Pharmacology Biochemical

Pharmacology Biochemistry is a branch of pharmacology that studies the biochemical processes underlying the effects of drugs on the body. This discipline studies how drugs interact with biochemical processes in cells and tissues to achieve the desired therapeutic effect.

One of the key concepts of biochemistry is metabolism. Metabolism is the process in which the body converts nutrients into energy and building blocks for growth and development. Medicines can affect metabolism in a variety of ways. For example, some medications can stimulate or inhibit certain enzymes that are involved in metabolism.

Drugs can also change the concentration of certain molecules in body tissues and fluids. For example, antibiotics can reduce the level of bacteria in the blood, which can lead to lower levels of toxins.

Biochemistry also helps to understand how drugs act on different tissues and organs. For example, medications used to treat cardiovascular disease can act on the myocardium, causing blood vessels to dilate and improve blood flow.

Finally, biochemistry helps determine which medications will be most effective and safe for a particular patient. For example, a doctor may prescribe a medication that will be most effective in lowering the blood cholesterol levels of a patient with high cholesterol.

In general, pharmacology Biochemistry plays an important role in the development of new drugs and in understanding the mechanisms of action of existing drugs. This helps doctors and pharmacologists create more effective and safe drugs, and provides a better understanding of how the body works and how it responds to drugs.

Title: "Pharmacology - biochemistry. Introduction to this science and its significance for medicine"

Introduction

Pharmacology-biochemistry is an important branch of pharmacology that studies the biological processes in living organisms that underlie drug therapy. This discipline is vital for finding new drugs, understanding the mechanisms of action of existing drugs, and improving the effectiveness and safety of drug therapy in general. In this article we will look at the basics of biochemistry and its relationship with pharmacology, as well as their practical significance for modern medicine.

Basic principles of pharmacology-biochemistry

The basic principle of pharmacology-biochemistry is the understanding of biological processes and their influence on the course of diseases. Today, this area of ​​science helps to study the effects of drugs on living organisms and explain the mechanisms of their interaction with diseases. The main objectives of this science include the analysis of the chemical composition of molecules, their structure, structure, interaction, metabolism and effects on cells, tissues and organs. This knowledge is used to create new and improve existing drugs, facilitating the diagnosis and treatment of diseases.

Pharmaceutical Research and Science Organization

Another important aspect of pharmacology-bichemistry is the collection of genetic and biological data, the search for effective methods for the production of drugs and the combination of active substances to create compositions. Modern research is carried out in large research centers, where specialists participate in multi-stage projects aimed at developing innovative and more effective drugs. New generations of drugs are developed thanks to a knowledge base accumulated over centuries of research, including fundamental and applied work in chemistry, biology and medicine.

Modern advances in the field of pharmacology and biochemistry have given a powerful impetus to the discovery and development of new classes of drugs