Discusses individual substances, mixtures of chemicals, or exposure circumstances associated with technological processes which are known to be human carcinogens or which may reasonably be anticipated to be human carcinogens. Also contains information relating to estimated exposures and exposure standards or guidelines. Chapters: delisted substances; profiles for agents, substances, mixtures or exposure circumstances known to be human carcinogens, or reasonably anticipated to be human carcinogens; list of manufacturing processes, occupations, and exposure circumstances classified; and listing/delisting procedures.
The IARC Monographs series publishes authoritative independent assessments by international experts of the carcinogenic risks posed to humans by a variety of agents, mixtures and exposures. They are a resource of information for both researchers and national and international authorities. This volume is particularly significant because tobacco smoke not only causes more deaths from cancer than any other known agent; it also causes more deaths from vascular and respiratory diseases. This volume contains all the relevant information on both direct and passive smoking. It is organised by first looking at the nature of agent before collecting the evidence of cancer in humans. This is followed by carcinogenicity studies on animals and then any other data relevant to an evaluation.
Destruction of Hazardous Chemicals in the Laboratory Single volume reference providing procedural information for the destruction of a wide variety of hazardous chemicals Destruction of Hazardous Chemicals in the Laboratory is a practical reference that describes procedures for the destruction of a comprehensive list of hazardous chemicals and provides general methods for the destruction of hazardous chemicals in the laboratory without the need for exotic reagents and equipment. Unlike most other sources on this subject, detailed reaction parameters are provided to readers. These details will help the reader decide if a procedure will be appropriate. To further aid in reader comprehension, numerous tables throughout the book allow for ready comparison of procedures. Destruction of Hazardous Chemicals in the Laboratory also describes the critical aspects of various protocols (e.g., UV lamp type and rate of ozone flow). The updated fourth edition Includes an updated survey of the literature from 2012-2021 and features data mined from 1,500 papers. It also describes recent examples of methods that are generally applicable to organic compounds and greatly expands the section on methods for the destruction of pharmaceuticals in the laboratory. In this book, readers can expect to find detailed information on: Specific methods for the destruction of hazardous chemicals in the laboratory, such as aflatoxins, butyllithium, complex metal hydrides, ethidium bromide, MPTP, nitrosamines, and polycyclic aromatic hydrocarbons Methods for the destruction of pharmaceuticals in the laboratory, such as those using ozone, persulfate, and potassium permanganate as well as photolytic degradation procedures Procedures for drying organic solvents A discussion of the issues concerning nitrosamine formation during the destruction process, particularly when sodium hypochlorite is used A variety of indexes, including a general index, cross index of pharmaceuticals and destruction procedures, cross index of dyes and destruction procedures, and cross index of names for dyes and biological stains Destruction of Hazardous Chemicals in the Laboratory is of immense value to researchers in the laboratory by enabling them to quickly and efficiently get rid of residual amounts of hazardous chemicals when a series of experiments has ended. The procedures in the text can also be incorporated into laboratory protocols.
This volume covers advances in the field of respiratory diseases, reflecting the recent and dramatic expansion of knowledge regarding the determinants of respiratory health, screening tests for early pulmonary lesions, therapeutic interventions for respiratory infections and strategies for prevention. It examines indoor and outdoor environmental sources of respiratory diseases, including levels of pollutants, air conditioning, indoor air quality and airborne allergens. Exploring ways to promote the respiratory health of both the individual and the community, Prevention of Respiratory Diseases covers areas including: the role of most of the known extrinsic and potentially preventable determinants in respiratory diseases; developments in epidemiology and children's respiratory health; the relationship between respiratory diseases and occupations; individual sensitivity or susceptibility to the effects of air pollutants; genetic, epidemiological and immunological markers, markers for bronchial cancer and the protease-antiprotease system; and the connection between tobacco smoke and respiratory diseases.;This resource is intended for pulmonologists, clinical immunologists and allergists, oncologists, physiologists, infectious disease specialists, respiratory therapists and graduate and medical school students in these disciplines.
Written by experts in the analytical chemistry of tobacco smoke, Tobacco Smoke Exposure Biomarkers summarizes the toxicology, metabolic pathway, and biomarkers of nicotine, TSNAs, PAHs, VOCs, AAs, Catechol and Hydroquinone, HCN, CO and NOx, and heavy metals, and the use of this biomarker in exposure assessment and/or cigarette smoke exposure enviro
The scientific basis, inference assumptions, regulatory uses, and research needs in risk assessment are considered in this two-part volume. The first part, Use of Maximum Tolerated Dose in Animal Bioassays for Carcinogenicity, focuses on whether the maximum tolerated dose should continue to be used in carcinogenesis bioassays. The committee considers several options for modifying current bioassay procedures. The second part, Two-Stage Models of Carcinogenesis, stems from efforts to identify improved means of cancer risk assessment that have resulted in the development of a mathematical dose-response model based on a paradigm for the biologic phenomena thought to be associated with carcinogenesis.
