Aerobiology : the toxicology of airborne pathogens and toxins /
Aerobiology is the study of airborne organic particulates in the environment, such as bacteria or fungal spores. These can be either naturally occurring or artificially introduced into the air. Some of the toxicological, pharmacological, and physiological effects of bioaerosols include infections, a...
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| Other Authors: | , , , |
| Format: | eBook |
| Language: | English |
| Published: |
[Cambridge] :
Royal Society of Chemistry,
2016.
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| Series: | Issues in toxicology ;
25. |
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
Table of Contents:
- Cover; Aerobiology The Toxicology of Airborne Pathogens and Toxins; Preface; Acknowledgements; Contents; Chapter 1
- The Atmosphere: Its Developmental History and Contributions to Microbial Evolution and Habitat Chapter 2
- Orthopoxviruses and Animal Models for Pathogenesis, Vaccine and Drug Studies Chapter 3
- Inhalational Anthrax
- Issues in Dose-Response and Hazard Evaluation; Chapter 4
- Toxicity of Botulinum Neurotoxin by Inhalation: Implications in Bioterrorism
- 3.2 Problem Characterization3.3 Inhalational Anthrax
- Pathogenesis and Treatment; 3.4 Physical and Biological Factors Affecting Inhalational Risk; 3.5 Overview of Dose-Response Regression Models; 3.6 Dose-Response Studies and Modeling in Animals; 3.7 The Sverdlovsk Accidental Release and Incubation Period Modeling; 3.8 The 1957 Goat Hair Mill Outbreak and Its Implications
- "From Mills to Mail"; 3.9 Evaluation, Conclusions and Future Directions; 3.10 Summary; References; 4.1 Introduction; 4.2 BoNT As a Biowarfare and Bioterrorist Threat; 4.3 Potency of BoNT by Inhalation
- 4.4 Mechanism of Entry of Aerosolized BoNT4.5 Human Case Reports of Inhalation Botulism; 4.6 Histopathological Alterations Following BoNT Exposure; 4.7 Detection and Diagnosis; 4.8 Medical Countermeasures for Inhalation Botulism; 4.9 Summary and Conclusions; Abbreviations; Acknowledgements; References; 5.1 Introduction; 5.2 Structural Biology and Biochemistry of the Ricin Ribosome Inactivating Protein; 5.3 Weaponization of the Ricin Toxin; 5.4 Inhalation of Aerosolized Ricin; 5.5 Signs, Symptoms and Toxicity of Ricin Exposure; 5.6 Conclusions; Acknowledgements; References; 6.1 Introduction
- Chapter 13
- Aerosol Exposure to Pathogenic Bacteria and Virus Particles: Standard Operating ProcedureChapter 14
- Programming an Agent-Based Model for Disease Dynamics with Multiple Sources of Infection Subject Index; 1.1 Introduction; 1.2 The Origin and Evolution of the Earth's Atmosphere; 1.3 Evolutionary History of the Atmosphere; 1.4 Microbial Life in the Atmosphere; 1.5 Conclusion; Acknowledgements; References; 2.1 Introduction; 2.2 The Poxviruses; 2.3 Clinical Aspects of Poxvirus Infections; 2.4 Animal Models and Aerosol Studies; 2.5 Conclusion; References; 3.1 Introduction
- Chapter 5
- The Structural Biology and Biochemistry of the Ricin Toxin and the Military Use and Inhalation Toxicology of Ricin Aerosols hapter 6
- Bioaerosols in the Environment: Populations, Measurement and Processes; Chapter 7
- Bacillus anthracis: An Aerobiological Threat Chapter 8
- Detection of Airborne Pathogens and Toxins; Chapter 9
- Aerobiological Aspects of Biological Warfare Chapter 10
- Aerosol Physics for Bioaerosols Chapter 11
- Respiratory Protection Against Some Pathogens and Toxins; Chapter 12
- An Improved Model of Human Response to Bioaerosol Exposure