toxicity and human health inneke hantoro. toxicity toxicity is the potential of a chemical to induce...
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Toxicity and
Human Health
Inneke Hantoro
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Toxicity
Toxicity is the potential of a chemical to induce an adverse effect in a living organism e.g., man.
Toxicity
How a toxicant enters an organism
How it interacts with target molecule
How organism dealswith the insult
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The induction of toxic effects largely depends on the disposition of the substances concerned.
KineticPhase
DynamicPhase
Interaction of a substance with a living organism
absorption, distribution, metabolism, and excretion
the fate of substance in the body
interactions of the toxicant within the organism and describes processes at organ, tissue,
cellular, and molecular levels
the body has a number of defense mechanisms atvarious levels of the kinetic phase, metabolism
& excretion
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Potential stages in the development of toxicity after chemical exposure
Toxicant
Delivery
Interactionwith targetmolecule
Alteration of biologicalenvironment
Cellulardysfunction,
injury
Dysrepair
TOXICITYKlassen (2001)
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Step 1:Delivery
Theoretically, the intensity of a toxic effect depends primarily on the concentration and persistence of the ultimate toxicant at its site of action.
The ultimate toxicant is the chemical species that reacts with the endogenous target molecule (e.g., receptor, enzyme, DNA, protein, lipid) or critically alters the biological (micro) environment, initiating structural and/or functional alterations that result is toxicity.
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Factors that can facilitate the accumulation of ultimate toxicants
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Absorption Absorption is the transfer of a chemical from the site of exposure, usually an external or internal body surface (e.g., skin, mucosa of the alimentary and respiratory tracts), into the systemic circulation.
Presystemic Elimination During transfer from the site of exposure to the systemic circulation, toxicants may be eliminated.
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Distribution to and away from the target
Mechanisms facilitating distribution to a target:
the porosity of the capillary endothelium
specialized membrane transport
accumulation in cell organelles
reversible intracellular binding
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Mechanisms Opposing Distribution to a Target Distribution of toxicants to specific sites may be hindered by several processes, including:
binding to plasma proteinsspecialized barriersdistribution to storage sites such as adipose tissue association with intracellular binding proteins export from cells
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Excretion. Excretion is the removal of xenobiotics from the blood and their return to the external environment.
Reabsorbtion.
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ToxicationBiotransformation to harmful products is called toxication or metabolic activation.
With some xenobiotics, toxication confers physicochemical properties that adversely alter the microenvironment of biological processes or structures.
For example, oxalic acid formed from ethylene glycol may cause acidosis and hypocalcaemia as well as obstruction of renal tubules by precipitation as calcium oxalate.
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Detoxication
Biotransformation that eliminates an ultimate toxicant or prevents its formation is called detoxication.
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The absorption of toxicants
Process by which the toxicants cross the epithelial cell barriers.
Route of absorption:Skin
Respiratory
Digestive
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The absorption of toxicants
Absorption through skin, lung or intestinal tissue is followed by passage into the interstitial fluid.
Interstitial fluid (15%), intracellular fluid (40%), blood plasma (8%)
Toxicants is absorbed & enters the lymph or blood supply and is mobilized to other parts of the body.
Toxicant can enter local tissue cells.
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Integumentary System Route
Skin, hair, nails, mammary glands. Skin is the largest organ in the body.Epidermis.– Avascular, keratinized stratum corneum, 15-
20 cells thick, provides most toxicant protection.Dermis.– Highly vascularized; nerve endings, hair follicles, sweat and oil glands.Hypodermis.– Connective and adipose tissue.
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Skin
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Respiratory System RouteSkin: stratified squamous epithelial tissue
Respiratory system: squamous epithelium, cilated columnar and cuboidal epithelium
Non-keratinized, but cilated tissues and muscus-secreting cells provide “mucociliary escalator”
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Nasopharyngeal.– Nostrils, nasopharynx, oropharynx,
laryngopharynx.– Hairs and mucus; trap >5 μm particulates.Tracheobronchial.– Trachea, bronchi, bronchioles; cillial action.– Luminal mucus aerosols and gases.Pulmonary– Alveoli - high surface area gas exchange with
cardiovascular system.
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Digestive System RouteMouth, oral cavity, esophagus, stomach, small
intestine, rectum, anus.
Residence time can determine site of toxicant
entry/injury.
– Mouth (short); small intestine (long).
– Absorption of toxicants can take place anywhere, but much of the tissue structure in the digestion system is specially designed for absorption.
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Digestive System Route
Tissue differentiation.Mucosa– Avascular, s. squamus or columnar epithelium.– In some regions villi and microvilli
structure aids in absorption (high surface area).
Submucosa– Blood, lymph system interface.Muscularis (movement).Serosa (casing).
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Distribution of toxicants in the body
Lymphatic systemLymph capillaries, nodes, tonsils, spleen, thymus, lymphocytes
Drain fluids from systems
Slow circulation
Cardiovascular systemHeart, arterial and venous vessels, capillaries, blood
Fast circulation
Major distribution by blood
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In blood system, major toxicant transport medium: Erythrocytes (red blood cell) Leukocytes (white blood cell) Platelets (thrombocytes) Plasma (non-cellular fluid)
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Factors affecting Distribution:Physical or chemical properties of toxicantsConcentration gradient (volume of distribution)Cardiac output to the specific tissuesDetoxication reactions (protein binding)Tissue sensitivity to the toxicant (adipose tissue, receptors)Barriers that inhibit migration (blood-brain, placental)
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Step 2:Reaction of toxicants with the target molecule
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Step 3: alteration of the regulatory or maintenance function of the cell
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Storage of toxicants
Accumulation of toxicants in specific tissues.Binding to plasma proteins.
Albumin most abundant and common binderStorage in bones.
Heavy metals, like PbStorage in liver.
Blood flow, biotransformationStorage in the kidneys.Storage in fat.
Lipophilic compounds
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Target Organ Toxicity
Adverse effects or disease states manifested in specific organs in the bodyHigh cardiac output = higher exposureOrgans each have specialized tissues and cellsDifferentiated cellular processes and receptorsToxicants and metabolites may have specific reactive pathways
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Target Organ Toxicity
Toxicants do not affect all organs to the same extent
A toxicant may have several sites of action and target organs
Multi-toxicant exposure may target the same organ
The target organ may not be the site for storage
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The main target organs for the systemic toxicity of xenobiotics are:
Skin, mucous membrane
Lungs
Liver, kidney
Bone marrow
Immune system
Nervous system (central & peripheral)
Cardiovascular system
Reproductive system
Muscle and bones
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Why an organ or tissue is sensitive to a particular toxicants?
The toxicants accumulates preferably in this organ/tissue
Inactive pro-toxicants is activated in this organ/ tissue by phase I enzymes in high concentration
The repairing system in the tissue is either less-developed or absent to the toxicant
This tissue has receptors specific to this toxicant receptors on the cell membrane
This tissue has an elevated physiological sensitivity to this toxicant
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Variability of toxic response
Individual-related (subjective)
Living and working environment-related (objective)
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Factors influencing the intensity of toxic response
Age
Gender
Endocrine situation
Nutritional habits
Hereditary, previous disease & therapy
Etc.
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Types of toxic response
LocalOccurring only at the site of exposure of the organisms to the potentially toxic substance (skin, lungs, digestive tracts)
Systemic Revealing itself after distribution of the toxicant via the bloodstream around the affected organism including the target organ or tissue, distinct from the absorption site.
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According to the nature of their adverse effect on the target organs, the toxicants can be divided as: (1)
Irritants
Cause damage to the eyes & mucous membranes, ex: bromine, chlorine, ammonia, etc.
Corrosive substances
Corrode the skin & mucous membranes
Substances that cause toxic pulmonary edema
Chlorine, ammonia, nitrogen oxide
Blockers of mitochondrial respiratory enzymes
Cyanides, salicylic acid, gossypol
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According to the nature of their adverse effect on the target organs, the toxicants can be divided as: (2)
Inhibitors of thiol enzymesHeavy metals
Blockers of Krebs cycle (citrate cycle)fluoroacetates
Emetic substancesApromorphine, zinc, copper sulfate
NeurotoxicantsCardiotoxicants
Selectively damage the heartEx: cardioglucosides, digitoxin, aconitine, etc.
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According to the nature of their adverse effect on the target organs, the toxicants can be divided as: (3)
Hepatotoxic substances
Damage the liver
Carbon tetrachloride, chloroform,etc.
Nefrotoxic substances
Damage the kidneys
Mercury, chlorine, carbon tetrachloride, lead
Substances that damage the bone marrow and blood cells
Nirobenzene, benzene, etc.
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According to the nature of their adverse effect on the target organs, the toxicants can be divided as: (4)
Asphyxiants
Substances that cause a reduction of blood’s ability to bind and transport oxygen
Anticoagulants
Substances that disturb blood coagulation
Dicumarine, heparin, etc.
Hemolytic substances
Mushroom toxicants, phenyl-hydrazine, saponins, etc.
Histamine and antihistaminic compounds
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Based on the character of damage of a cell/ an organism, the toxic effects can be grouped as (1):
Generally toxic
Damage of the organism as a whole
Dystrophic
Causing the aging cells or tissues
Genotoxic
Alteration of the genetic material (DNA, RNA)
Mutagenic
Generation of irreversible changes in the hereditary materials (chromosomes, genes) of an organism
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Based on the character of damage of a cell/ an organism, the toxic effects can be grouped as (2):
Carcinogenic
Genaration of malignant tumors
Gonadotropic
Harming and inhibiting the development of the germ cells
Teratogenic
Evoking disorders in the embryonal development of an organism
Sensibilizating
Making an organism ultrasensitive to this compound, resulting in allergic reactions and diseases
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According to the final result, toxic responses can be grouped as:
Direct injury of cell or tissue
Biochemical damage
Neurotoxicity
Immunotoxicity
Teratogenicity
Genetic toxicity
Carcinogenicity
Endocrine disruption
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Direct injury of cell or tissue
Decomposition of cells (necrosis)An irreversible process consisting of degeneration of the cell, fragmentation of the nucleus, and denaturation of the cellular proteins.
The cell disperses, accumulates liquid and its content flows out.
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Direct injury of cell or tissue
Mechanism:The formation of an intermediate that reacts with definite cell components like structural proteins.
Examples:CN- ion or Pb can interact with the respiratory system of a cell --- leads to the death of a cell
Strong alkalis or acids
Strong oxidizers: ozone (O3), Cl2, Br2, F2 are very harmful to human and microorganisms.
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Direct injury of cell or tissue
Apoptosis – the programmed cell death
Normal process for tissue renewal but it can be evoked by certain substances
Example: trans-resveratrol (in grape wines) and its relatives (glucosides, etc).
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Biochemical damage
Biochemical injury cause:Degeneration of a single cell
Influencing vital function of metabolism such as respiration
The death of organism:Disruption of cell metabolism
Deficiency of several organs
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Neurotoxicity
Compounds that have a toxic effect on the nervous system:
Toxicants of the central nervous system (CNS)
Toxicants of the peripheral nervous system (PNS)
Toxicants of a combined effect
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Neurotoxicity
Many toxic compounds can cause serious brain impairment. Based on the mechanism of their effect, toxicants that have undesirable effect to the brain can be grouped:Neurotoxic compounds:
These compounds can disturb the function of nervous system
Mercury, acrylamide, hexane, CO2, methyl-n-butylketone.
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Neurotoxicity
CNS inhibitor:
Chlorinated hydrocarbons, benzene, aceton, dietyl eter
Psychomimetics:
They can disturb psychical activities
Mescalin, phenylethylamine derivatives, indole derivaties
Compounds that inhibiting the respiration center
Narcotics, hydrocarbons
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Neurotoxicity
Convulsion toxicantsConvulsion in central originOrganophosphorus pesticide
Toxicants, paralyzing transmission of nerve impulses to the muscle
Botulinin
Toxicants, paralyzing transmission of nerve impulses in the nerve
Tetrodotoxin
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Neurotoxicity
Neuroparalytic poisons:anticholinesteratic
Toxicants, acting with mediators or synaptic poisons:
Adrenaline, ephedrine, hydrazines, etc.
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Thank You…