Gene sequencing technology has gone from scientific research to clinical, and has become one of the 12 major subversive technologies that determine the future economy. Gene sequencing is a novel gene detection technology that can separate and determine the complete sequence of genes from body fluids or cells, and predict the possibility of occurrence of various diseases. Such as solid tumors or leukemia.
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Gene sequencing technology has gone from scientific research to clinical, and has become one of the 12 major subversive technologies that determine the future economy. Gene sequencing is a novel gene detection technology that can separate and determine the complete sequence of genes from body fluids or cells, and predict the possibility of occurrence of various diseases. Such as solid tumors or leukemia. Technological advancement and cost reduction have driven gene sequencing technology from the laboratory into the clinic, becoming a hot topic in the global medical community. Gene sequencing is clinically applied to reproductive health, individualized diagnosis and treatment of cancer, genetic diseases, infectious disease diagnosis and treatment, etc., and will be extended to medical research (drug development, etc.) and non-medical fields (scientific research, food, agriculture, aquaculture, etc.).
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The application prospects of gene sequencing are obvious: Bill Gates predicts that "the next richest man in the world will come from the genetic field"; McKinsey pointed out: "The next generation of genomics research will become one of the 12 major disruptive technologies that determine the future economy."
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Gene sequencing technology is developing rapidly
In the 1950s, people began to understand the structure of DNA and laid the foundation for the development of DNA sequencing technology. Decades later, in the 1970s, the first generation of sequencing technology emerged. Around 2000, the second generation of DNA sequencing technology emerged, and DNA sequencing technology received unprecedented attention. The number of patent applications during this period also increased sharply. The third generation of DNA sequencing technology has emerged, and the number of patent applications has reached a second peak.
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Implanted surgical instruments pack
Medical blister is divided into three categories according to the safety of its use: the first category refers to medical devices that are safe and effective enough to be guaranteed through routine management. The second category refers to the medical devices that should be controlled for their safety and effectiveness. The third category is implants to sustain life; Potentially dangerous to the human body, its safety, effectiveness must be strictly controlled medical devices.
Different from ordinary medical device Packaging and production environment requirements
1. Production environment requirements: clean workshop of the same grade;
2. Mold requirements: aluminum alloy mold with high precision is selected for production, copper mold and gypsum mold will produce mold, only aluminum alloy mold is relatively safe mold;
3. Choose environmentally friendly sheet: ensure that the blister packaging will not affect the device after contacting it. General medical device manufacturers will carry out another cleaning and mold process when packaging;
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