User talk:Mfarone

Overview Greiner Bio-One International GmbH is a medical device and biotechnology plasticware manufacturing company that specializes in the manufacturing and sale of products for blood and specimen collection, biotechnology and scientific research, and OEM solutions. The headquarters is located in Kremsmünster, Austria with product sites in Austria, Germany, Hungary, the United States, Brazil, and Thailand with 26 global subsidiaries that employ more than 2,200 employees. Greiner Bio-One International GmbH is a part of the Greiner Group. The company's customers include health care institutions, science researchers, clinical laboratories, the pharmaceutical industry, dentist's offices and Physician's office labs. Greiner Bio-One was the first to manufacture the plastic petri dish (1963) and the first plastic evacuated blood collection tube with safety cap (1985). Greiner Bio-One comprised of 3 divisions which includes: • Preanalytics develops innovative collection systems for human and veterinary blood samples that make the flow of daily routine tasks in hospitals, laboratories or doctors' surgeries simpler and safer. In addition, the unit also provides customized, digital systems solutions (Greiner eHealth Technologies), which furnish greater efficiency and patient safety during the preanalytical process. This business segment focuses on phlebotomy or the process of drawing blood through a venipuncture. • BioScience is technology partner to universities and research organizations, as well as to the diagnostics and pharmaceutical industries. The BioScience division supplies products for the analysis of cell cultures, microplates and DNA array applications. The third business unit is Mediscan, a wholly-owned subsidiary of Greiner Bio-One International, which is also based in Kremsmünster (Austria) and is a supplier of expert services in the sterilization of medical products and food packaging, as well the functional improvement of plastics and semiconductors by means of ionizing radiation.As an Original Equipment Manufacturer (OEM), Greiner Bio-One provides solutions in the area of custom-made design developments and production processes for the life sciences and medical sectors. Company History On September 7th, 1868, Carl Albert and Emilie Greiner founded the Greiner company in Nurtingen, Germany with the manufacturing of stoppers and closures made of cork for the general store they had opened which sold soda water in sealed bottles with handmade cork stoppers. When visiting the World Fair in Paris, Carl Albert bought his first cork cutting machine for the production of corks and would soon provide cork stoppers to other beverage manufacturers. In 1899, Hermann Greiner (second son of Carl Albert) was entrusted with the management and development of the expansion of the cork stopper factory created by Carl Albert in Kremsmunster, Upper Austria. Hermann Greiner started operation with 45 workers on July 1, 1899. By 1911, the cork product portfolio had expanded to include more than 10 products. In 1958 the first injection molded plastic parts were created. In 1963, Greiner Labortechnik was founded introducing the first plastic petri dish. In 1985, the world's first evacuated blood collection system made of plastic was developed. In 1986, Restructuring of the foam production company into a holding company – Greiner Holding AG In 2000, Greiner Bio-One International AG was founded. In 2007, the new corporate identity was presented to standardize the business units Preanalytics and BioScience under the common slogan "Your Power for Health". Furthermore, the new production site in Rainbach, Austria was opened. In 2011, a modern and fully automatic high-bay warehouse with 5,600 pallet spaces, 2,000 m² area and a goods receipt and goods issue area of the same size was built at the headquarters in Kremsmünster. In 2017, the new office building in Kremsmünster, Austria was opened. In 2017, the acquisition over the long-term, exclusive sales partners Vacuette España and Vacuette Portugal took place. Furthermore, Greiner eHealth Technologies was founded. Company Structure Greiner Bio-One is part of Greiner Holding AG with four operating divisions which include Greiner Packaging International, Greiner Bio-One International, Greiner Foam International, and Greiner Extrusion Group. All divisions together operate more than 130 locations for production and sale of products throughout the world. Product Innovations - 1963 Creation of the first plastic petri dish - 1985 Creation of the first evacuated plastic blood tube - 1996 Launch of the VACUETTE® Coagulation Tube with double-wall technology - 2001 Creation of the VACUETTE® Safety Blood Collection Set - 2001 Launch of the MiniCollect® Capillary Blood Collection System - 2017 Creation of the VACUETTE® Pre-Barcoded Tubes - 2017 Acquisition of Magnetic 3D Cell Culture Technology Magnetic 3D Cell Culture In 2018, Greiner Bio-One North America, Inc. acquired 3D Cell Culture Technology previously owned by Nano 3D Biosciences, Inc. The 3D cell culture technology uses magnetic levitation to form spheroids for research use. 3D cell culture by the magnetic levitation method (MLM) is the application of growing 3D tissue by inducing cells treated with magnetic nanoparticle assemblies in spatially varying magnetic fields using neodymium magnetic drivers and promoting cell to cell interactions by levitating the cells up to the air/liquid interface of a standard petri dish. The magnetic nanoparticle assemblies consist of magnetic iron oxide nanoparticles, gold nanoparticles, and the polymer polylysine. 3D cell culturing is scalable, with the capability for culturing 500 cells to millions of cells or from single dish to high-throughput low volume systems. Once magnetized cultures are generated, they can also be used as the building block material, or the "ink", for the magnetic 3D bioprinting process.[1] 3D Cell Culture in Space Cell cultures in space spontaneously grow in three dimensions (3D), which results in characteristics more representative of how cells grow and function in living organisms. But in microgravity, routine manipulation of cell cultures is challenging. Magnetic 3D Cell Culture for Biological Research in Microgravity (Magnetic 3D Cell Culturing) uses magnetized cells and tools to make it easier to handle cells and cultures, and to improve the reproducibility of experiments. This approach also makes it possible to generate two-dimensional (2D) cultures as controls, and to determine whether biological events in these monolayer cultures result from gravity or substrate attachment. [2]

Your submission at Articles for creation: Vacuette blood collection tubes (August 22)
 Your recent article submission to Articles for Creation has been reviewed! Unfortunately, it has not been accepted at this time. The reason left by DGG was:

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 DGG ( talk ) 10:37, 22 August 2018 (UTC)

Your draft article, Draft:Vacuette blood collection tubes


Hello, Mfarone. It has been over six months since you last edited the Articles for Creation submission or Draft page you started, "Vacuette blood collection tubes".

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Thanks for your submission to Wikipedia, and happy editing.  CASSIOPEIA(talk) 06:27, 22 May 2019 (UTC)