Applied Biotechnology

With the continuous development of science and technology, the field of microorganisms provides huge potential for human health and quality of life, and also provides abundant business opportunities for enterprises. Strong Biotech has actively invested in the strategic planning of microbial applications and has gained rich experience and achievements in the fields of preventive medicine and agricultural biotechnology .

蔬果種植

Vegetable and Fruit Cultivation

Microorganisms play various crucial roles in agricultural biotechnology, including contributing to the health of soil ecosystems, promoting plant growth, reducing diseases and pests, and improving crop quality. Microorganisms can be a component of biofertilizers, providing nutrients to plants and protecting against pathogens. Additionally, microorganisms can be used for biological pest control to minimize the dependence on chemical pesticides.

Strong Biotech Bio-stimulant products are suitable for the cultivation of various economic plants. When plants encounter adverse conditions, these products trigger biochemical defense systems to identify disturbances, resisting diseases or damage from stress. They can enhance plant metabolism, improve nutrient absorption, and strengthen resistance to adverse conditions. These products help plants build resilience, control pests, and enhance root development and growth, ultimately leading to increased yield and quality.

Animal Husbandry

The application of biotechnology can optimize livestock and poultry breeds, enhancing their growth rate and disease resistance, and improving the quality of meat and dairy products. It also involves improving feed composition to increase nutritional value and reduce environmental impact. Animal disease testing enables monitoring of animal health, early detection of diseases, and increases the efficiency of husbandry. The application of biotechnology in animal husbandry introduces more effective management methods, promotes sustainable development, and ensures animal welfare and food safety. Global large-scale breeding farms are reducing the use of antibiotics through technology and professional methods. Enhancing animal immunity is key to successful husbandry.

Polysaccharide-alcohol probiotics are suitable for various economic livestock animals. Using probiotics helps optimize the gut microbiota, enhances the animal’s innate immune regulation, improves digestion and absorption, reduces medication usage, and makes animal husbandry more economical and safe, enhancing management efficiency and increasing yield and quality.”

https://www.strongbiotech.com/wp-content/uploads/2023/12/shutterstock_657381517.jpg
https://www.strongbiotech.com/wp-content/uploads/2023/12/shutterstock_657381517.jpg

Animal Husbandry

The application of biotechnology can optimize livestock and poultry breeds, enhancing their growth rate and disease resistance, and improving the quality of meat and dairy products. It also involves improving feed composition to increase nutritional value and reduce environmental impact. Animal disease testing enables monitoring of animal health, early detection of diseases, and increases the efficiency of husbandry. The application of biotechnology in animal husbandry introduces more effective management methods, promotes sustainable development, and ensures animal welfare and food safety. Global large-scale breeding farms are reducing the use of antibiotics through technology and professional methods. Enhancing animal immunity is key to successful husbandry.

Polysaccharide-alcohol probiotics are suitable for various economic livestock animals. Using probiotics helps optimize the gut microbiota, enhances the animal’s innate immune regulation, improves digestion and absorption, reduces medication usage, and makes animal husbandry more economical and safe, enhancing management efficiency and increasing yield and quality.”

DNAphoto2

Genetic Testing

Microorganisms play a key role in genetic testing, supporting genomics research and clinical diagnosis through DNA synthesis, amplification, and sequencing. This can be applied to identify the DNA of pathogens, assisting in the rapid and accurate diagnosis of infectious diseases. Advances in microbial technology have made genetic testing more sensitive and efficient, contributing to the realization of personalized medicine, and providing a precise and reliable basis for treatment and prevention.

Microfluidic Technology

Microfluidic technology utilizes tiny channels and microstructures to control the flow of fluids at the micrometer scale. It is extensively used in the fields of biology, chemistry, and medicine to perform micro-sample manipulation, efficient mixing, and biochemical reactions. This revolutionary technology not only enhances experimental efficiency but also promotes innovation in areas such as microbiology, diagnostics, and pharmaceutical development, paving the way for numerous possibilities in miniaturization and automation.

微流體技術-2
微流體技術-2

Animal Husbandry

Microfluidic technology utilizes tiny channels and microstructures to control the flow of fluids at the micrometer scale. It is extensively used in the fields of biology, chemistry, and medicine to perform micro-sample manipulation, efficient mixing, and biochemical reactions. This revolutionary technology not only enhances experimental efficiency but also promotes innovation in areas such as microbiology, diagnostics, and pharmaceutical development, paving the way for numerous possibilities in miniaturization and automation.

生殖醫學-2

Reproductive Medicine

Microorganisms in reproductive medicine relate to the microecological balance of the reproductive tract, which is crucial for fertility and reproductive health. Microbiological research can help us understand the impact of the reproductive tract’s microecosystem, such as its effects on pregnancy and infertility. Utilizing Strong Biotech diagnostic techniques and probiotic health care can aid in the rapid identification of issues during the fertility process.

Diagnostic Reagents

Microorganisms play a key role in the development of diagnostic reagents, especially in the areas of disease, environmental pollution, and food safety. Diagnostic reagents can rapidly detect pathogens or contaminants. Through the specific reactions of microorganisms, microbial DNA or proteins in samples can be detected quickly and accurately, enhancing the sensitivity and efficiency of tests. These reagents provide reliable tools for public health protection and environmental monitoring.

檢驗試劑_HAG01
檢驗試劑_HAG01

Diagnostic Reagents

Microorganisms play a key role in the development of diagnostic reagents, especially in the areas of disease, environmental pollution, and food safety. Diagnostic reagents can rapidly detect pathogens or contaminants. Through the specific reactions of microorganisms, microbial DNA or proteins in samples can be detected quickly and accurately, enhancing the sensitivity and efficiency of tests. These reagents provide reliable tools for public health protection and environmental monitoring.

益生菌保健-2

Probiotic Health

Probiotics, as beneficial intestinal microorganisms, have a positive impact on digestive health and immune function. Strong Biotech selects and develops probiotics to promote the balance of intestinal microecology. These microorganisms help maintain the diversity of the gut flora, increase the proportion of beneficial bacteria, and inhibit the growth of harmful bacteria. Probiotics can enhance nutrient absorption, reduce digestive discomfort, and strengthen the immune system, helping to prevent diseases.

Microorganisms are of great importance in multiple aspects of agriculture, medicine, scientific research, and health fields, and there is a close interrelation between them. Through these interactions, more innovations and applications to improve the quality of life will be realized.