Medical Enzymes Will Become a New Bright Spot in the International Pharmaceutical Market

With the advent of more and more new enzyme preparations, medical enzymes will become a new bright spot in the international pharmaceutical market. There are only a few varieties of domestic medical enzymes such as multi-enzyme tablets. Enzyme is a general term for important protein and biochemical substances. Enzymes exist in plants and animals.

As early as more than 100 years ago, Western scientists have isolated trypsin with physiological effects from animal digestive tract fluids. This substance can break down various proteins into amino acids in test tubes. Because of its extensive participation in various physiological activities, enzymes have become more and more widely used in medicine. Due to the small demand for industrial enzymes, the fermentation method for industrial production of enzymes, namely the fermentation method, did not come out until the 1950s.

Although there are at least thousands of enzymes discovered by scientists at present, there are only dozens of enzymes that are actually put into industrial production, and some enzymes are directly extracted from plants or prepared by bioengineering technology. Enzyme is an ecological and efficient catalyst, and has a strong specificity that one enzyme can only catalyze and transform one substance. At present, the global total production of industrial enzymes has exceeded 1 million tons, and China’s annual production of enzymes accounts for about 1/3 of the world’s total output.

It is estimated that in 2007, the total global market sales of enzymes reached 5 billion to 6 billion US dollars. The most important uses of enzymes are concentrated in the food industry. In addition, they are also widely used in the pharmaceutical industry, feed and other industries. In terms of consumption, the food industry consumes about two-thirds of the world’s total enzyme production, and the total consumption of enzymes in other industries accounts for the remaining one-third.

It plays an important role in the production of β-lactam antibiotics. The application of enzymes in the pharmaceutical industry began in the early 1980s. With the advent of cephalosporin β-lactam antibiotics, the serious environmental pollution caused during the production of cephalosporin products is worrying. At that time, British and Dutch scientists first reformed the chemical lysis method that has been used for many years into a clean and efficient “enzymatic lysis”-the enzyme used was penicillin lyase and cephalosporin lyase, thereby eliminating the production of semi-synthetic penicillin or cephalosporin Environmental pollution caused by bacteriocin products. These two enzymes can be used to prepare a series of semi-synthetic penicillins such as ampicillin and amoxicillin and other key raw materials for cephalosporins. With the implementation of the enzymatic cracking process, antibiotic production has entered a brand new “enzymatic production era”.

In recent years, some newly developed therapeutic enzyme preparations abroad such as antibacterial enzymes, fibrinolytic enzymes, mucolytic enzymes, analgesic enzymes, antitumor enzymes, immune activator enzymes, etc. In addition, Western researchers have also found that protease preparations compatible use with existing antibiotics such as ampicillin, tetracycline, SMP-CO and fluoroquinolones can greatly improve the antimicrobial effect of these drugs and reduce the drug resistance of bacteria.

According to reports, some hospitals have combined enzyme preparations with antibiotic preparations to achieve good results in the treatment of refractory urinary tract infections. These new clinical uses have laid a solid foundation for the medical market for enzyme preparations. Medical enzyme preparations have become a new breed of therapeutic agents. With the advent of more and more new enzyme preparations, medical enzymes such as diagnostic enzymes will become a new bright spot in the international pharmaceutical market. The enzymes produced now are mainly concentrated in the food industry, accounting for about 96% of the domestic enzyme production value, and there are very few varieties for treatment. At present, there are only a few varieties such as multi-enzyme tablets and lumbrokinase. It is believed that, driven by the new trend of international drug use, domestic development of new medical enzyme production will have broad market prospects.

Semiconductor Stepper Systems Market Driven By Increasing Usage Of Memory And Logic IC’s In Computer

Steppers are devices that are used for manufacturing integrated circuits (IC’s) which are similar in operation to slide projectors or photographic enlargers. Steppers comprise of an essential part in photolithography, (also known as optical lithography or UV lithography is used for micro-fabricating pattern of a thin film) which creates huge amounts of microscopic circuit elements on the surface of minute chips of silicon. Such chips comprise of the heart of the IC’s such as memory chips, and computer processors among others.

The market for semiconductor stepper systems is expected to witness a steady albeit a slow growth during the forecast period. Change in wafer sizes due to the reduction in the size of electronic devices is the major factor aiding in the growth of this market at present. Other key driving the semiconductor stepper systems market are inclusive of increasing usage of memory and logic IC’s which are widely used in computers, laptops, memory devices, storage and mobile devices and the rising markets for flip chips and advanced packaging.

Further, due to the reduction in node sizes, the semiconductor stepping systems market is witnessing the advent of semiconductor technologies which in turn, has affected the overall lithography process. Double patterning technique is a type of high resolution technique that increases the litho cost per function, thereby resulting in the increase of the overall cost of patterning. Thus, the increasing cost of litho functions is another key factor augmenting the growth of the overall semiconductor stepper systems market across the globe.

The market has been classified on the basis of application into Micro-Electro-Mechanical Systems (MEMS), LED Devices and Advanced Packaging. The MEMS market was the largest market for semiconductor stepping devices and is expected to retain market dominance throughout the forecast period. MEMS find wide use across automotive, consumer electronics, medical, and defense segments among others for a variety of applications. Additionally, shifting preference towards vehicle automation such as in-car infotainment systems, navigation system and anti-lock braking systems (ABS) is fuelling the demand for MEMS sensors in the automotive industry, thereby fuelling the demand for semiconductor stepper systems market in this segment.

The global semiconductor stepper systems market has been bifurcated on the basis of regions into North America, Europe, Asia Pacific, Middle East and Africa and Latin America. Asia Pacific is was and will remain the market leader for semiconductor stepper systems throughout the forecast period with the key contributors being Japan, Taiwan and South Korea. Further, large presence of semiconductor foundries in China and Taiwan among others, such the Semiconductor Manufacturing International in China and Taiwan Semiconductor Manufacturing and United Microelectronics in Taiwan is also expected to stimulate the growth of the market during the forecast period of 2016 to 2024.

The global semiconductor stepper systems market is a consolidated market and only a handful number of players are controlling majority of the market at present. Since the semiconductor industry is prone to frequent technological changes, the manufacturers operating in this industry are engaged in extensive research and development activities in order to adopt new technologies and upgrade their systems. Further, frequent mergers and acquisitions, joint venture and partnerships, geographical expansion are some of the other key strategies adopted by these leading players to sustain in this market and to have a competitive advantage over their peers. Major players operating in the global semiconductor stepping systems market include Canon, Nikon, and ASML Holding among others. However companies like Leica Microsystems, SUSS Microtech, JEOL, Optical Associates and ZEISS also have a significant presence in the market. However, owing to significant growth potential of this market, several local players are trying to increase their presence and compete with the major players.

Superoxide Dismutase (SOD) Industry Has Good Market Prospects and Huge Investment Potential

Superoxide dismutase (SOD) is a biological enzyme that protects the body from oxidative damage and has significant protective effects on the body. It is widely distributed in animals, plants and microorganisms. SOD has the ability to scavenge superoxide free O2-in the body, and can better resist the toxicity of oxygen free radicals and other oxide free radicals on the plasma membrane of the cell and maintain the normal physiological metabolism of the cell. Therefore, SOD is widely used in the pharmaceutical, food and cosmetic industries.

1) Pharmaceutical industry: In clinical applications, SOD is mainly focused on inflammation, autoimmune diseases, especially rheumatoid arthritis, emphysema, lupus erythematosus, oxygen poisoning and senile cataract, aging and various skin diseases. However, the medical field has high requirements for the safety of SOD. Therefore, Cu and Zn-SOD extracted from plants are gradually adopted due to their good safety and low production cost. Plants contain SOD resources, only corn has a large yield.

2) Food industry: SOD can be used as a health food’s efficacy factor, food nutrition fortifier, compound food raw materials, antioxidants, anti-oxidant fresheners, etc. At present, the International Schistosomiasis Organization has banned the extraction of SOD from blood as raw materials for medical and health products.

3) Cosmetics industry: SOD is the only active industrial enzyme recognized by the international scientific community that can eliminate harmful free radicals produced by the human body during metabolism. It is one of the substances approved by the International Ministry of Health with anti-aging, immune regulation, anti-radiation and beauty functions .

According to the “2017-2020 SOD Industry Market In-depth Investigation and Investment Strategy Research Report” released by the Industry Research Center, in recent years, with the development of the pharmaceutical, food, cosmetics industry and technological progress, The scale of the dismutase SOD market continues to expand.

Market development prospects

Superoxide dismutase is quite delicate and has three characteristics: “difficult to extract, difficult to preserve, and difficult to absorb”. These three major problems have also plagued the world for nearly 40 years. Up to now, SOD is still a high-level, sophisticated and sophisticated biological science topic. The SOD extraction process is extremely complicated and the output is extremely limited, so related products are extremely rare and expensive.

In the upper classes of society of Europe and the United States, SOD health products have become synonymous with top luxury products with excellent efficacy, scarce production and expensive prices, and are favored by high-end user groups. In the United States, SOD, as an important raw material, has great market potential in the fields of medicine, food, and cosmetics, and has a good future development prospect.

Investment potential

Superoxide dismutase is internationally recognized as the “scavenger”, “anti-aging king” and “beauty beauty” of human waste. It is the most powerful substance against active oxygen free radicals. The research and development represents the forefront of the development of high-tech technology in biomedicine, occupying an important international position in scientific and technological achievements and academic fields.

The superoxide dismutase industry in some developing countries is still weak. Take China as an example. In recent years, China has continuously promoted the research of superoxide dismutase and promoted the industrialization of products. However, China’s current industrialization capacity is still limited, the scale of enterprises is generally small, and the domestic market is occupied by foreign companies. The major Chinese companies include Siping Huake Biotechnology Co., Ltd., Zhejiang Maikang Biological Engineering Co., Ltd., and Liaoning Weilin Biotechnology Development Co., Ltd.