurotoxicity
20. An Overview of Multifunctional Metal Chelators as Potential Treatments for Neurodegenerative Diseases
21. Abnormal Function of Metalloproteins Underlies Most Neurodegenerative Diseases
2. Copper in Alzheimer’s Disease
3. The Role of Selenium in Neurodegenerative Diseases
4. Does HFE Genotype Impact Macrophage Phenotype in Disease Process and Therapeutic Response?
5. Chemical Elements and Oxidative Status in Neuroinflammation
6. Metals and Neuroinflammation
7. Metals and Prions: Twenty Years of Mining the Awe
8. Manganese and Neurodegeneration
9. Zinc in Autism
10. Metals and Motor Neuron Disease
11. Metals and Lysosomal Storage Disorders
12. Developmental Exposure to Metals and its Contribution to Age-Related Neurodegeneration
13. Metal Biology Associated with Huntington’s Disease
14. Metal-Binding to Amyloid-β Peptide: Coordination, Aggregation, and Reactive Oxygen Species Production
15. Metals and Mitochondria in Neurodegeneration
16. Metal Transporters in Neurodegeneration
17. Metal Imaging in the Brain
18. Metalloregulation of Protein Clearance: New Therapeutic Avenues for Neurodegenerative Diseases
19. Metals and Autophagy in Neurotoxicity
20. An Overview of Multifunctional Metal Chelators as Potential Treatments for Neurodegenerative Diseases
21. Abnormal Function of Metalloproteins Underlies Most Neurodegenerative Diseases