A. What is biopharmaceutical technology studied?
Aims to cultivate students who are proficient in practical bioengineering technologies and proficient in modern biotechnology laboratories and biological products production. Practical talents who are good at workshop management and marketing of biological products. Upon graduation, students will be able to master the basic skills of organic chemistry, analytical chemistry, biochemistry, general biology technology, molecular biology technology, animal and plant tissue and cell culture technology, microbial fermentation technology, biopharmaceutical technology, laboratory safety and management, etc. Biological experimental technology; graduates can engage in biotechnology product research, development, production management, marketing, etc. in enterprises, public institutions, research institutions, colleges and universities, and biotechnology companies.
① Professional courses: College English, inorganic and analytical chemistry, organic chemistry, biochemistry, general biology, microbiology, molecular biology, pharmacy, microbial fermentation technology, pharmacology, genetic engineering technology, immunity Science, pharmaceutical management, plant tissue culture technology, biopharmaceutical technology and cell engineering.
② Experimental courses: inorganic chemistry experiments, general biology experiments, molecular biology experiments, organic chemistry experiments, microbiology experiments, basic analytical chemistry experiments, and biochemistry experiments.
③Internship: Set up internship training content according to the needs of the talent market, mainly including practical marketing of biological products, basic laboratory skills internship, practical internship in scientific research institutes, and graduation internship.
Employment Orientation
Can be engaged in the research and development, production, operation and management of biological drugs, drug testing, Medical engineering design and foreign trade, medical representative, marketing and other work.
B. What kind of jobs can biopharmaceutical technology majors do?
If you are an undergraduate, most of them will go to biotechnology companies to engage in sales, or go to research institutes to do some basic research. A small number of staff will work in the R&D department, public relations department, marketing department, etc. of some biopharmaceutical technology companies or related enterprises.
If you want to engage in scientific research, you may need to study for a master's degree or a Ph.D. before you can work as a senior scientific researcher in some pharmaceutical technology companies.
For junior college students, the ideal option is to work as a technical staff member in a research unit.
C. What is biopharmaceutical technology? What does it include?
Biopharmaceutical technology, as a high-tech technology, was developed in the early 1970s along with DNA recombination. technology and the invention and application of lymphocyte hybridoma technology. Over the past thirty years, the development of biopharmaceutical technology has opened up broad prospects for the development of the medical and pharmaceutical industries and improved people's lives. Therefore, countries around the world have identified biopharmaceuticals as a key technology and emerging industry for the development of science and technology in the 21st century.
Its scope includes: research results in microbiology, biology, medicine, biochemistry, etc., from organisms, biological tissues, cells, organs, body fluids, etc. Comprehensive use of microbiology, chemistry, biochemistry, biotechnology, pharmacy and other disciplines for drug analysis.
(3) Introduction to Biopharmaceutical Technology Major Extended Reading:
Training objectives of Biopharmaceutical Technology:
Aims to cultivate students who are proficient in practical bioengineering technologies and proficient in them. Practical talents who are good at the management of modern biotechnology laboratories and biological products production workshops and the promotion of biological products.
Upon graduation, students will be able to master the basic skills of organic chemistry, analytical chemistry, biochemistry, general biological technology, molecular biology technology, animal and plant tissue and cell culture technology, microbial fermentation technology, and biopharmaceutical technology. , laboratory safety and management and other biological experimental technologies.
Graduates can engage in biotechnology product research, development, production management, marketing and other work in enterprises, public institutions, scientific research institutions, colleges and universities, and biotechnology companies.
Main courses of biopharmaceutical technology:
Professional courses: College English, inorganic and analytical chemistry, organic chemistry, biochemistry, general biology, microbiology, molecular biology, pharmacy, Microbial fermentation technology, pharmacology, genetic engineering technology, immunology, pharmaceutical management, plant tissue culture technology, biopharmaceutical technology and cell engineering.
Experimental courses: inorganic chemistry experiments, general biology experiments, molecular biology experiments, organic chemistry experiments, microbiology experiments, basic analytical chemistry experiments, and biochemistry experiments.
Internship: Set up internship training content according to the needs of the talent market, mainly including practical marketing of biological products, basic laboratory skills internship, practical internship in scientific research institutes, and graduation internship.
Reference materials:
Network-Biopharmaceutical Technology
Network-Biopharmaceutical
D. Introduction to Biopharmaceutical Major
There are many biology-related majors: such as biotechnology, bioengineering, biopharmaceuticals, biochemistry, etc.
In fact, their main courses are quite different, such as cell biology, biochemistry, genetics, anatomy, etc.< /p>
It can be said that national policies on biology are getting closer to international ones, but the development is still far from perfect. If you choose to study biology, you will have to make good preparations for graduate school. I am looking for Jilin University, where I also study biology. I am preparing to go abroad to study medicine. If your English is good, it is still very promising to study abroad.
E. What is the difference between biopharmaceutical technology and pharmacy? What kind of work will you do after graduation?
1. Open The scope is different. Currently, pharmacy and clinical pharmacy are mostly offered in medical colleges or pharmaceutical universities, while biopharmaceuticals are mainly offered in comprehensive universities or pharmaceutical universities.
2. Different subject levels. Pharmacy is a first-level discipline, and biopharmaceuticals and clinical pharmacy are its second-level disciplines, which are branches under this discipline.
3. The content and academic system studied will be different. The pharmacy academic system lasts for 4 years, and you will learn a lot. You will learn both Chinese and Western medicine, but the western medicine hospital will focus on chemistry, various kinds of chemistry, and traditional Chinese medicine. Pharmacology, etc.; Western medicine schools include the four major pharmacology, pharmacy and medicine and medical school regular courses such as department of medicine, physiology, etc., they will also offer more subjects in traditional Chinese medicine, but only for understanding.
Clinical pharmacy lasts 5 years, and the content is similar to pharmacy, but it requires one more year of clinical internship in a hospital; biopharmaceuticals will be more focused on microorganisms and molecular biology, but chemistry is always required.
4. There is also a slight difference in degree. Most schools divide pharmacy and clinical pharmacy into science, and biopharmaceuticals into engineering or science. After graduation, you get a science or engineering degree instead of a medical degree.
Employment direction: Employment after pharmacy is for hospitals, pharmaceutical companies, pharmaceutical factories, pharmacies, *** drug regulatory departments, etc.; biopharmaceuticals are biopharmaceuticals, biochemical companies and pharmaceutical management departments engaged in technical management and production , product development work.
(5) Extended reading for introduction to biopharmaceutical technology major:
Biopharmaceutical technology teaching content: pharmacology, medicinal chemistry, microbiology, drug analysis, human anatomy and physiology, antibiotic technology , Immunology, Introduction to Fermentation Engineering, Biostatistics, Biochemistry, Biopharmaceutical Technology, Pharmacy, Metalworking Internship, Understanding Internship, Curriculum Design, Production Internship, Graduation Internship, Graduation Project, etc., as well as the main characteristic courses and practical links of each school .
Main teaching content of pharmacy: physiology, cell biology, molecular biology, medical immunology, pathophysiology, medical microbiology, inorganic chemistry, organic chemistry, biochemistry, quantitative analysis, instrumental analysis, physical chemistry , basic chemistry experiments, medicinal chemistry, natural medicinal chemistry, pharmaceutics, drug analysis, pharmacology, basic toxicology, spectral analysis of drugs, pharmaceutical management, etc.
F. What are the basic courses for the biopharmaceutical major?
This major cultivates solid basic theories and basic knowledge of biotechnology and pharmacy,
Be proficient in the common experimental procedures of modern biotechnology and pharmaceutical technology, have a preliminary understanding of the production and sales processes of biotechnology pharmaceutical companies, and be able to meet the moral, intellectual and physical requirements of modern biotechnology laboratories and biotechnology pharmaceutical companies. , beautiful and comprehensively developed biological talents.
Main courses: biochemistry, microbiology and immunology, pharmacology, natural medicinal chemistry, fermentation engineering technology, pharmaceutical preparation technology, biopharmaceutical analysis and detection technology, pharmaceutical equipment and separation and purification technology, animal tissue culture and biological products technology, biopharmaceutical technology, and pharmaceutical management.
G. What professional jobs can those who study biopharmaceutical technology engage in in the future?
Biopharmaceuticals: high demand
Salary level: Due to the coverage of medical engineers There are many fields, and the employer's situation and each person's academic qualifications and abilities are different, so the salary of this profession is very flexible. Generally, the monthly salary of college graduates is around 3,000 yuan.
Career prospects: Comprehensive talents who combine biology, medicine and engineering technology have promising prospects. This type of talent needs to have two skills: one is new product research and development, and the other is instrument operation. There is a strong demand for this type of talents in the fields of biomedical engineering, biotechnology, bioinformatics, medical and health departments and other related units. . . . . .
H. What kind of major is biopharmaceutical technology, and what are the employment directions and prospects?
Employment directions: Pharmaceutical, biochemical enterprises and pharmaceutical management departments are engaged in technical management, production, and product development. .
Professional introduction: Biotechnology drugs have been widely used to treat cancer, AIDS, anemia, dysplasia, diabetes, heart failure, hemophilia, cystic fibrosis and some rare genetic diseases. Many large pharmaceutical companies face a large number of expiring patents and very low product inventories, so they have to look to life sciences companies for new drugs. New drug discovery technologies are making it increasingly cheaper, faster and more precise to find drug targets for specific diseases. Our country is the most populous country in the world, but the number of people engaged in research and development in the biotechnology industry is 17,000, and the number of people engaged in production and operation is 9,000, which is only equivalent to 1/4 of the number of people in the U.S. biotechnology industry. There is a serious shortage of talents engaged in the research and development of biomedical products, which has become a bottleneck restricting the development of my country's biomedical industry. Students in this major should master basic theoretical knowledge and professional skills in biochemistry, biochemical separation analysis technology, biotechnology and industrial pharmaceutics, receive basic training in biopharmaceutical research and production technology, and be able to engage in resource development and production of biopharmaceuticals after graduation. Product development, production, technical management, quality control, etc.
I. Employment prospects for biopharmaceutical technology majors
It can be said that the employment prospects for majors in biology are very bleak. I studied this major in 2000. At that time, many people said that this special edition The profession has prerequisite rights. The sunrise majors in the 21st century. The truth is, I haven’t seen it after 4 years, and I still haven’t seen it after 10 years. Those who are doing their job should do their job, those who are fleeing are fleeing, and the only few who insist on staying at their posts should graduate from Ph.D. by now. It is miserable. Those who do well are mostly in sales.