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3D printing technology is accelerating and changing the fields of life science and medicine.
FREMONT, CA: The concept of 3D printing is not new. The innovations and cost reductions of the last few years have reduced the barrier to adoption, which has enabled 3D printing to be more common in research, design, and manufacturing settings. 3D printing technology is hugely versatile, as the deposited materials can be plastics, ceramics, metals, powders, liquids, or living cells. The 3D printing process is accurate, repeatable, scalable, and cost-effective for production runs of highly customized parts. 3D printing for the life science R&D Market can revolutionize the industry. For life sciences companies, 3D printing advances can solve the key challenges of innovation. Know more here.
According to experts, life sciences companies in the future will not sell drugs but chemical inks, applications, and blueprints. Organizations would have to completely revamp their development and manufacturing models and the way they manage customer relationships. Additionally, 3D printing changes how many labs approach the prototyping of new products as conventionally.
Going from the design to the prototype could be an expensive and time-consuming task.
3D printing materials are rapidly becoming the new standard as high resolution, and exact dimensions can be attained with micron precision rapidly and inexpensively, enabling faster development times. Once developed and uploaded to the printer, the actual fabrication time is freed up while the printer does the task. 3D printers can develop tissue holders and slide holders for custom drug discovery projects for use with its high content imager.
Lastly, 3D printing can turn a profit. Many life sciences companies stumble onto ideas for products after addressing their need for something not readily available on the market. As an R&D department solves a problem, it becomes clear that others in the field are facing this same challenge and would pay for an inexpensive and customized solution. Rapid sectioning of tissues will look like a problem with either expensive or low-quality solutions. Therefore, 3D printers will take a few CAD hours for designing, durable, and rapid solutions for the problem.