Industry trends and global forecasts, 2023-2035

Dublin, January 21, 2023 /PRNewswire/ — Added the 4D Bioprinting Market by Technology Type, Application, End-Users, and Key Geographic Regions: Industry Trends and Global Forecasts, 2023-2035 report. of ResearchAndMarkets.com Recruitment.

The concept of 3D printing is one of the biggest revolutions in the world. Various industry players and academics have launched several initiatives to further develop/improve this technology for various applications. One such application area is 3D bioprinting, which involves printing living cells, enabling the development of highly complex tissues that mimic the structure and performance of desired organs within the body.

3D bioprinting prints exact replicas of major human organs, but the printed 3D objects are inert and static in nature, unable to change shape when exposed to environmental changes. can not. 4D bioprinting makes this possible. 4D bioprinting refers to the incorporation of a fourth dimension that allows these structures to change shape over time.

Additional elements of bioprinting technology that enable the fourth dimension include the application of smart materials that tend to deform in the presence of stimuli (heat, water, light, electricity, magnetic energy, stress, strain, etc.). will be pressure). In addition to their ability to transform, 4D printed structures have the ability to self-heal and adapt to various environmental changes.

However, this technology currently has some challenges. These include printing existing stimulus-responsive materials and optimizing them with bioinks. Assembling and folding the 4D-printed structural deformations is also very difficult.

With the continuous advancement of 4D biofabrication technology, several players are actively adopting and developing 4D bioprinters and smart biomaterials. It’s worth emphasizing that 4D bioprinting has received a lot of attention from academics and industry insiders. In fact, the amount of relevant scientific literature has grown by about 130% over the past five years, indicating the growing popularity of 4D bioprinting.

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Moreover, looking at the wide range of applications related to 4D bioprinting, such as tissue engineering, regenerative medicine, and pharmaceutical-related applications, there are many startups emerging in this field as well. Given the increasing stakeholder interest in technological advances and his growing adoption of 4D bioprinting for the above applications, the overall market for 4D bioprinting is expected to experience significant growth in the coming years. will be

Among other elements, the report contains:

• An executive summary of the key insights gained during the research. It provides a high-level view of the potential evolution of the 4D bioprinting market in the short, medium and long term.

• An overview of 4D bioprinting and its working principles. A detailed look at the various stimulus-responsive materials (including physical and chemical stimuli) used in 4D bioprinting. Additionally, this chapter includes details of various techniques used in 4D bioprinting, including stereolithography, selective laser sintering, fused filament modeling, jet 3D printing, direct ink writing, and selective laser melting. is included. The chapter concludes with a discussion of applications, associated limitations, and factors leading to projected growth over the next few years.

• A detailed assessment of the current market situation for 4D bioprinters. Development status (commercial and in development), type of biomaterial (natural, polymeric, synthetic, ceramic, etc./undisclosed), type of technology (extrusion-based technology, polymer-based technology, laser-based technology, microvalve technology, electronic lighting, fused filament manufacturing, vector technology, etc./not disclosed), types of stimuli used (heat, light, moisture, etc./not disclosed), product specifications (remote access, software and services), application areas (tissue engineering and regeneration) medical, wound healing, electronics, drug discovery and development, orthopedics, etc.), end users (academic, pharmaceutical, biotech companies). In addition to this, this chapter provides information about the developers of 4D bioprinters, along with year of foundation, size of company (number of employees), location of headquarters (North America, Europe, Asia Pacific and other regions).

• An in-depth assessment of the current market status of smart biomaterials. It features information on development status (commercial and in development), biomaterial type (polymer, metal, natural, etc./private), and biomaterial morphology (sheet, liquid, gel). , fibers, versatility, etc./undisclosed), types of stimuli used (heat, electric fields, magnetic fields, moisture, enzymes/chemicals, etc./undisclosed), fields of application (tissue engineering and regenerative medicine, wound healing, drugs) base applications, orthopedics, etc.). In addition to this, this chapter provides information about smart biomaterial developers, along with year of establishment, size of company (number of employees), location of headquarters (North America, Europe, Asia Pacific and other regions).

• A benchmark analysis of different players involved in the development of 4D bioprinters and smart biomaterials. Emphasizes the player’s ability in terms of expertise on products in development or in development. This analysis allows companies to compare their existing capabilities within and outside their peer group and identify opportunities to gain a competitive edge in their industry.

• A detailed competitive analysis of 4D bioprinters. Consider several relevant parameters such as product strength (commercial situation, type of biomaterial, type of technology used, type of stimulation used, number of specifications, etc.) and product diversity (including applications) To do. area and end user).

• The table summarizes the profiles of key players involved in the development of 4D bioprinters and smart biomaterials. Each profile includes a brief company overview, financial information (where available), product portfolio details, recent developments, and an informed future outlook.

• A detailed analysis of various publications on 4D bioprinting. It is based on several relevant parameters such as year of publication, type of article, emerging focus areas, popular publishers (in terms of number of publications), and popular journals (in terms of publication). number of publications), journal impact factor, popular journals (in terms of journal impact factor), and popular funding institutions (in terms of number of publications). We also highlight timeline analysis (by article type and journal impact factor) and publication benchmarks to get a more insightful view of recent trends relevant to research and development in this field.

• Under the insightful Porter’s Five Forces framework, we explore five competitive forces, including the threat of new entrants, the bargaining power of buyers, the bargaining power of suppliers, the threat of substitute products, and competition among incumbents. Qualitative analysis.

This report contains detailed transcripts of interviews with:

• Suhridh Sundaram (Chief Operating Officer, Abbay Biosciences)

• Prethem Srinath (Doctoral candidate, CURAM)

• Sam Onukri (Independent Consultant, USA)

Frequently Asked Questions

• What is 4D bioprinting?

• How does 4D bioprinting work?

• What are the advantages of 4D bioprinting?

• Who are the key developers of 4D bioprinters and smart biomaterials?

• Where is the hub for 4D bioprinters and smart biomaterial developers?

• What is the relative competitiveness of various 4D bioprinters and smart biomaterial developers?

• What is the relative competitiveness of different 4D bioprinters?

• What are the strengths and threats for developers working in the 4D bioprinting industry?

• What is the focus of the various publications related to 4D bioprinting?

• What is the current/future market for 4D bioprinting?

companies mentioned

• 3D system

• 3d.FAB

• 3DBio Therapeutics

• 4D biomaterial

• Abbay Biosciences

• BIH Regenerative Therapy Center (BCRT)

• BioG3D

• brighter

• Selink

• Curum

• Advanced Medical Production and Verification Center (Creatio)

• DJO (now part of Envis)

• Duke University

• ethereum Zurich

• evoke medical care

• Ferentis

• the first graphene

• GKSS Research Center Gestacht

• growtex

• Guangzhou Medical University

• Harvard Medical School

• Harvard University

• Polymer Research Laboratories (part) University of Waterloo)

• Instituto de Nanociencia and Materiales de Aragon

• Center for Interdisciplinary Research on Autoimmune Diseases Eastern Piedmont)

• johnson and johnson

• Leibniz Institute for Polymer Research Dresden

• Maastrich University

• Massachusetts Institute of Technology

• mimiX biopharmaceutical

• nemo science

• Nano 3D bioscience

• nanobio lab

• National Materials Science and Technology Consortium

• National Natural Science Foundation China

• National Science Foundation

• Nuclera

• Urobionics

• photopolymer

• Poetis

• Polytecvico di milan

• accurate bio

• 3D soon

• Regenf

• rheolution

• Ritsumeikan University

• ROKIT Healthcare

• Rutgers University

• RWTH Aachen University

• Sculpteo

• Smart3D

• Stratasys

• of George Washington University

• tissue regeneration system

• tissue lab

• University of Bayreuth

• University of Birmingham

• University of California

• University of Chicago

• the university of Eastern Piedmont

• University of Georgia

• University of Illinois

• University of Illinois at Chicago

• University of Illinois at Urbana-Champaign

• University of Maryland

• University of Tsukuba

• University of Twente

• University of Washington

• University of Wollongong

• Virginia Tech

• vivax bio

• Wyss Institute for Biotechnology

For more information on this report, please visit https://www.researchandmarkets.com/r/hr3egw.

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