According to the new market research report “Medical 3D Printing Products- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”, published by QYResearch, the global Medical 3D Printing Products market size is projected to reach USD 13.63 billion by 2030, at a CAGR of 12.5% during the forecast period.
- Global Medical 3D Printing Products MarketSize(US$ Million), 2019-2030
Source: QYResearch, "Medical 3D Printing Products- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”
- Global Medical 3D Printing Products Top20Players Ranking and Market Share (Ranking is based on the revenue of 2023, continually updated)
Source: QYResearch, "Medical 3D Printing Products- Global Market Share and Ranking, Overall Sales and Demand Forecast 2024-2030”
According to QYResearch Top Players Research Center, the global key manufacturers of Medical 3D Printing Products include Stryker, Johnson & Johnson, Dentsply Sirona, Zimmer Biomet, Lima Corporation, Medtronic, Smith & Nephew, DENTCA, Restor3d, Glidewell, etc. In 2023, the global top 10 players had a share approximately 44.0% in terms of revenue.
Market Drivers:
Based on the current situation that human body has individual differences and traditional medical devices are mostly standardized in style or size, 3D printing has been gradually widely used in the medical field due to its personalized customization. The main application directions include manufacturing medical models, surgical guides, surgical/oral implants, rehabilitation equipment, etc. (the main materials include plastics, resins, metals, polymer composite materials, etc.), as well as biological 3D printing of human tissues and organs.
3D printing technology has gradually matured in stomatology and has been applied to denture printing, orthodontic appliance production, rehearsal surgical model production, surgical guide production, etc., which helps to improve accuracy and efficiency and reduce surgical risks. 3D printing technology has also developed rapidly in orthopedic implants. Currently, metal 3D printing technology has begun to be used to produce total knee implants, acetabular cups, spinal implants, etc. Metal 3D printing technology is conducive to simulating the layered structure of human bones. Through porous design, it can better integrate with human tissues and promote bone growth. In addition, 3D printing technology also brings higher design freedom to implant design. With the continuous improvement of economic level and precision medical requirements in the future, 3D printing technology will have huge space for development in the medical industry.
3D printing has shown great potential in the field of medical product manufacturing. Its industry drivers and development opportunities are mainly reflected in the following aspects:
Industry drivers
Technological progress and cost optimization: With the continuous development and improvement of 3D printing technology, its manufacturing accuracy and efficiency have been significantly improved, and the manufacturing cost has gradually decreased. This makes the application of 3D printing in medical product manufacturing more economical and efficient.
Growing personalized demand: With the improvement of medical level and the increase in people's demand for personalized medicine, traditional mass production methods can no longer meet the market demand for personalized medical products. 3D printing technology can customize medical products according to the specific needs of patients, such as customized dentures, customized orthotics, etc., to meet the personalized needs of the market.
Policy support and capital investment: Governments of various countries have introduced policies to support the development of 3D printing technology and encourage its innovative application in medical and other fields. At the same time, the capital market has also shown a strong interest in the field of medical 3D printing product manufacturing, providing financial guarantees for the development of the industry.
Development opportunities
Medical device manufacturing: 3D printing technology can be used to manufacture a variety of complex medical devices, such as surgical instruments, implants, etc. Through 3D printing technology, medical devices that are more ergonomic and have better biocompatibility can be manufactured to improve surgical results and patient comfort.
Biological tissue engineering: 3D printing technology can also be used in the field of biological tissue engineering, such as printing human organs, bones, etc. This can not only solve the problem of insufficient organ transplant donors, but also provide patients with more personalized and accurate treatment plans.
Telemedicine services: With the help of 3D printing technology, medical institutions can provide telemedicine services. For example, in remote areas or areas with scarce medical resources, the required medical products can be manufactured through 3D printing technology to provide patients with timely and effective treatment.
Industry chain integration and innovation: With the widespread application of 3D printing technology in the field of medical product manufacturing, it will drive the development and innovation of related industrial chains. For example, innovations in printing materials, design software, manufacturing processes, etc. will bring new development opportunities to the entire industry.
The medical industry has always been one of the most promising application areas of 3D printing technology due to its high customization for different patients. 3D printing can be used in dentistry, orthopedics, and even in the production of living organs, significantly improving production efficiency, shortening service cycles, and improving user experience. In 2015, the State Food and Drug Administration (CFDA) officially approved the use of 3D printing to manufacture medical devices, including human implants such as metal hip joints, clearing the way for the application of 3D printing in the medical industry. With further cost reductions in the future, 3D printing is expected to benefit a wider range of patients.
In summary, driven by multiple factors such as technological progress, growth in personalized demand, and policy support, the medical 3D printing product industry is ushering in unprecedented development opportunities. In the future, with the continuous advancement of technology and the continuous expansion of application areas, medical 3D printing products will play a more important role in the medical field.
Trend:
T1: Continuous technological progress and innovation. With the continuous development and improvement of 3D printing technology, its application in the field of medical product manufacturing will be more accurate and efficient. The emergence of new printing materials, printing processes and printing equipment will further improve the quality and performance of medical products and meet more complex and sophisticated medical needs.
T2: Growth in demand for personalized medical products. With the increasing demand for personalized medicine, 3D printing technology will play a more important role in the field of medical product manufacturing. From customized dentures, orthotics to personalized implants, 3D printing technology can be precisely manufactured according to the specific needs of patients, providing medical solutions that better meet the needs of patients.
T3: Research and development of biocompatible and bioactive materials. In order to improve the biocompatibility and bioactivity of medical products, researchers are actively developing new printing materials. These materials can not only better integrate with human tissues and reduce rejection reactions, but also have better bioactivity and can promote tissue regeneration and repair.
About The Authors
| Jiang Jinxiu - Lead Author |
| Email: jiangjinxiu@qyresearch.com |
| Jinxiu Jiang is a technology & market senior analyst specializing in chemical industry. Jiang has rich research experience in chemical industry and focuses on perfluoropolyethers, lubricating greases and heat transfer oils, trichlorohydrosilicon, petroleum needle coke, zirconia beads, high-strength glass fibers, long-glass fiber reinforced polypropylene, isostearic acid and its derivatives, and polytetrahydrofuran, etc. She is engaged in the development of technology and market reports and is also involved in custom projects. |
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