Neurobiology of Infectious Diseases: Volume 1

Auteur

Tatiana Barichello, Pharm., PhD, is an Associate Professor of Psychiatry and Behavioral Sciences and is making strides in immunology neuropsychiatry. With a background in Pharmacy and a major in Clinical Microbiology, she brings a wealth of knowledge and expertise to studying inflammation and infection's role in Neuropsychiatry and Behavioral sciences. Barichello received her Master's and Doctoral degrees in Biological Sciences (Biochemistry) from the Federal University of Rio Grande do Sul, RS, Brazil. Before joining the Department of Psychiatry and Behavioral Sciences at The University of Texas Health Science Center at Houston (UTHealth Houston) in 2014, she was Dean of the School of Pharmacy and Professor at the Graduate Program in Health Sciences at the University of Southern Santa Catarina, Criciúma, SC, Brazil. In addition, Barichello has over 100 publications and received several awards and grants as a principal investigator.

Felipe Dal-Pizzol, MD, PhD, is a Professor at the Medical School and Graduate Program in Health Sciences at the University of Southern Santa Catarina (UNESC), Criciúma, SC, Brazil. He is the Head of the Pathophysiology Laboratory at UNESC and Medical Coordinator at the Clinical Research Center, São José Hospital, Criociuma, SC, Brazil. Dal-Pizzol's research focuses on translational research in sepsis, mainly on the mechanisms of brain dysfunction, oxidative stress, and mitochondrial dysfunction. He has ongoing collaborative studies in other research areas, such as the biology of psychiatric disease. He has authored more than 320 peer-reviewed publications and, specifically, more than 100 peer-reviewed publications in the sepsis field. Besides his scientific career, he is a Research Fellow at level 1A (the highest level) from the Brazilian Ministry of Science. He is board-certified in Respiratory Medicine and Intensive Care Medicine and has been clinically active in an Academic Hospital for several years.

Rodrigo Hasbun, M.D., M.P.H., is Professor of Medicine; he obtained his medical degree at the Autonomous University of Central America in San Jose, Costa Rica in 1991. He completed his internal medicine residency at the University of Texas Medical Branch in Galveston in 1994 and then went to Yale University for 5 years for a fellowship in Infectious Diseases and Clinical Research by obtaining a National Research Service Award grant and by enrolling in the Robert Wood Johnson Clinical Scholars Program. During this time, he conducted studies in meningitis and endocarditis that have been incorporated into national guidelines. In 1999, he joined Tulane University in New Orleans where he obtained an MPH in Clinical Research and received an NIH K23 training grant to study adults with the aseptic meningoencephalitis syndrome. He joined the McGovern Medical School at UTHealth in September 2008 and has validated and expanded his meningoencephalitis study to multiple centers and to the pediatric population. In collaboration with pediatrics, he has received support from the Grant A Starr Foundation since 2010 to help advance the management of adults and children with meningitis and encephalitis and is evaluating novel technologies (such as multiplex PCR and next generation sequencing) to improve the diagnostic field. He has also obtained funding from the Baylor UT CFAR to study HIV associated neurocognitive disorders. In collaboration with the University of Houston, Dr Hasbun has expanded neurocognitive studies to other disorders such as West Nile virus infection. Additionally, as co-investigator of the R01 funded West Nile encephalitis cohort study he has led a collaborative neurological, neuropsychological, and ophthalmological evaluation of West Nile patients with a subset of patients also undergoing electromyography and volumetric MRI. He is a co-investigator of the U24-funded National Neuro AIDS Tissue Consortium that enrolls patients at Thomas Street Health. Finally, Dr Hasbun is a panel member of the first healthcare associated ventriculitis and meningitis guidelines in 2016 and is the main author for the meningitis chapters in the main textbook of infectious diseases (Principles and Practice of Infectious Diseases) and in Medscape.

Texte du rabat
Neurobiology of Infectious Diseases covers mechanisms underlying infectious diseases. It is divided into six distinct sections, beginning with the foundations of Neuroinfection. This section includes chapters on the role microbiota-gut-brain axis and specialized blood-neuronal barriers play in neurobiology of infectious diseases. The next three sections detail various bacterial infections, parasitic infections, viral infections, and fungal infections of the central nervous system. The last section reviews the proteins and other peripheral mediators that affect the central nervous system. Internationally contributed by experts in the field this book sets the foundation of neurobiology and infectious disease. Neurobiology is the study of cells of the nervous system and the organization of these cells into functional circuits that process information and mediate behavior. Current research is vital for determining pharmaceutical and medicinal treatments for neurological disorders, psychiatric disorders and diseases.

Contenu

Part I - Foundations of Neuroinfection 1. Anatomical Organization of central nervous system (CNS) 2. The enteric nervous system’s (ENS) impact on the neurobiology of infectious diseases 3. The role of the microbiota-gut-brain axis on the neurobiology of infectious diseases 4. The role and function of specialized blood-neuronal barriers: Blood-CSF, blood-retinal, blood-spinal cord, blood-labyrinth, blood-nerve barriers, and blood-brain barrier (BBB) 5. Neuroimmune interactions in the neurobiology of infectious diseases 6. The routes and mechanisms of microbial translocation to the central nervous system Part II - Bacterial Infections Of CNS 7. Brain infections, encephalitis, and meningitis: Streptococcus pneumoniae 8. Brain infections, encephalitis, and meningitis: Neisseria meningitidis 9. Brain infections, encephalitis, and meningitis: Streptococcus agalactiae 10. Brain infections, encephalitis, and meningitis: Mycobacterium tuberculosis 11. Neurosyphilis 12. Brain infections, encephalitis, and meningitis: Lyme disease - Lyme borreliosis 13. Brain infections, encephalitis, and meningitis: Brucelosis 14. Brain infections, encephalitis, and meningitis: Listeria monocytogenesis - Listeriosis 15. Sepsis-associated encephalopathy: Understanding the brain dysfunction in sepsis Part III - Parasitic Infections Of CNS 16. African trypanosomiasis: Comprehending the parasite pathogenesis in the brain 17. Cerebral malaria: Understanding the parasite pathogenesis in the brain 18. Neurocysticercosis 19. Free-living amoebae: Pathogens and the central nervous system (CNS) disease 20. Pathophysiological mechanisms of Toxoplasma gondii infection in the central nervous system (CNS) Part IV - Virus Infections Of CNS 21. HIV-infected human brain: Implications in HIV infection and immune response 22. SARS-CoV-2 and nervous system: From pathogenesis of disease to clinical manifestations 23. The neurobiology of herpes simplex virus infection 24. Zika virus: Infection of the central nervous system (CNS) 25. Dengue fever and its neurological complications 26. Japanese encephalitis 27. West Nile viruses: Infection of the central nervous system (CNS) 28. Tick-borne encephalitis (TBE) 29. Chikungunya virus: Infection of the central nervous system Part V- Fungal Infections Of CNS 30. Brain infections, encephalitis, and meningitis: Cryptococcus sp. 31. Central nervous system infection due to Histoplasma capsulatum 32. Brain infections, encephalitis, and meningitis: Coccidioides sp. 33. Brain infections, encephalitis, and meningitis: Candida sp. Part VI - Proteins and other peripheral mediators that affect th…