In the face of "Internet +", it is more convenient for people to seek medical advice. Patients can get medical information and doctor information through the medical website, and then communicate with doctors online and ask about the illness; patients can also make appointments through mobile app or online service platform. Registering and paying fees saves a lot of waiting time. With the advent of medical mobile apps, we can also buy over-the-counter drugs like “selling out†without having to find a pharmacy.
The promotion of “Internet +†will have a profound impact on many aspects of medical traditional treatment, diagnosis, treatment, hospitalization, etc., and the whole industry of health and health will also face structural and reshaping. The internal information system of the original hospital's self-contained system, with the gradual opening of medical resources, forced it to adapt to the trend and further develop towards an "open, standard" system structure, and personalized medicine and precision medicine are becoming more mature. It also makes IT a powerful “hands-on†system that supports the operation of hospitals and gradually becomes a powerful tool for promoting medical quality and improving medical standards.
Whether it is a new Internet health care service, or the realization of medical data sharing, building a unified health information platform requires a high-performance, robust, flexible, efficient and concise IT infrastructure. From this perspective, the changes brought about by "Internet + medical" will inevitably involve new IT changes.
In China, medical informatization actually started earlier. For example, 301 Hospital began to informatize in the 1970s and 1980s. In the early medical industry , closed IT architectures such as minicomputers were often adopted. Over time, minicomputer systems of different brands and different architectures formed individual information islands, which brought difficulties for management, data integration and sharing.
With the advent of "Internet +" and the rise of new technologies such as cloud computing, big data, mobile, social, and Internet of Things, more and more companies are choosing x86 platforms. x86 is open, flexible, cost-effective, and more The characteristics of the extensive ecosystem are not only the emerging Internet companies almost all choose the x86 platform, but more and more traditional industries, such as finance, telecommunications, government, manufacturing, etc., have opened the road to x86 migration from closed architecture.
The x86 platform is also ideal for medical informatization. In terms of reliability, the x86 architecture already has RAS features that are not lost to minicomputers. For example, the Intel Xeon processor E7 v4 product family integrates more than 70 reliability, availability, and serviceability (RAS) features, making the x86 platform fully reliable for critical business needs.
Low content monomer plant extract, main content 1%-50%. Including but not limited to Pu-erh tea extract 40%, rhodiola rosea extract 1%, 3%, pueraria root extract 30%, 40%, celery extract 5%, salvia miltiorrhiza extract 5%, 10%, burdock seed extract, salicin 5%, aloe vera extract, gynost' pentaphyllum extract 20%, green tea extract, ginseng extract, chlorogenic acid extract.
Plant extraction process
1. Select plants/herbs. No more than ancient prescriptions, prescriptions, folk herbs to find. At present, common and uncommon herbs have been studied. At present, it is mostly to increase the amount of medicinal materials to extract and separate components with low content, or to find medicinal plants that have never been studied from miao medicine, Tibetan medicine, Mongolian medicine, Africa, Latin America and other places.
2. The extraction. Solvent petroleum ether, n-hexane, cyclohexane, benzene, chloroform, ethyl acetate, n-butanol, acetone, ethanol, methanol, water (low polarity → high polarity). Daily medicine decoction effective, water and ethanol and other solvents with large polarity, such as artemisinin boiling ineffective extraction with petroleum ether and other solvents with small polarity. Common medicinal materials water/alcohol/ether to go through, separation and identification of more compounds.
3. The separation. This is the most important work. In the solution extracted from the second step, there are dozens of compounds, usually by column chromatography, which is often referred to as the column flushing. It's a lot of work, it's boring, it's low tech. A master's student might do this every day for two years. The column for separating compounds, as shown below, is as large as 2 meters high and as small as 10 centimeters. Change the solvent condition of mobile phase, change the material of column, different conditions and different separation principles of column repeatedly punching, can be separated from the monomer compound.
Low Content Monomer,Rhodiola Rosea Extract,Kudzu Root Extract,Herbal Extract Apigenin
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