Environmental impact of medications Essential idea The synthesis, isolation, and administration of medications can have an effect on the environment.

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Presentation transcript:

Environmental impact of medications Essential idea The synthesis, isolation, and administration of medications can have an effect on the environment.

Green chemistry What do you think are the basics of green or sustainable chemistry?

Green chemistry: an approach Considering the atom economy in the manufacturing process – making the processes as effective as possible by maximizing raw materials. Reducing the amount of waste or avoiding waste all together. Reduce amount of hazardous waste e.g. use of radioisotopes for instance in diagnostic medicine by using alternatives such as dyes. Safe disposal of waste. Using solvents safely in the manufacture or extraction. Considering implications to human health of the synthesis and extraction processes. Reducing the impact of the pharmaceutical industry on the environment.

Solvents (1) The synthesis and extraction of drugs often involves the use of solvents, as they can provide a medium in which the synthesis occurs or they are used to extract the product. (e.g. using solubility), that need to be disposed off at the end of the synthesis or extraction.

Solvents (2) Issues with the use of solvents concern: Health issues of the solvent itself to the workers e.g. is the solvent carcinogenic or toxic? Safety issue with the synthesis or extraction process in which the solvent is used e.g. solvent can be explosive or could form toxic by-products as a result of the process. Environmental impact of solvent use e.g. emissions in the air and water e.g. chlorinated solvents. Some solvents are flammable Contribute to greenhouse effect

Solvents (3) Possible solutions to green use of solvents: Modify the synthesis or extraction so less solvent is used. Use an alternative safer solvent or one with zero environmental impact. Reuse and recycle solvents.

Antibiotic waste (1) Many bacteria have become antibiotic resistant as a result of the misuse of most available antibacterials not just penicillins. Many antibiotics are now less or even no longer effective. Antibiotic resistant bacteria have genes that carry this resistant characteristic and pass on these resistant genes. Misuse of antibacterials promotes the spread of antibiotic resistance is it increases exposure of the bacteria to antibiotics.

Antibiotic waste (2) The following practices also increase exposure: The use of broad-spectrum antibacterials (effective against a wide range of bacteria but overall less effective against any particular species) has also provided opportunities for bacteria to genetically mutate and allow resistant bacteria to reproduce. The improper disposal of antibiotics by patients and pharmaceutical companies also allows antibiotics to enter the environment and into the food chain again providing opportunities to develop genetic resistance.

Nuclear waste Nuclear chemistry is used often in the diagnosis and treatment of diseases and this approach often produces hazardous radioactive waste that needs to be disposed off.

High level nuclear waste High-level waste Amount of radiation Emit large amounts of ionizing radiation/ high activity High environmental impact TimeRadioactive for a long time and release heat Half lifeLong half life ExamplesRadioisotopes such as Co-60 that have been used for diagnosis. These isotopes remain radioactive for a longer time; also the decay products might also still be radioactive. Some radioisotopes are also toxic. DisposalHigh-level waste is stored under water for a long time until radiation levels have decreased substantially and then it is sealed in heavy steel containers and then buried underground in granite rock or in deep mines.

Low-level nuclear waste Low-level waste Amount of radiation Small amounts of ionizing radiation emitted/low activity Low environmental impact TimeRadioactive for a short time Half lifeShort half life ExamplesContaminated clothing, materials such as gloves, coats, paper, tools, towels, syringes, injection needles which have become radioactive because they have been exposed to radiation in activities such as sterilizing equipment in hospitals, radiotherapy, … DisposalLow levels waste is initially stored in sealed containers until the radiation has decreased sufficiently and then compacted and placed in landfills or released in the sewage system.

Green chemistry in the development of Tamiflu Shikimic acid or shikimate is the precursor in the production of Tamiflu and is found in low concentrations in a variety of plants. Its extraction from plants is a long chemical process with low yields. Alternative and more effective sources and processes have been developed: Shikimate can also be produced by fermenting genetically engineered bacteria; process has a much higher yield and less waste. Extraction of shikimate acid from different natural sources such as pine trees that have a greater concentration so less raw material needs to be used. Less expensive extraction of shikimate from suspension cultures of the Indian sweetgum tree.