Sunday 12 May 2013

Role of chemistry in modern life

Chemistry is the science of the composition, structure, properties and
reactions of matter, especially of atomic and molecular systems.
Life itself is full of chemistry; i.e., life is the reflection of a series of
continuous biochemical processes. Right from the composition of the cell to
the whole organism, the presence of chemistry is conspicuous. Human beings
are constructed physically of chemicals, live in a plethora of chemicals and
are dependent on chemicals for their quality of modern life. All living
organisms are composed of numerous organic substances. Evolution of life
begins from one single organic compound called a nucleotide. Nucleotides
join together to form the building blocks of life. Our identities, heredities and
continuation of generations are all governed by chemistry.
In our everyday life, whatever we see, use or consume is the gift of
research in chemistry for thousands of years. In fact, chemistry is appliedeverywhere in modern life. From the colouring of our clothes to the
shapes of our PCs, all are possible due to chemistry. It has played a
major role in pharmaceutical advances, forensic science and modern
agriculture. Diseases and their remedies have also been a part of human
lives. Chemistry plays an important role in understanding diseases and their
remedies, i.e. drugs. The focus of this section is given to the role of
chemistry in modern medicine.
Medicines or drugs that we take for the treatment of various ailments are
chemicals, either organic or inorganic. However, most drugs are organic
molecules. Let us take aspirin as an example. It is probably the most popular
and widely used analgesic drug because of its structural simplicity and low
cost. Aspirin is chemically known as acetyl salicylic acid, an organic
molecule. The precursor of aspirin is salicin, which is found in willow
tree bark. However, aspirin can easily be synthesized from phenol using the
Kolbe reaction (see Section 4.6.10). As we progress through various
chapters of this book, we will come across a series of examples of drugs
and their properties.




Aspirin
Salicin


Paracetamol


Morphine

Penicillin V

In order to have a proper understanding and knowledge of these drugs and
their behaviour, there is no other alternative but to learn chemistry. Everywhere,
from discovery to development, from production and storage to
administration, and from desired actions to adverse effects of drugs,
chemistry is involved directly.
In the drug discovery stage, suitable sources are explored. Sources of
drug molecules can be natural, e.g. narcotic analgesic, morphine, from
Papaver somniferum (Poppy plant), synthetic, e.g. a popular analgesic and
antipyretic, paracetamol, or semi-synthetic, e.g. semi-synthetic penicillins.Whatever the source is, chemistry is involved in all processes in the
discovery phase. For example, if a drug molecule has to be purified from
a natural source, e.g. a plant, processes such as extraction, isolation and
identification are used, and all these processes involve chemistry.
Similarly, in the drug development steps, especially in the pre-formulation
and formulation studies, the structures and the physical properties, e.g.
solubility and pH, of the drug molecules are exploited. Chemistry, particularly
physical properties of drugs, is also important to determine storage
conditions. Drugs having an ester functionality, e.g. aspirin, could be quite
unstable in the presence of moisture, and should be kept in a dry and cool
place. The chemistry of drug molecules dictates the choice of the appropriate
route of administration. When administered, the action of a drug inside
our body depends on its binding to the appropriate receptor, and its
subsequent metabolic processes, all of which involve complex enzymedriven
biochemical reactions.
All drugs are chemicals, and pharmacy is a subject that deals with the
study of various aspects of drugs. Therefore, it is needless to say that to
become a good pharmacist the knowledge of the chemistry of drugs is
essential. Before moving on to the other chapters, let us try to understand
some of the fundamental chemical concepts in relation to the physical
properties of drug molecules.



help from
Chemistry for Pharmacy Students - General, Organic and Natural Product Chemistry



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