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The 4D printing in healthcare market is estimated to grow by USD 42,391.26 thousand at a CAGR of 29.62% between 2022 and 2027. The increased demand for personalized or customized medical devices, driven by factors such as the need for patient-specific treatment solutions and the advancements in medical imaging technologies, is driving market growth by increasing the adoption of 4D printing technology. Additionally, the increasing adoption of this technology by medical professionals, driven by factors such as the ability to create complex and functional structures, is also boosting market expansion by increasing the overall demand for 4D printing solutions in the medical field. Moreover, the rising cost efficiency and enhanced productivity offered by 4D printing technology are further driving its adoption across various medical applications.
It also includes an in-depth analysis of drivers, trends, and challenges. Furthermore, the report includes historic market data from 2017 to 2021.
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This report extensively covers market segmentation by application (implants, medical devices, and simulating and training), component (software and services, equipment, and programmable materials), and geography (North America, Europe, Asia, and the Rest of the World).
The market share growth by the implants segment will be significant during the forecast period. Artificial devices known as medical implants are employed to either augment or replace biological structures. In general, these implants are used to treat medical conditions like heart, orthopedic, neurological, and dental problems. While some implants are made of metal, plastic, or ceramic, others are made of skin, bone, or other body tissues. Medical implants can be removed when no longer required and can be permanent or temporary.
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The implants segment was valued at USD 3,682.95 thousand in 2017. The demand for medical implants has increased as a result of the use of 4D printing technology in healthcare. The development of these has improved the 3D structure in medical implants that respond to stimuli. Medical implants can now change shape between their preprogrammed configurations in a reversible manner due to advancements in this technology. As a result, the demand for medical implants is rising due to the rising prevalence of chronic diseases, particularly among the geriatric population worldwide, which is encouraging the use of these to improve the shape and structure of these implants. Thus, owing to such factors, the segment is expected to grow during the forecast period.
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North America is estimated to contribute 41% to the growth of the global market during the forecast period. Technavio’s analysts have elaborately explained the regional trends and drivers that shape the market during the forecast period.
An improved healthcare infrastructure, a high adoption rate in healthcare facilities, and the presence of reputable companies can all be credited with the market growth in the region. Numerous professional societies in the region also support the use of these technologies in the medical field. The Society for Manufacturing Engineers, for instance, has a workgroup specifically in medicine. The demand in healthcare is also rising as a result of the rapidly aging population, as well as the growing demand for high-tech healthcare services. Due to the rising standard of living in the region, clients can access technologically cutting-edge healthcare services. Medical devices have both direct and indirect costs, which raises the cost of healthcare. Growth of the market in North America will be fueled by favorable government policies, the presence of regional suppliers, and the rising number of companies in the area.
4D printing in the healthcare sector involves the use of smart materials that can change shape or properties in response to external stimuli like temperature, water, electricity, or light. This technology has transformative potential in various medical applications, including clinical models, drug delivery systems, and implants. By leveraging 3D printing and 4D printing technologies, healthcare professionals can create biocompatible and customized implants and prosthetics. However, the adoption of these technologies is subject to regulatory policies governing medical devices and biomedical applications. Advances in printing hold promise for enhancing organ transplants, targeted drug delivery, and endovascular interventions, benefiting patients worldwide. Our researchers analyzed the data with 2022 as the base year, along with the key drivers, trends, and challenges. A holistic analysis of drivers will help companies refine their marketing strategies to gain a competitive advantage.
The increased demand for personalized or customized medical devices is notably driving market growth. Medical images of patients are increasingly being used to create patient-specific devices and surgical instruments using 4D printing technology. Clinical professionals can design complex shapes and geometric features in custom implants due to the additive layering capabilities of the printing. Regardless of cost, this makes it possible to fabricate engineered porous structures, convoluted internal channels, and internal support structures that cannot be done with traditional subtractive manufacturing techniques. These advancements are made possible through the use of smart materials, programmable substrate, temperature changes, water immersion, electrical current, UV light, and energy, particularly in the context of 4D printing technology.
This technology has promising applications in fields such as organ transplants and targeted drug delivery, enhancing the capabilities beyond those of traditional 3D printing technology. Many of the limitations of prostheses that are made traditionally can be overcome by custom-made ones. A significant issue in orthopedics is resolved by manufacturing custom surgical implants. Traditional orthopedic implants frequently fall short for a large number of patients, especially in challenging situations. Historically, surgeons had to perform bone grafting procedures or alter surgical implants by using scalpels and drills to shape, size, and fit pieces of metal or plastic. Furthermore, custom-made medical devices can be produced from high-quality, biocompatible materials with anatomical accuracy. Thus, such factors will boost the global market growth during the forecast period.
The rising research on the use of the 4D printing process to manufacture living organs and cell structures is an emerging trend in market growth. The viability of creating living tissues has increased owing to technological developments in 4D printing. The goal of this procedure, known as 4D bioprinting, is to produce bioidentical tissues, such as stem cells, skin grafts, bone, and cartilage, by carefully layering cells, biological scaffolds, and growth factors. The field of organ replacement has benefited significantly from the use of 4D bioprinting technology. In addition to potentially addressing the shortage of organ donors, 4D bioprinting can significantly reduce the likelihood of organ rejection. This is because organs made using 4D printing can more effectively meet the needs of the body.
companies are increasing their R&D efforts to create devices for 4D bioprinting as a result of the enormous potential. For instance, the biotechnology company ORGANOVO is using bioprinting technology to create in vivo liver tissues to treat a variety of rare, fatal diseases, for which organ transplantation is the only available treatment currently. ExVive 3D Bioprinted Human Liver Tissues, a new product from ORGANOVO, can be used to assess drug exposure for both acute and chronic toxicity and metabolism studies. This gives life science businesses, researchers, and entrepreneurs the chance to bioprint using any cells and carry out research and development for 4D printing technology. Thus, these factors are expected to boost the growth of the global market during the forecast period.
The high initial setup cost of 4D printing facilities is a major challenge impeding market growth. The widespread adoption of medical devices is being constrained by their high capital costs. The expensive equipment needed for 3D printing or contracts for outsourced print services as well as the sophisticated software used for post-processing, is largely to blame. A desktop SLA or FDM machine typically costs less than USD 5,000. The more expensive additive manufacturing printers, such as SLS, material jetting, and metal printing, however, typically cost between USD 200,000 and USD 850,000, and occasionally even several million dollars.
To ensure the production of high-quality devices, end users must also invest a lot of money in hiring or training qualified personnel. The actual printing of the model must be done by trained ancillary staff in a clinical printing laboratory. The time it takes for the majority of these printers to produce parts typically varies from hours to days, depending on how many layers need to be printed. Unless several hundred 4D printers are available and being used simultaneously, this limits the viability of using 4D printers in mass manufacturing in some areas. Therefore, these factors will hinder the growth of the global market during the forecast period.
The report includes the adoption lifecycle of the market, covering from the innovator’s stage to the laggard’s stage. It focuses on adoption rates in different regions based on penetration. Furthermore, the report also includes key purchase criteria and drivers of price sensitivity to help companies evaluate and develop their growth strategies.
Global Market Customer Landscape
Companies are implementing various strategies, such as strategic alliances, partnerships, mergers and acquisitions, geographical expansion, and product/service launches, to enhance their presence in the market.
Poietis - The company specializes in the development and manufacture of human tissues using 4D and laser bioprinting. The key offerings of the company include laser-assisted NGB R 4D bioprinter.
The report also includes detailed analyses of the competitive landscape of the market and information about 5 market companies, including:
Qualitative and quantitative analysis of companies has been conducted to help clients understand the wider business environment as well as the strengths and weaknesses of key market players. Data is qualitatively analyzed to categorize companies as pure play, category-focused, industry-focused, and diversified; it is quantitatively analyzed to categorize companies as dominant, leading, strong, tentative, and weak.
The report forecasts market growth by revenue at global, regional & country levels and provides an analysis of the latest trends and growth opportunities from 2017 to 2027.
The market is revolutionizing the industry with its biocompatible 3D products and bio-ink for creating patient-specific implants and implantable devices. This technology enables the production of live cells and self-sustaining 3D geometries, enhancing catalytic productivity and cell densities for medical research models and biomedical splits. With techniques like Fusion Deposition Modeling (FDM) and Selective Laser Sintering (SLS), healthcare professionals can now create clear aligners, crowns, and dentures with filament thickness precision. The market caters to hospitals, clinics, and the dental industry, offering innovative solutions for dental diseases and Chronic disorders through skilled professionals and advanced Supply chain activities.
The market is rapidly advancing, particularly in dentistry and the Healthcare domain, offering biocompatible solutions such as dental implants and vascular stents. Hospitals, clinics, and the Pharmaceuticals & biotechnology sectors benefit from this technology, which enables the creation of implantable equipment and stents using Stereolithography and other techniques. The market's growth is supported by the availability of high-quality Raw materials and its ability to enhance the effectiveness of Pharmaceutical drugs. Additionally, bridges and other dental solutions are now more precise and efficient, thanks to the advancements.
Market Scope |
|
Report Coverage |
Details |
Page number |
152 |
Base year |
2022 |
Historic period |
2017-2021 |
Forecast period |
2023-2027 |
Growth momentum & CAGR |
Accelerate at a CAGR of 29.62% |
Market growth 2023-2027 |
42,391.26 th |
Market structure |
Concentrated |
YoY growth 2022-2023(%) |
28.51 |
Regional analysis |
North America, Europe, Asia, and Rest of World (ROW) |
Performing market contribution |
North America at 41% |
Key countries |
US, Germany, France, China, and Japan |
Competitive landscape |
Leading companies, Market Positioning of companies, Competitive Strategies, and Industry Risks |
Key companies profiled |
3D Systems Corp., Desktop Metal Inc., Organovo Holdings Inc., Otto GmbH and Co. KG, Poietis, and Stratasys Ltd. |
Market dynamics |
Parent market analysis, Market Forecasting, Market growth inducers and obstacles, Fast-growing and slow-growing segment analysis, COVID-19 impact and recovery analysis and future consumer dynamics, and Market condition analysis for the forecast period. |
Customization purview |
If our market report has not included the data that you are looking for, you can reach out to our analysts and get segments customized. |
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1 Executive Summary
2 Market Landscape
3 Market Sizing
4 Historic Market Size
5 Five Forces Analysis
6 Market Segmentation by Application
7 Market Segmentation by Component
8 Customer Landscape
9 Geographic Landscape
10 Drivers, Challenges, and Trends
11 Vendor Landscape
12 Vendor Analysis
13 Appendix
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