Pharmaceutics Collection (page 5)

Assorted pills, artwork C013 / 7804
Assorted pills, computer artwork

Assorted pills, artwork C013 / 7806
Assorted pills, computer artwork

Assorted pills, artwork C013 / 7805
Assorted pills, computer artwork

Bexarotene chemotherapy drug molecule C013 / 7785
Bexarotene chemotherapy drug molecule. Computer model showing the structure of a molecule of the antineoplastic drug bexarotene (C24H28O2)

Bexarotene chemotherapy drug molecule C013 / 7784
Bexarotene chemotherapy drug molecule. Computer model showing the structure of a molecule of the antineoplastic drug bexarotene (C24H28O2)

Pharmaceutical laboratory C013 / 7234
Pharmaceutical laboratory. Scientist working in a pharmacy lab

Pharmaceutical laboratory C013 / 7233
Pharmaceutical laboratory. Scientist working in a pharmacy lab

Prescriptions awaiting collection C013 / 6063
Prescriptions awaiting collection. Alphabetical shelving system for prescriptions at a pharmacy awaiting collection

Prescriptions awaiting collection C013 / 6064
Prescriptions awaiting collection. Alphabetical shelving system for prescriptions at a pharmacy awaiting collection

Histone deacetylase and inhibitor C014 / 0136
Histone deacetylase and inhibitor. Molecular model of a histone deacetylase inhibitor (HDI) molecule (left) and a histone deacetylase 2(HDAC2) molecule (right)

Histone deacetylase and inhibitor C014 / 0134
Histone deacetylase and inhibitor. Molecular model of a histone deacetylase inhibitor (HDI) molecule (bottom left) bound to a histone deacetylase 2(HDAC2) molecule (white shape)

Histone deacetylase 2 inhibitor molecule C014 / 0130
Histone deacetylase 2 inhibitor, molecular model. This molecule inhibits the action of the enzyme histone deacetylase, which modifies complexes of protein and DNA (deoxyribonucleic acid)

Gene therapy, conceptual image C013 / 4716
Gene therapy, conceptual image. Computer artwork of DNA (deoxyribonucleic acid) molecules inside pill capsules, representing treatments to repair abnormally functioning genes

Gene therapy, conceptual image C013 / 4717
Gene therapy, conceptual image. Computer artwork of a DNA (deoxyribonucleic acid) molecule inside a pill capsule, representing treatments to repair abnormally functioning genes

Gene therapy, conceptual image C013 / 4690
Gene therapy, conceptual image. Computer artwork of DNA (deoxyribonucleic acid) molecules inside pill capsules, representing treatments to repair abnormally functioning genes

Pharmaceutical industry. Workers on a production line for injectable drugs and vaccines. This is the FEREIN pharmaceutical company. Photographed in 2005, in Moscow, Russia

Red blood cells and molecules, artwork
Red blood cells and drug molecules, computer artwork. Red blood cells (erythrocytes) are responsible for supplying tissues with oxygen and are the most abundant type of cell in the blood

Pharmacy sign, Soho, London, UK

Brain drug

Whooping cough antibiotic research

Technician monitoring suppository drug production
MODEL RELEASED. Drug production. Male pharmaceutical technician in protective clothing monitors a suppository production line. He is viewing the process through glass from a clean room

Pharmaceutical worker putting on a protective suit
MODEL RELEASED. Pharmaceutical suit. Male technician putting on a protective bubble suit before entering the production facility of a pharmaceutical company

Technician working in a drug production factory
MODEL RELEASED. Drug production. View of a male technician in protective clothing monitoring the drug production process. He is monitoring the process through an inspection port in the pharmaceutical

Technicians at vats in drug production factory

Pharmaceutical technician in clean room clothing
MODEL RELEASED. Clean room technician. The face of a pharmaceutical technician in the protective clothing required to work in a clean room. The clothing covers all areas of the body except the eyes

Fermenting vat used in pharmaceutics research
MODEL RELEASED: Pharmaceutics research. A technician adding a solution to a fermenting vat used in pharmaceutics research. The vat seen here has a capacity of 100 litres

Pharmaceutical worker in isolation suit shower
Precautionary shower for drug worker. An operator leaving a pharmaceutics isolation room washes the exterior of his isolation suit. Isolation rooms are highly-sterile clean rooms

Pharmaceutics production: autoclaving injectables
Model Released. Sterile production of injectable drugs: technician opening an autoclave oven prior to removing a sterilised load during the preparation of injectable drugs & medicines

Production line packaging of drug inhalers
Model Released. Pharmaceutics production: operator monitoring the packaging of aerosol drug inhalers on a high-speed line

Protected heart, conceptual artwork
Protected heart, conceptual computer artwork. The metal cage around the heart could represent protection of the heart against heart disease or further heart failure, by drugs such as ACE inhibitors

Artwork showing sleeping drug action with face
Action of sleeping drugs. Artwork of the face of a sleeping woman cut away to show a magnified image of sleeping drugs acting on nerve cells (neurones, upper left & right) in her brain

Artwork showing action of sleeping drugs
Sleeping drug action. Artwork showing the action of various sleeping drugs on a nerve cell. The cell membrane (pink) is shown, along with associated proteins (orange)

Woman taking painkiller. Woman with an ibuprofen time-release capsule between her teeth. Ibuprofen is a painkilling (analgesic) and anti-inflammatory drug

Hydroponic cultivation of sage plants
MODEL RELEASED. Hydroponic sage cultivation. Medical researcher checking the electrical conductivity, temperature and nutrient levels of the water supplies for sage plants being grown hydroponically

Computer enhanced coloured LM of lipsomes
Liposomes. Computer enhanced coloured light micrograph of liposomes. A liposome is an artificial vesicle made from phospholipids which can have many uses in biology

Biofactory, conceptual artwork
Biofactory, conceptual computer artwork. Cartoon of a factory producing molecules on a conveyor belt. This may represent the use of bacteria to mass-produce molecules for disease prevention

Levitra drug molecule
Levitra. Molecular model of the drug vardenafil, marketed under the brand Levitra. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver), nitrogen (blue)

Aspirin drug molecule
Aspirin. Molecular model of the drug aspirin (acetylsalicylic acid). Atoms are represented as spheres and are colour coded: carbon (blue), oxygen (red) and hydrogen (grey)

Cialis drug molecule
Cialis. Molecular model of the drug tadalafil, marketed under the brand Cialis. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (grey), nitrogen (blue), oxygen (red)

Fluoxetine drug molecule
Fluoxetine. Molecular model of the drug fluoxetine, which is marketed under the brand Prozac. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver)

Viagra drug molecule
Viagra. Molecular model of the drug sildenafil citrate, marketed under the brands Viagra and Revatio. Atoms are represented as spheres and are colour-coded: carbon (black), hydrogen (silver)

Dabigatran etexilate drug molecule. This anticoagulant drug has the molecular formula C34.H41.N7.O5. The atoms (rods) are colour-coded: carbon (purple), hydrogen (white), nitrogen (pink)

Ciprofloxacin crystals, light micrograph
Ciprofloxacin crystals. Fluorescence light micrograph of crystals of the broad-spectrum antibiotic drug ciprofloxacin. Magnification: x120 when printed 10 centimetres wide

Loperamide diarrhoea drug crystal, SEM
Loperamide diarrhoea drug crystal, coloured scanning electron micrograph (SEM). This drug is used to treat acute diarrhoea and to control some forms of chronic diarrhoea

Molecule of vitamin B12, artwork
Artwork of a molecule of vitamin B12 (chemical formula C63.H89.Co.N14.O14.P). Vitamin B12 is an essential nutrient found in meat, fish, poultry and diary products

Molecule of nicotine, artwork
Artwork of a burning molecule of nicotine to depict the addictive alkaloid drug found in tobacco. The chemical formula is C10.H14.N2

Digitalis plant, 18th century
Digitalis plant. 18th-century artwork of the Digitalis plant that was used to treat heart problems, and from which digitalin drugs are obtained. This artwork is from a herbarium dating from 1757

Penicillium fungus growing on agar
Close-up of a colony of Penicillium chrysogenum fungus growing on agar in a petri dish. This fungus produces the antibiotic penicillin G, seen as small yellow droplets on the surface

All Professionally Made to Order for Quick Shipping

Pharmaceutics, the art and science of creating life-saving medications, is a fascinating field that encompasses various aspects of chemistry, biology, and medicine. From the intricate insulin molecule to satirical artwork depicting medical prescriptions, pharmaceutics combines creativity with scientific precision. In the realm of diabetes treatment, Januvia's diabetes drug molecule stands as a beacon of hope for millions worldwide. Similarly, Praziquantel parasite drug fights against harmful parasites plaguing vulnerable populations. The two forms of thalidomide remind us of the importance of thorough testing and regulation in pharmaceutical development. While one form caused tragic birth defects in the past, its other variant has found utility in treating certain conditions today. Isotretinoin anti-acne drug offers relief to those struggling with persistent skin issues. Its molecular structure represents years of research aimed at combating acne effectively. Mescaline hallucinogenic drug molecule delves into another facet where pharmaceutics intersects with human perception and consciousness exploration. This compound holds cultural significance for some communities due to its mind-altering properties. Valdecoxib anti-inflammatory drug provides solace to individuals battling chronic pain by reducing inflammation within their bodies. Paclitaxel drug molecule showcases advancements in cancer treatment through targeted therapies that attack malignant cells directly. Stepping back into history reveals an old pharmacy adorned with reproductions from ancient laboratories—a testament to how far we've come since Nicholas Culpeper's time. Culpeper himself was an English physician who contributed significantly to herbal medicine practices during his era. Through these diverse examples, pharmaceutics emerges as a dynamic discipline that continually strives towards improving global health outcomes while honoring our rich medicinal heritage.