dc.description.abstract |
Introduction: Worldwide, over 350 million patients have benefited from approved medicines
manufactured through biotechnology. Currently, over 650 new biological medicines and vaccines are be
developed to treat more than 100 diseases. Biologics are not new, development of human growth
hormone, insulin, and red-blood cell stimulating agents occurred decades ago, but the targets have
increased exponentially with new genetic information and new understanding of subcellular cascades
and disease processes. Scientific fields used in developing biologics include genomics and proteomics,
as well as microarray, cell culture, and monoclonal antibody technologies. The aim of the study is
analysing of biological medicines technology process from organotherapy to new current practice of
biotherapeutic products. Materials and methods: Has been conducted a descriptive cross-sectional study
of different technological manufacturing methods during time of some biological medicines. Discussion
results: Biotherapeutics, turned over, human conception about medicine possibilities since they opened
new ways of diseases treatment, that recently have considered to be completely incurable. Patients with
such terrible diagnosis like cancer, diabetes, multiple sclerosis, chronic kidney disease stage renal failure
and others were able to fully recover or significantly improve the quality of life and increase its duration.
First generation of biotherapeutics, were products of animals or vegetable origin, for example, bovine
insulin, streptokinase, and others. Medicines, such insulin, thyroid hormone, testosterone, estrogen,
pancreatin, heparin, have been originally obtained by extraction of animal organs. Since 1922, it has
made considerable progress due to the discovery of new hormones produced in pure phase. Then came
the products of human origin - growth hormone, antihemophilic factor VIII. The first biotech drug
became recombinant human insulin, released on the pharmaceutical market in 1982. Scientific fields
used in developing biologics include genomics and proteomics, as well as microarray, cell culture, and
monoclonal antibody technologies. Increasing knowledge of genetics and cell processes leads to
potential new biologic (and drug) targets at each step in the protein-production process. Today, under
the biotherapeutic medicines, in international practice (for example, according to European Medicines
Agency,) refers to immunobiological drugs produced by genetic engineering. In particular, for their
production is used DNA recombinant technology, the method of controlled expression of other genes.
Today there are more than 200 biotech drugs, thousands of new drugs are being studied in clinical trials
and about 300 of them are in the final stages of research. About half of all medications developed in the
world - biotech drugs. As the exclusive rights for these biological medicines (biotherpaeutics) expire,
similar biological medicines, or “biosimilars”, are being developed, with some already available on
European markets. The manufacturing process of biotech drugs, is very complex. To create a protein
that will be used as an active ingredient in the biotechnological preparation is uses a unique line of living
cells. The production process involves more than 5,000 critical stages, and for the preparation of quality
control is used more than 2000 tests. In the production of biosimilar, practically is impossible to
reproduce all the complex technology of production of the active substance, that is why it is necessary
to conduct integrated quality control process. Conclusion: Biotechnological drugs - it's unique products,
which significantly expanded the possibilities of modern medicine. Today, when the expire a number of
patents of original biotech drugs will appear inevitably biosimilar, what will increase the availability of
biotech drugs to the population. |
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