1. Absorption (oral or parenteral) A drug must be absorbed and achieve adequate concentration at its site of action in order to produce its biological effects. Thus, when a drug is applied to a body surface (e.g., g.i. tract, skin, etc.), its rate of absorption will determine the time for its maximal concentration in plasma and at the receptor to produce its peak effect
   
2. Distribution The blood, total body water, extracellular, lymphatic and cerebrospinal fluids are involved in drug movement throughout the body. Depending upon its chemical and physical properties, the drug may be bound to plasma proteins or dissolved in body fat, delaying its progress to its sites of action or excretory mechanism.
   
3. Metabolism This is how certain drugs are handled by the body in preparation for their elimination and includes the fate of drugs biotransformation (e.g., hydrolysis, conjugation, oxidation reduction).
   
4. Excretion The kidney is the most important organ for drug excretion but the liver, lung and skin are also involved in drug elimination. Drugs excreted in feces are mostly derived from unabsorbed, orally ingested drugs or from metabolites excreted in the bile and not reabsorbed by the intestine. The physical and chemical properties, especially the degree of ionization of the drug, are important in the rate of excretion.
   
5. Biological Factors Modifying Pharmacokinetic Aspects Normal variations occur in population pharmacokinetic constants (absorption rates, elimination rates). Other factors include age, weight, obesity, edema, concurrent diseases, other drugs (various interactions including effects on protein binding or metabolic rate), diet, dose interval and route of administration, genetic variations in elimination rate.

1. Indications and Therapeutic Uses Emphasis is placed on the therapeutic use of drugs for the treatment of disease in clinical pharmacology, internal medicine and therapeutics. There are specific clinic disorders or disease entities for which a given drug may be prescribed and the physician must weigh the potential benefit of drug use against the risks of adverse effects.
   
2. Contraindications and Factors (e.g., liver disease) May Modify Drug Action where detoxification of the drug by the liver is important. It is important to know that the presence of disease or organ pathology may influence the actions of a drug. Conditions such as age, pregnancy, concomitant administration of other drugs and disease may alter the patient's response to a given drug.
   
3. Posology Is an archaic term describing dosage regimens. Consideration of dosage schedules is a part of pharmacokinetics.
   
4. Bioavailability The fraction of drug administered which is actually absorbed and reaches the systemic circulation following oral dosing. Preparations of the same drug by different manufacturers may have a different bioavailability.
   
5. Prescription writing It is important that the physician write clear, error free directions for the drug provider (pharmacist) and for the patient. Physicians must guard against prescribing too many drugs, or preparations of little value. Drugs of unproven clinical value should be avoided, as well as potentially toxic agents if drugs equally effective but less dangerous are available. Risk benefit and cost benefit should be considered. Drugs may be prescribed by generic name, since often a less expensive drug product can be obtained in this way. A particular manufacturer may be specified if the physician has reason to believe a better or more reliable preparation is available from that manufacturer.
   
6. Drug Nomenclature In addition to its formal chemical name, a new drug is usually assigned a code name by the pharmaceutical manufacturer. If the drug appears promising and the manufacturer wishes to place it on the market, a United States Adopted Name (USAN) is selected by the USAN Council which is sponsored by:

1) The American Medical Association
2) The American Pharmaceutical Association
3) The United States Pharmacopeial Convention

1. Forensic Toxicology Addresses medicolegal aspects of the use of chemicals that are harmful to animals or man. Analytical chemistry and fundamental toxicological principles are hybridized to underlie this aspect of toxicology. Nonetheless accidental poisoning with drugs is a health problem of major significance. More than 1/4 of the fatalities and about 1/2 of all poisonings occur in children under 5 years of age. All common household articles that are poisonous should be made unavailable to children, and poisonous rodenticides and insecticides should not be placed in the home.
   
2. Clinical Toxicology Focuses on toxic events that are caused by or are uniquely associated with drugs or other chemicals.
   
3. Adverse Drug Reactions Toxicities and Side Effects No drug is free of toxic effects. Some untoward effects of drugs are trivial, but others are serious and may be fatal. Side effects often are predictable from a knowledge of the pharmacology of a particular drug. Examples of chemicals or drug induced toxicities are given below:
   

   a. Allergic reactions The number of serious allergic reactions to drugs involving antigen antibody reactions is low but when they occur the physician must have sufficient knowledge to manage these problems.

   b. Blood dyscrasias These are very serious and sometimes fatal complications of drug therapy. They include: agranulocytosis, aplastic anemia, hemolytic anemia, thrombocytopenia and defects in clotting factors.
   
   c. Hepatotoxicity and nephrotoxicity Because many chemicals and drugs are eliminated and metabolized by the liver and kidney, damage to these organs is seen commonly.
   
   d. Teratogenic effects The thalidomide tragedy dramatically emphasized that drugs may adversely influence fetal development.
   
   e. Behavioral toxicity This is a term used to describe suppression of normal anxiety, reduction in motivation, impairment of memory and learning, distortion of judgement, impairment of reflexes, adverse effects on mood, etc.
   
   f. Drug dependence and drug abuse The repeated administration of some chemicals may lead to drug dependence. Drugs likely to be abused and upon which drug dependence may develop are the various psychopharmacological agents such as opiates, barbiturates, amphetamines, nicotine and ethanol. Dependence on tobacco (nicotine) is also well known.
   
   g. Carcinogenesis Carcinogenesis is a delayed type of toxicity with a latency of many years.
   
   h. Pharmacogenetic toxicities Certain genetically predisposed individuals have a markedly toxic reaction to certain otherwise safe drugs. Examples are prolonged apnea after succinylcholine, or malignant hyperthermia associated with anesthetics.