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Pharmacodynamics (PD) is the study of the biochemical and physiologic effects of drugs (especially pharmaceutical drugs). The effects can include those manifested within animals (including humans), microorganisms, or combinations of organisms (for example, infection). Pharmacodynamics and pharmacokinetics are the main branches of pharmacology, being itself a topic of biology interested in the study of the interactions of both endogenous and exogenous chemical substances with living organisms. In particular, pharmacodynamics is the study of how a drug affects an organism, whereas pharmacokinetics is the study of how the organism affects the drug. Both together influence dosing, benefit, and adverse effects. Pharmacodynamics is sometimes abbreviated as PD and pharmacokinetics as PK, especially in combined reference (for example, when speaking of PK/PD models). Pharmacodynamics places particular emphasis on dose–response relationships, that is, the relationships between drug concentration and effect. One dominant example is drug-receptor interactions as modeled by L + R LR where L, R, and LR represent ligand (drug), receptor, and ligand-receptor complex concentrations, respectively. This equation represents a simplified model of reaction dynamics that can be studied mathematically through tools such as free energy maps. There are four principal protein targets with which drugs can interact: Enzymes- (e.g. neostigmine and acetyl cholinesterase) Inhibitors Inducers Activators [Reuptake vs Efflux] (e.g. tricyclic antidepressants and catecholamine uptake-1) Enhancer (RE) Inhibitor (RI) Releaser (RA) Ion channels (e.g. nimodipine and voltage-gated Ca2+ channels) Blocker Opener Receptor (e.g. Listed in table below) Agonists can be full, partial or inverse. Antagonists can be competitive, non-competitive, or uncompetive. Allosteric modulator can have 3 effects within a receptor. One is its capability or incapability to activate a receptor (2 possibilities). The other two are agonist affinity and efficacy.

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