Pharmacology is the branch of biology concerned with the study of drug action, where a drug can be broadly defined as any man-made, natural, or endogenous molecule which exerts a biochemical or physiological effect on the cell, organ, or organism. More it is the study of the interactions that occur between a living organism and chemicals that affect normal or abnormal biochemical function. If substances have medicinal properties, they are considered pharmaceuticals; the field encompasses drug composition and properties and drug design and cellular mechanisms, organ/systems mechanisms, signal transduction/cellular communication, molecular diagnostics, toxicology, chemical biology and medical applications and antipathogenic capabilities. The two main areas of pharmacology are pharmacokinetics. Pharmacodynamics studies the effects of a drug on biological systems, Pharmacokinetics studies the effects of biological systems on a drug. In broad terms, pharmacodynamics discusses the chemicals with biological receptors, pharmacokinetics discusses the absorption, distribution and excretion of chemicals from the biological systems.
Pharmacology is not synonymous with pharmacy and the two terms are confused. Pharmacology, a biomedical science, deals with the research and characterization of chemicals which show biological effects and the elucidation of cellular and organismal function in relation to these chemicals. In contrast, pharmacy, a health services profession, is concerned with application of the principles learned from pharmacology in its clinical settings. In either field, the primary contrast between the two are their distinctions between direct-patient care, for pharmacy practice, the science-oriented research field, driven by pharmacology; the origins of clinical pharmacology date back to the Middle Ages in Avicenna's The Canon of Medicine, Peter of Spain's Commentary on Isaac, John of St Amand's Commentary on the Antedotary of Nicholas. Clinical pharmacology owes much of its foundation to the work of William Withering. Pharmacology as a scientific discipline did not further advance until the mid-19th century amid the great biomedical resurgence of that period.
Before the second half of the nineteenth century, the remarkable potency and specificity of the actions of drugs such as morphine and digitalis were explained vaguely and with reference to extraordinary chemical powers and affinities to certain organs or tissues. The first pharmacology department was set up by Rudolf Buchheim in 1847, in recognition of the need to understand how therapeutic drugs and poisons produced their effects. Early pharmacologists focused on natural substances plant extracts. Pharmacology developed in the 19th century as a biomedical science that applied the principles of scientific experimentation to therapeutic contexts. Today pharmacologists use genetics, molecular biology and other advanced tools to transform information about molecular mechanisms and targets into therapies directed against disease, defects or pathogens, create methods for preventative care and personalized medicine; the word "pharmacology" is derived from Greek φάρμακον, pharmakon, "drug, spell" and -λογία, -logia "study of", "knowledge of".
The discipline of pharmacology can be divided into many sub disciplines each with a specific focus. Clinical pharmacology is the basic science of pharmacology with an added focus on the application of pharmacological principles and methods in the medical clinic and towards patient care and outcomes. Neuropharmacology is the study of the effects of medication on central and peripheral nervous system functioning. Psychopharmacology known as behavioral pharmacology, is the study of the effects of medication on the psyche, observing changed behaviors of the body and mind, how molecular events are manifest in a measurable behavioral form. Psychopharmacology is an interdisciplinary field which studies behavioral effects of psychoactive drugs, it incorporates approaches and techniques from neuropharmacology, animal behavior and behavioral neuroscience, is interested in the behavioral and neurobiological mechanisms of action of psychoactive drugs. Another goal of behavioral pharmacology is to develop animal behavioral models to screen chemical compounds with therapeutic potentials.
People in this field use small animals to study psychotherapeutic drugs such as antipsychotics and anxiolytics, drugs of abuse such as nicotine and methamphetamine. Ethopharmacology is a term, in use since the 1960s and derives from the Greek word ἦθος ethos meaning character and "pharmacology" the study of drug actions and mechanism. Cardiovascular pharmacology is the study of the effects of drugs on the entire cardiovascular system, including the heart and blood vessels. Pharmacogenetics is clinical testing of genetic variation that gives rise to differing response to drugs. Pharmacogenomics is the application of genomic technologies to drug discovery and further characterization of older drugs. Pharmacoepidemiology is the study of the effects of drugs in large numbers of people. Safety pharmacology specialises in detecting and investigating potential undesirable pharmacodynamic effects of new chemical entities on physiological functions in relation to exposure in the therapeutic range and above.
Systems pharmacology is
Water is a transparent, tasteless and nearly colorless chemical substance, the main constituent of Earth's streams and oceans, the fluids of most living organisms. It is vital for all known forms of life though it provides no calories or organic nutrients, its chemical formula is H2O, meaning that each of its molecules contains one oxygen and two hydrogen atoms, connected by covalent bonds. Water is the name of the liquid state of H2O at standard ambient pressure, it forms precipitation in the form of rain and aerosols in the form of fog. Clouds are formed from suspended droplets of its solid state; when finely divided, crystalline ice may precipitate in the form of snow. The gaseous state of water is water vapor. Water moves continually through the water cycle of evaporation, condensation and runoff reaching the sea. Water covers 71% of the Earth's surface in seas and oceans. Small portions of water occur as groundwater, in the glaciers and the ice caps of Antarctica and Greenland, in the air as vapor and precipitation.
Water plays an important role in the world economy. 70% of the freshwater used by humans goes to agriculture. Fishing in salt and fresh water bodies is a major source of food for many parts of the world. Much of long-distance trade of commodities and manufactured products is transported by boats through seas, rivers and canals. Large quantities of water and steam are used for cooling and heating, in industry and homes. Water is an excellent solvent for a wide variety of chemical substances. Water is central to many sports and other forms of entertainment, such as swimming, pleasure boating, boat racing, sport fishing, diving; the word water comes from Old English wæter, from Proto-Germanic *watar, from Proto-Indo-European *wod-or, suffixed form of root *wed-. Cognate, through the Indo-European root, with Greek ύδωρ, Russian вода́, Irish uisce, Albanian ujë; the identification of water as a substance Water is a polar inorganic compound, at room temperature a tasteless and odorless liquid, nearly colorless with a hint of blue.
This simplest hydrogen chalcogenide is by far the most studied chemical compound and is described as the "universal solvent" for its ability to dissolve many substances. This allows it to be the "solvent of life", it is the only common substance to exist as a solid and gas in normal terrestrial conditions. Water is a liquid at the pressures that are most adequate for life. At a standard pressure of 1 atm, water is a liquid between 0 and 100 °C. Increasing the pressure lowers the melting point, about −5 °C at 600 atm and −22 °C at 2100 atm; this effect is relevant, for example, to ice skating, to the buried lakes of Antarctica, to the movement of glaciers. Increasing the pressure has a more dramatic effect on the boiling point, about 374 °C at 220 atm; this effect is important in, among other things, deep-sea hydrothermal vents and geysers, pressure cooking, steam engine design. At the top of Mount Everest, where the atmospheric pressure is about 0.34 atm, water boils at 68 °C. At low pressures, water cannot exist in the liquid state and passes directly from solid to gas by sublimation—a phenomenon exploited in the freeze drying of food.
At high pressures, the liquid and gas states are no longer distinguishable, a state called supercritical steam. Water differs from most liquids in that it becomes less dense as it freezes; the maximum density of water in its liquid form is 1,000 kg/m3. The density of ice is 917 kg/m3. Thus, water expands 9% in volume as it freezes, which accounts for the fact that ice floats on liquid water; the details of the exact chemical nature of liquid water are not well understood. Pure water is described as tasteless and odorless, although humans have specific sensors that can feel the presence of water in their mouths, frogs are known to be able to smell it. However, water from ordinary sources has many dissolved substances, that may give it varying tastes and odors. Humans and other animals have developed senses that enable them to evaluate the potability of water by avoiding water, too salty or putrid; the apparent color of natural bodies of water is determined more by dissolved and suspended solids, or by reflection of the sky, than by water itself.
Light in the visible electromagnetic spectrum can traverse a couple meters of pure water without significant absorption, so that it looks transparent and colorless. Thus aquatic plants and other photosynthetic organisms can live in water up to hundreds of meters deep, because sunlight can reach them. Water vapour is invisible as a gas. Through a thickness of 10 meters or more, the intrinsic color of water is visibly turquoise, as its absorption spectrum has
Food and Drug Administration
The Food and Drug Administration is a federal agency of the United States Department of Health and Human Services, one of the United States federal executive departments. The FDA is responsible for protecting and promoting public health through the control and supervision of food safety, tobacco products, dietary supplements and over-the-counter pharmaceutical drugs, biopharmaceuticals, blood transfusions, medical devices, electromagnetic radiation emitting devices, animal foods & feed and veterinary products; as of 2017, 3/4th of the FDA budget is paid by people who consume pharmaceutical products, due to the Prescription Drug User Fee Act. The FDA was empowered by the United States Congress to enforce the Federal Food and Cosmetic Act, which serves as the primary focus for the Agency; these include regulating lasers, cellular phones and control of disease on products ranging from certain household pets to sperm donation for assisted reproduction. The FDA is led by the Commissioner of Food and Drugs, appointed by the President with the advice and consent of the Senate.
The Commissioner reports to the Secretary of Human Services. Scott Gottlieb, M. D. is the current commissioner, who took over in May 2017. The FDA has its headquarters in Maryland; the agency has 223 field offices and 13 laboratories located throughout the 50 states, the United States Virgin Islands, Puerto Rico. In 2008, the FDA began to post employees to foreign countries, including China, Costa Rica, Chile and the United Kingdom. In recent years, the agency began undertaking a large-scale effort to consolidate its 25 operations in the Washington metropolitan area, moving from its main headquarters in Rockville and several fragmented office buildings to the former site of the Naval Ordnance Laboratory in the White Oak area of Silver Spring, Maryland; the site was renamed from the White Oak Naval Surface Warfare Center to the Federal Research Center at White Oak. The first building, the Life Sciences Laboratory, was dedicated and opened with 104 employees on the campus in December 2003. Only one original building from the naval facility was kept.
All other buildings are new construction. The project is slated to be completed by 2021, assuming future Congressional funding While most of the Centers are located in the Washington, D. C. area as part of the Headquarters divisions, two offices – the Office of Regulatory Affairs and the Office of Criminal Investigations – are field offices with a workforce spread across the country. The Office of Regulatory Affairs is considered the "eyes and ears" of the agency, conducting the vast majority of the FDA's work in the field. Consumer Safety Officers, more called Investigators, are the individuals who inspect production and warehousing facilities, investigate complaints, illnesses, or outbreaks, review documentation in the case of medical devices, biological products, other items where it may be difficult to conduct a physical examination or take a physical sample of the product; the Office of Regulatory Affairs is divided into five regions, which are further divided into 20 districts. Districts are based on the geographic divisions of the federal court system.
Each district comprises a main district office and a number of Resident Posts, which are FDA remote offices that serve a particular geographic area. ORA includes the Agency's network of regulatory laboratories, which analyze any physical samples taken. Though samples are food-related, some laboratories are equipped to analyze drugs and radiation-emitting devices; the Office of Criminal Investigations was established in 1991 to investigate criminal cases. Unlike ORA Investigators, OCI Special Agents are armed, don't focus on technical aspects of the regulated industries. OCI agents pursue and develop cases where individuals and companies have committed criminal actions, such as fraudulent claims, or knowingly and willfully shipping known adulterated goods in interstate commerce. In many cases, OCI pursues cases involving Title 18 violations, in addition to prohibited acts as defined in Chapter III of the FD&C Act. OCI Special Agents come from other criminal investigations backgrounds, work with the Federal Bureau of Investigation, Assistant Attorney General, Interpol.
OCI receives cases from a variety of sources—including ORA, local agencies, the FBI—and works with ORA Investigators to help develop the technical and science-based aspects of a case. OCI is a smaller branch; the FDA works with other federal agencies, including the Department of Agriculture, Drug Enforcement Administration and Border Protection, Consumer Product Safety Commission. Local and state government agencies work with the FDA to provide regulatory inspections and enforcement action; the FDA regulates more than US$2.4 trillion worth of consumer goods, about 25% of consumer expenditures in the United States. This includes $466 billion in food sales, $275 billion in drugs, $60 billion in cosmetics and $18 billion in vitamin supplements. Much of these expenditures are for goods imported into the United States; the FDA's federal budget request for fiscal year 2012 totaled $4.36 billion, while the proposed 2014 budget is $4.7 billion. About $2 billion of this budget is generated by user fees.
Pharmaceutical firms pay th