Fundamentals of Pharmacology for Paramedics. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

Автор: Группа авторов
Издательство: John Wiley & Sons Limited
Серия:
Жанр произведения: Медицина
Год издания: 0
isbn: 9781119724322
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hundreds of specific signalling chemicals to carry out their own signalling function and this provides an opportunity to use drugs to mimic or block the effects that those endogenous signalling chemicals would produce. By employing drugs with chemical structures similar to those of endogenous chemicals, we gain an opportunity to ‘operate the levers’ of the human machine. Not surprisingly, therefore, the vast majority of the drugs used act by altering the function of one of these key pieces of signalling and transport machinery:

       Receptors

       Enzymes

       Ion channels

       Transport molecules

      Drugs used as therapeutic agents act by manipulating physiological mechanisms, which reinforces the importance of having an understanding of human physiological responses as the basis for understanding pharmacology. Without a sound knowledge and understanding of how physiological systems respond, it is impossible to make sense of how drugs will interact with those systems.

      Drugs such as non‐steroidal anti‐inflammatory drugs (NSAIDs), the prototype of which is aspirin, act by inhibiting the enzyme cyclo‐oxygenase, which is responsible for speeding up the reaction producing a range of important signalling molecules known as prostaglandins. It is the reduced level of prostaglandins as a result of blockade of cyclo‐oxygenase that produces the range of effects associated with NSAIDs. Another example of a widely used class of drugs which act by blocking an enzyme is the statin class, including atorvastatin and fluvastatin. These drugs lower cholesterol levels by inhibiting the enzyme HMG‐CoA reductase, responsible for the production of cholesterol in living cells.

      Ion channels represent the only means for ions to cross cell membranes, and all cells contain multiple species of ion channel in their membranes. These channels can be gated in a number of ways, and drugs which can bind to specific channels can alter cellular activity profoundly by altering the passage of ions across the membrane, thereby altering the cell’s membrane potential. Most drugs that act in this way block ion channels rather than open them.

      The local anaesthetic lidocaine, for example, acts by binding to and inhibiting voltage‐gated sodium channels in neuronal cell membranes, preventing the generation of action potentials by the affected neurons. Sensory neurons detecting touch, pressure and pain stimuli therefore become less responsive to those stimuli, resulting in anaesthesia.

      The large, complex proteins responsible for active transport of substances across cell membranes represent another valuable drug target for manipulation of physiological function.

Schematic illustration of benzodiazepines act by binding to a chloride channel.