Major players in the 3d bioprinting market are Organovo Holdings Inc. , Allevi Inc. , Cellink, Aspect Biosystems Ltd. , 3D Systems Corporation, Cyfuse Biomedical KK, Envisiontec Inc. , Poietis, TeVido BioDevices, Nano3D Biosciences Inc.
New York, Oct. 25, 2021 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "3D Bioprinting Global Market Report 2021: COVID-19 Implications And Growth" - https://www.reportlinker.com/p06177522/?utm_source=GNW
, Digilab Inc., RegenHU, GeSIM GmbH, Advanced Solutions Life Sciences LLC, Regenovo Biotechnology Co. Ltd., Regemat 3D S.L., Bio3D Technologies, Stratasys Ltd, ROKIT Healthcare, Inventia Life Science PTY LTD, Vivax Bio LLC, GE Healthcare, and 3D Biotek.
The global 3D bioprinting market is expected to grow from $771.41 million in 2020 to $933.91 million in 2021 at a compound annual growth rate (CAGR) of 21.1%. The change in growth trend is mainly due to the companies stabilizing their output after catering to the demand that grew exponentially during the COVID-19 pandemic in 2020. The market is expected to reach $1,899.37 million in 2025 at a CAGR of 19.4%.
The 3D bioprinting market consists of sales of 3D bioprinting products by entities (organizations, sole traders, and partnerships) that are engaged in manufacturing and utilizing 3D printing to produce biomedical parts that imitate natural tissue characteristics. 3D Bioprinting is a type of additive manufacturing that prints live structures layer by layer, mimicking the behavior of actual living systems, using cells and other biocompatible materials like inks, also known as bio-inks. 3D bioprinting materials are mainly used in connection with drug research and most recently as cell scaffolds to help repair damaged ligaments and joints.
The main types of components in 3D bioprinting are 3D bioprinters and bio-inks. 3D bioprinters use three-dimensional technology in combination with biocompatible materials to replicate body parts. It is used for bioprinting of tissue, bone, organs, blood vessels tissue, and biomedical parts. The different types of materials include living cells, hydrogels, extracellular matrices, and others. 3D bioprinting is used in research applications, clinical applications, others and implemented in several verticals such as research organizations and academic institutes, biopharmaceuticals companies, hospitals, others.
North America was the largest region in the 3D bioprinting market in 2020.The Asia Pacific is expected to be the fastest-growing region in the forecast period.
The regions covered in this report are Asia-Pacific, Western Europe, Eastern Europe, North America, South America, Middle East, and Africa.
Artificial intelligence (AI) is increasingly being used in 3D bioprinting to fabricate bio-tissues in a layer-to-layer fashion from a digital 3D model using a combination of cells, growth factors, and biomaterials.Artificial intelligence is a branch of technology that deals with the simulation of human behavior in machines.
AI is used in bioprinting to give suggestions on the best possible printing parameters needed to produce a biocompatible tissue that can fit the patient’s physiological makeup, by analyzing data and identifying patterns throughout the bioprinting process.For instance, in June 2021, researchers at Queensland University of Technology’s (QUT) Center in Transformative Biomimetics in Bioengineering, and Oregon University, integrated AI and machine vision into 3D printers to manufacture customized medical implants.
In addition to this, in September 2020, Researchers at Rice University used AI to speed up the development of 3D printed bioscaffolds that help injuries heal.
In May 2021, 3D Systems, a US-based company engaged in offering 3D bioprinting technology announced the acquisition of Allevi Inc. for an undisclosed amount. Through this acquisition, 3D Systems plans to utilize Allevi’s expertise to develop applications in the future for the development of human organs in the long term and become a market leader in bioprinting. Allevi Inc. is a US-based company that manufactures 3D bioprinters and bio-inks which are used by researchers.
Rising governments and private funding to support 3D bioprinting research activities are expected to drive the growth of the 3D bioprinting market in the forecast period. 3D bioprinting is increasing applications in healthcare attracted funding from government and private organizations. This funding provides financial and technical assistance across different development phases of 3D bioprinting techniques. For instance, in May 2021, Readily3d SA, a Switzerland-based bioprinting company, received funding of $600,000 from the European Union to develop a living miniature model of the pancreas using its Tomolite 3D bioprinting technique. The Australian Minister for Health funded Curtin University $737,690 in June 2020 to develop and optimize 3D technology for bioprinting skin tissue directly onto model wounds as a prelude to human skin restoration. Furthermore, in January 2020, Aspect Biosystems, a Canada-based 3D bioprinting technology company received a $20 million funding in Series A financing round to advance its technology for 3D bioprinting human tissue which was led by venture capital firm Radical Ventures, Pangaea Ventures, Pallasite Ventures, and Rhino Ventures. Thus, increasing the availability of funding will boost the 3D bioprinting market.
The countries covered in the 3d bioprinting market report are Australia, Brazil, China, France, Germany, India, Indonesia, Japan, Russia, South Korea, UK, USA.
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