This volume offers the most comprehensive presentation available on metal toxicology. It discusses not only metals but also the toxic endpoints, such as neurotoxicity, renal toxicity, and cancer induction. Chapters are written by experts in their respective fields, focusing on carcinogenesis and human exposures and highlighting the major aspects and issues of toxicity in general.

This volume offers the most comprehensive presentation available on metal toxicology. It discusses not only metals but also the toxic endpoints, such as neurotoxicity, renal toxicity, and cancer induction. Chapters are written by experts in their respective fields, focusing on carcinogenesis and human exposures and highlighting the major aspects and issues of toxicity in general.

A cutting-edge review of the biochemical, physiological, pharmacological, genetic, and molecular interactions involved in the development and homeostasis of the skeleton. Topics range from chondrogenesis, chondrocytes, and cartilage to skeletal dysmorphology, and include the control of skeletal development, osteoblastic cell differentiation, and bone induction, growth, remodeling, and mineralization. The authors' understanding of bone physiology-and how it is modified throughout all the stages of life-offers novel approaches for improving the endurance of load-bearing implants, achieving life-long optimal bone strength, overcoming microgravity situations (space flight), and hastening the healing of fractures, osteotomies, and antrodeses.

A cutting-edge review of the biochemical, physiological, pharmacological, genetic, and molecular interactions involved in the development and homeostasis of the skeleton. Topics range from chondrogenesis, chondrocytes, and cartilage to skeletal dysmorphology, and include the control of skeletal development, osteoblastic cell differentiation, and bone induction, growth, remodeling, and mineralization. The authors' understanding of bone physiology-and how it is modified throughout all the stages of life-offers novel approaches for improving the endurance of load-bearing implants, achieving life-long optimal bone strength, overcoming microgravity situations (space flight), and hastening the healing of fractures, osteotomies, and antrodeses.

Edward J. Massaro and a panel of leading biomedical researchers and clinical practitioners review, in-depth, the status of our current knowledge concerning the biochemistry of copper in general and its role in health and disease in particular. Drawing on the wealth of new information emerging from the molecular biology revolution, these experts survey the most important research areas of copper pharmacology and toxicology, including copper proteins and transport, copper toxicity and therapeutics, and copper metabolism and homeostasis. They also discuss the molecular pathogenesis of copper in a variety of metabolic diseases, Menkes and Wilson's diseases and occipital horn syndrome, as well as the role of copper in Parkinson's disease, prion disease, familial amytrophic lateral sclerosis (ALS), and Alzheimer's disease.

N eurotoxicology is a broad and burgeoning field of research. Its growth in recent years can be related, in part, to increased interest in and concern with the fact that a growing number of anthropogenic agents with neurotoxic potential, including pesticides, 1ead, mercury, and the polytypic byproducts of combustion and industrial production, continue to be spewed into and accumulate in the environment. In addition, there is great interest in natural products, including toxins, as sources of therapeutic agents. Indeed, it is well known that many natural toxins ofbroadly differing structure, produced or accumulated for predatory or defensive purposes, and toxic agents, accumulated incidentalIy by numerous species, function to perturb nervous tissue. Components of some of these toxins have been shown to be useful therapeutic agents and/or research reagents. Unfor of some neurotoxicants of anthropogenic ori tunately, the environmental accumulation gin, expecialIy pesticides and metals, has resulted in incidents ofhuman poisoning, some of epidemic proportion, and high levels of morbidity and mortality. Furthermore, an increasing incidence of neurobehavioral disorders, some with baffling symptoms, is confronting clinicians. It is not clear whether this is merely the re suit of increased vigi lance and/or improved diagnostics or a consequence of improved health care. In any case, the role of exposure to environmental and occupational neurotoxicants in the etiology of these phenomena, as well as neurodegenerative diseases, is coming under increasing scrutiny and investigation.

Neurotoxicology is a broad and burgeoning field of research. Its growth in recent years can be related, in part, to increased interest in and concern with the fact that a growing number of anthropogenic agents with neurotoxic potential, including pesticides, lead, mercury, and the polytypic bypro ducts of combustion and industrial production, continue to be spewed into and accumulate in the environment. In addition, there is great interest in natural products, including toxins, as sources of therapeutic agents. Indeed, it is well known that many natural toxins of broadly differing structure, produced or accumulated for predatory or defensive purposes, and toxic agents, accumulated incidentally by numerous species, function to perturb nervous tissue. Components of some of these toxins have been shown to be useful therapeutic agents and/or research reagents. Unfor tunately, the environmental accumulation of some neurotoxic ants of anthropogenic ori gin, especially pesticides and metals, has resulted in incidents of human poisoning, some of epidemic proportion, and high levels of morbidity and mortality. Furthermore, an increasing incidence of neurobehavioral disorders, some with baffling symptoms, is confronting clinicians. It is not clear whether this is merely the result of increased vigi lance and/or improved diagnostics or a consequence of improved health care. In any case, the role of exposure to environmental and occupational neurotoxic ants in the etiology of these phenomena, as well as neurodegenerative diseases, is coming under increasing scrutiny and investigation.

An authoritative panel of basic and clinical researchers critically reviews the latest findings on the role of folate in human development, health, and disease. Specific areas addressed include folate metabolism in zinc or copper deficiencies, choline and folate in development, animal models of folate-related birth defects, developmental toxicants potentially acting via folate perturbation, and folate's role in vascular disease in women. There are also cutting-edge discussions of genes and neural tube development, folate receptor polymorphism and the risk for neural defects, abnormal DNA synthesis and methylation with folate/methyl insufficiency, and folic acid and homocysteine as risk factors for neural tube defects.

An authoritative panel of basic and clinical researchers critically reviews the latest findings on the role of folate in human development, health, and disease. Specific areas addressed include folate metabolism in zinc or copper deficiencies, choline and folate in development, animal models of folate-related birth defects, developmental toxicants potentially acting via folate perturbation, and folate's role in vascular disease in women. There are also cutting-edge discussions of genes and neural tube development, folate receptor polymorphism and the risk for neural defects, abnormal DNA synthesis and methylation with folate/methyl insufficiency, and folic acid and homocysteine as risk factors for neural tube defects.

Covering some of the most important topics in modern toxicology, the Handbook of Human Toxicology is a unique and valuable addition to the current literature. It addresses issues, answers questions, and provides data related to. Within each of these five major sections are several carefully selected topics that reflect the current state of human toxicology. From tissue uptake of mercury to the effects of drugs on immune systems, the text provides much-needed information quickly and easily.

Edward J. Massaro and a panel of leading biomedical researchers and clinical practitioners review, in-depth, the status of our current knowledge concerning the biochemistry of copper in general and its role in health and disease in particular. Drawing on the wealth of new information emerging from the molecular biology revolution, these experts survey the most important research areas of copper pharmacology and toxicology, including copper proteins and transport, copper toxicity and therapeutics, and copper metabolism and homeostasis. They also discuss the molecular pathogenesis of copper in a variety of metabolic diseases, Menkes and Wilson's diseases and occipital horn syndrome, as well as the role of copper in Parkinson's disease, prion disease, familial amytrophic lateral sclerosis (ALS), and Alzheimer's disease.