Toxicology
From DrugPedia: A Wikipedia for Drug discovery
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'''Toxicology Definition:''' Toxicology is the study of the adverse effects of chemical, physical or biological agents on living organisms and the ecosystem, including the prevention and amelioration of such adverse effects. | '''Toxicology Definition:''' Toxicology is the study of the adverse effects of chemical, physical or biological agents on living organisms and the ecosystem, including the prevention and amelioration of such adverse effects. | ||
+ | Modern toxicology uses chemicals as tools to understand molecular/cellular biology. | ||
- | + | ==Discussion== | |
+ | Toxicity is the adverse end product of a series of events that is initiated by exposure to chemical, physical or biological agents. Toxicity can manifest itself in a wide array of forms, from mild biochemical malfunctions to serious organ damage and death. These events, any of which may be reversible or irreversible, include absorption, transport, metabolism to more or less toxic metabolites, excretion, interaction with cellular macromolecules and other modes of toxic action. Toxicology integrates the study of all of these events, at all levels of biological organization, from molecules to complex ecosystems. The broad scope of toxicology, from the study of fundamental mechanisms to the measurement of exposure, including toxicity testing and risk analysis, requires an extensively interdisciplinary approach. This approach utilizes the principles and methods of other disciplines, including molecular biology, chemistry (analytical, organic, inorganic and biochemistry), physiology, medicine (veterinary and human), computer science and informatics.[http://www.toxicology.org] | ||
+ | |||
+ | ==History== | ||
+ | Toxicology is arguably the oldest scientific discipline, as the earliest humans had to recognize which plants were safe to eat. | ||
+ | Humans are exposed to chemicals both deliberately and inadvertently. Most exposure of humans to chemicals is via naturally occurring compounds consumed in the diet from food plants. | ||
+ | |||
+ | ==Role of Toxicology In Drug development== | ||
+ | |||
+ | ==What Do Toxicologists Do?== | ||
+ | '''Most Toxicologists work to assess and understand how chemicals affect living systems.''' | ||
+ | * Develop mechanistic understanding of effects | ||
+ | * Ensure safer chemical products | ||
+ | * Develop safer drugs & medicines | ||
+ | * Determine risks from chemical exposures | ||
+ | * Develop treatments for chemical exposures | ||
+ | * Ensure a safe food and water supply | ||
+ | * Forensics | ||
+ | |||
+ | ==Who are Toxicologists?== | ||
+ | '''Toxicology involves integration of information from many different areas of expertise. People working in toxicology can also be called:''' | ||
+ | * Biochemists | ||
+ | * Chemists | ||
+ | * Pathologists | ||
+ | * Cancer Researchers | ||
+ | * Veterinarians | ||
+ | * Medical Doctors | ||
+ | * Cell and Molecular Biologists | ||
+ | * Engineers | ||
+ | * Mathematicians | ||
+ | * Statisticians | ||
+ | * Lab Technicians | ||
+ | * Animal Care Providers | ||
+ | |||
+ | ==major areas of specialization in toxicology== | ||
+ | * [[Mechanistic toxicology]] (basic biology and chemistry) | ||
+ | * [[Descriptive toxicology]] (testing) | ||
+ | * [[Regulatory toxicology]] (rule making and compliance) | ||
+ | * Risk assessment (modeling) | ||
+ | * [[Translational]] and clinical (applying basic research to patient care) | ||
+ | |||
+ | ==Exposure == | ||
+ | Sources of exposure to chemicals | ||
+ | |||
+ | * Environmental, including home and school | ||
+ | * Occupational | ||
+ | * Therapeutic | ||
+ | * Dietary | ||
+ | * Accidental | ||
+ | * Deliberate | ||
+ | |||
+ | In order for a chemical to produce a biological effect, it must first reach a target individual (exposure pathway). | ||
+ | Then the chemical must reach a target site within the body ([[toxicokinetics]]). | ||
+ | Toxicity is a function of the effective dose (how much) of a foreign chemical ([[xenobiotic]]) at its target site, integrated over time (how long). | ||
+ | Individual factors such as body weight will influence the dose at the target site. | ||
+ | |||
+ | ===Route of Exposure=== | ||
+ | |||
+ | The route (site) of exposure is an important determinant of the ultimate dose—different routes may result in different rates of absorption. | ||
+ | * Dermal (skin) | ||
+ | * Inhalation (lung) | ||
+ | * Oral ingestion (Gastrointestinal) | ||
+ | * Injection | ||
+ | |||
+ | The route of exposure may be important if there are tissue-specific toxic responses. | ||
+ | Toxic effects may be local or systemic | ||
+ | |||
+ | ===Time of Exposure=== | ||
+ | How long an organism is exposed to a chemical is important. | ||
+ | Duration and frequency contribute to dose. Both may alter toxic effects. | ||
+ | |||
+ | * Acute Exposure = usually entails a single exposure | ||
+ | * Chronic Exposures = multiple | ||
+ | |||
+ | ==Dose (THE KEY CONCEPT in Toxicology)== | ||
+ | “''All things are poisonous, only the dose makes it non-poisonous.''” [Father of Modern Toxicology, Paracelsus—1564] | ||
+ | |||
+ | Dose alone determines toxicity. | ||
+ | All chemicals—synthetic or natural—have the capacity to be toxic. |
Revision as of 11:25, 11 August 2008
Toxicology Definition: Toxicology is the study of the adverse effects of chemical, physical or biological agents on living organisms and the ecosystem, including the prevention and amelioration of such adverse effects. Modern toxicology uses chemicals as tools to understand molecular/cellular biology.
Contents |
Discussion
Toxicity is the adverse end product of a series of events that is initiated by exposure to chemical, physical or biological agents. Toxicity can manifest itself in a wide array of forms, from mild biochemical malfunctions to serious organ damage and death. These events, any of which may be reversible or irreversible, include absorption, transport, metabolism to more or less toxic metabolites, excretion, interaction with cellular macromolecules and other modes of toxic action. Toxicology integrates the study of all of these events, at all levels of biological organization, from molecules to complex ecosystems. The broad scope of toxicology, from the study of fundamental mechanisms to the measurement of exposure, including toxicity testing and risk analysis, requires an extensively interdisciplinary approach. This approach utilizes the principles and methods of other disciplines, including molecular biology, chemistry (analytical, organic, inorganic and biochemistry), physiology, medicine (veterinary and human), computer science and informatics.[1]
History
Toxicology is arguably the oldest scientific discipline, as the earliest humans had to recognize which plants were safe to eat. Humans are exposed to chemicals both deliberately and inadvertently. Most exposure of humans to chemicals is via naturally occurring compounds consumed in the diet from food plants.
Role of Toxicology In Drug development
What Do Toxicologists Do?
Most Toxicologists work to assess and understand how chemicals affect living systems.
- Develop mechanistic understanding of effects
- Ensure safer chemical products
- Develop safer drugs & medicines
- Determine risks from chemical exposures
- Develop treatments for chemical exposures
- Ensure a safe food and water supply
- Forensics
Who are Toxicologists?
Toxicology involves integration of information from many different areas of expertise. People working in toxicology can also be called:
- Biochemists
- Chemists
- Pathologists
- Cancer Researchers
- Veterinarians
- Medical Doctors
- Cell and Molecular Biologists
- Engineers
- Mathematicians
- Statisticians
- Lab Technicians
- Animal Care Providers
major areas of specialization in toxicology
- Mechanistic toxicology (basic biology and chemistry)
- Descriptive toxicology (testing)
- Regulatory toxicology (rule making and compliance)
- Risk assessment (modeling)
- Translational and clinical (applying basic research to patient care)
Exposure
Sources of exposure to chemicals
- Environmental, including home and school
- Occupational
- Therapeutic
- Dietary
- Accidental
- Deliberate
In order for a chemical to produce a biological effect, it must first reach a target individual (exposure pathway). Then the chemical must reach a target site within the body (toxicokinetics). Toxicity is a function of the effective dose (how much) of a foreign chemical (xenobiotic) at its target site, integrated over time (how long). Individual factors such as body weight will influence the dose at the target site.
Route of Exposure
The route (site) of exposure is an important determinant of the ultimate dose—different routes may result in different rates of absorption.
- Dermal (skin)
- Inhalation (lung)
- Oral ingestion (Gastrointestinal)
- Injection
The route of exposure may be important if there are tissue-specific toxic responses. Toxic effects may be local or systemic
Time of Exposure
How long an organism is exposed to a chemical is important. Duration and frequency contribute to dose. Both may alter toxic effects.
- Acute Exposure = usually entails a single exposure
- Chronic Exposures = multiple
Dose (THE KEY CONCEPT in Toxicology)
“All things are poisonous, only the dose makes it non-poisonous.” [Father of Modern Toxicology, Paracelsus—1564]
Dose alone determines toxicity. All chemicals—synthetic or natural—have the capacity to be toxic.