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Drug Development

Drug Development. How are drugs discovered and synthesized. Definitions. Drug: Any substance that alters a chemical process in the body Pharmaceutical: A drug that is prescribed for medicinal purposes, such as pain relief, antibiotic or sedative. Drug Discovery.

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Drug Development

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  1. Drug Development How are drugs discovered and synthesized

  2. Definitions Drug: Any substance that alters a chemical process in the body Pharmaceutical: A drug that is prescribed for medicinal purposes, such as pain relief, antibiotic or sedative

  3. Drug Discovery Most pharmaceuticals used today have their origin in nature. A number of common drugs and their natural origins are listed below • Aspirin – Willow • Penicillin – Mould • Codeine – Opium poppies

  4. History of Aspirin

  5. History of Aspirin

  6. History of Aspirin

  7. History of Aspirin

  8. History of Aspirin

  9. History of Aspirin

  10. Production of Aspirin • Aspirin (acetylsalicylic acid) is an ester which can be produced by reacting salicylic acid and ethanoic (acetic) acid.

  11. Production of Aspirin • However the yield for this reaction is low as the water produced can easily hydrolyze the ester back into the alkanol and carboxylic acid.

  12. Production of Aspirin • If we react two ethanoic acid molecules together we can produce a chemical that will react with salicylic acid to produce acetylsalicylic acid, but will not produce water, therefore increasing the yield

  13. Production of Aspirin • The reaction of salicylic acid and ethanoic anhydride is shown below

  14. Aspirin in the body • It has been found that aspirin is converted back into the active ingredient salicylic acid in the body. • Salicylic acid is unpalatable and irritates the stomach, however aspirin is tasteless and causes less irritation.

  15. Derivatives of Aspirin • Chemists look for alterations to a drug to make it more effective, have less side-effects or to bypass patent laws. • Some derivatives of aspirin are shown below

  16. Pathways to drug production

  17. Principles of Green Chemistry 1. Prevention
It is better to prevent waste than to treat or clean up waste after it has been created.

2. Atom Economy
Synthetic methods should be designed to maximize the incorporation of all materials used in the process into the final product.
3. Less Hazardous Chemical SynthesesWherever practicable, synthetic methods should be designed to use and generate substances that possess little or no toxicity to human health and the environment.


  18. Principles of Green Chemistry 4. Designing Safer Chemicals
Chemical products should be designed to effect their desired function while minimizing their toxicity. 5. Safer Solvents and Auxiliaries
The use of auxiliary substances (e.g., solvents, separation agents, etc.) should be made unnecessary wherever possible and innocuous when used.

6. Design for Energy Efficiency
Energy requirements of chemical processes should be recognized for their environmental and economic impacts and should be minimized. If possible, synthetic methods should be conducted at ambient temperature and pressure.



  19. Principles of Green Chemistry 7. Use of Renewable Feedstocks
A raw material or feedstock should be renewable rather than depleting whenever technically and economically practicable.

8. Reduce Derivatives
Unnecessaryderivatization (use of blocking groups, protection/ deprotection, temporary modification of physical/chemical processes) should be minimized or avoided if possible, because such steps require additional reagents and can generate waste. 9. Catalysis
Catalytic reagents (as selective as possible) are superior to stoichiometric reagents.


  20. Principles of Green Chemistry 10. Design for Degradation
Chemical products should be designed so that at the end of their function they break down into innocuous degradation products and do not persist in the environment.

11. Real-time analysis for Pollution Prevention
Analytical methodologies need to be further developed to allow for real-time, in-process monitoring and control prior to the formation of hazardous substances.

12. Inherently Safer Chemistry for Accident Prevention
Substances and the form of a substance used in a chemical process should be chosen to minimize the potential for chemical accidents, including releases, explosions, and fires.

  21. Pathways to drug production

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