Number of pages: 100 | Report Format: PDF | Published date: June 28, 2023
Historical Years – 2021 | Base Year – 2022 | Forecasted Years – 2023-2031
Report Attribute |
Details |
Market Size Value in 2022 |
US$ 520.25 million |
Revenue Forecast in 2031 |
US$ 1587.92 million |
CAGR |
13.2% |
Base Year for Estimation |
2022 |
Forecast Period |
2023 to 2031 |
Historical Year |
2021 |
Segments Covered |
Specialty, Material, and Region |
Regional Scope |
North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa |
According to the deep-dive market assessment study by Growth Plus Reports, the global 3D printed surgical models market was valued at US$ 520.25 million in 2022 and is expected to register a revenue CAGR of 13.2% to reach US$ 1587.92 million by 2031.
3D Printed Surgical Models Market Fundamentals
3D printed surgical models refer to three-dimensional physical replicas of anatomical structures or surgical sites that are created using 3D printing technology. These models are designed to mimic the specific patient's anatomy or a particular medical condition and are used by surgeons and healthcare professionals for preoperative planning, simulation, and training purposes. To create a 3D printed surgical model, medical imaging data, such as CT scans or MRI scans, is typically used as a basis. The imaging data is processed through specialized software that converts it into a digital 3D model. This digital model is then sent to a 3D printer, which builds the physical model layer by layer using various materials, such as plastic, resin, or metal. The resulting 3D printed surgical models offer several advantages in the field of medicine. They provide a tangible and realistic representation of complex anatomical structures, allowing surgeons to gain a better understanding of a patient's unique anatomy before performing a procedure. Surgeons can use these models to plan and practice surgical approaches, evaluate the feasibility of specific techniques, and explore potential complications or challenges that may arise during the actual surgery.
3D Printed Surgical Models Market Dynamics
The rapid evolution of 3D printing technology has made it more accessible, affordable, and capable of producing intricate and complex models. Improved printing speed, higher resolution, and a wider range of compatible materials have expanded the applications of 3D printed surgical models. The growing incidence of chronic diseases, such as cardiovascular conditions, orthopedic disorders, and cancer, has led to an increased demand for complex surgeries. 3D printed surgical models assist surgeons in evaluating the intricacies of these procedures, optimizing surgical approaches, and reducing risks, which is increasing the 3D printed surgical models market demand. According to the WHO, cardiovascular diseases account for approximately 17.9 million deaths annually, making them the leading cause of mortality worldwide. 3D printed surgical models provide a tangible and visual representation of a patient's condition, making it easier for healthcare professionals to communicate complex medical information to patients. This enhances patient understanding, engagement, and participation in the decision-making process. There is an increasing focus on patient-specific solutions in healthcare. 3D printed surgical models enable customization and personalization based on individual patient anatomy, allowing surgeons to plan procedures with greater precision. Customized surgical guides and implants can also be 3D printed, enhancing surgical outcomes and patient satisfaction, which is also boosting the 3D printed surgical models market growth.
However, the initial investment required for setting up 3D printing infrastructure, including printers, software, and materials, is substantial. Additionally, the cost of creating patient-specific models and the associated imaging and processing expenses add to the overall expenses, which is restricting the 3D printed surgical models market growth. The reimbursement landscape for 3D printed surgical models is still evolving. Insurance coverage for the costs associated with 3D printing, such as imaging, modeling, and printing, is not universally available or well-established, which is also hindering the growth of the 3D printed surgical models market growth.
3D Printed Surgical Models Market Ecosystem
The global 3D printed surgical models market is analyzed from four perspectives: specialty, material, and region.
3D Printed Surgical Models Market by Specialty
Based on the specialty, the global 3D printed surgical models market is segmented into gastroenterology endoscopy of esophageal, cardiac surgery/interventional cardiology, neurosurgery, reconstructive surgery, orthopedic surgery, surgical oncology, and transplant surgery.
The orthopedic surgery segment accounted for the largest 3D printed surgical models market share in 2022, with a 30.45% market share. Orthopedic surgeries often involve complex anatomical structures and precise surgical techniques. 3D printed surgical models provide orthopedic surgeons with a tangible and realistic representation of the patient's anatomy, allowing them to plan and practice procedures before the actual surgery. This helps surgeons visualize complex bone structures, joint replacements, and fracture fixation, leading to improved surgical outcomes. Orthopedic conditions, such as degenerative joint diseases, fractures, and sports injuries, are prevalent worldwide. As the population ages and remains physically active, the demand for orthopedic surgeries is increasing. 3D printed surgical models assist in optimizing surgical planning and implant selection, leading to improved patient outcomes and reduced complications. According to the Centers for Disease Control and Prevention, around 7 million injuries related to sports occur every year in the U.S. Orthopedic surgeries often require careful preoperative planning and precise execution. 3D printed surgical models allow surgeons to evaluate different surgical approaches, simulate the procedure, and anticipate potential challenges or complications. 3D printing technology enables the creation of patient-specific implants and surgical guides in orthopedic surgery. By utilizing preoperative imaging data, surgeons can design, and 3D print customized implants that match the patient's anatomy precisely.
3D Printed Surgical Models Market by Material
Based on the material, the global 3D printed surgical models market is segmented into stereolithography, polyjet printing, fused deposition modeling, and others.
The fused deposition modeling segment accounted for the prominent revenue share of the 3D printed surgical models market whit a 27% market share. Fused deposition modeling is known for its cost-effectiveness compared to other 3D printing technologies. The printers and consumables used in fused deposition modeling are relatively affordable, making them accessible to a wide range of healthcare institutions. Fused deposition modeling offers a wide range of compatible materials, including various thermoplastics and composite materials. These materials are biocompatible, durable, and exhibit suitable mechanical properties for creating surgical models. The versatility in material options allows for the production of anatomically accurate and functional models that closely resemble human tissue. Fused deposition modeling technology is known for its relatively fast printing speeds compared to other 3D printing techniques. This speed enables healthcare institutions to produce surgical models within a reasonable timeframe, reducing waiting times for surgeons and patients. Additionally, fused deposition modeling printers can be scaled up for larger production volumes, making them suitable for high-demand scenarios. FDM printers have the capability to print large-scale models, making them suitable for orthopedic surgeries that involve intricate bone structures or joint replacements. Surgeons can benefit from having a physical model that accurately represents the patient's anatomy, enabling better surgical planning and implant selection.
3D Printed Surgical Models Market by Material
Based on the materials, the global 3D printed surgical models market is segmented into metal, polymer, plastic, and others.
The plastic segment accounted for a considerable revenue share of the 3D printed surgical models market, with a 32% market share. Plastic materials used in 3D printing offer a wide range of desirable properties for surgical models. These include biocompatibility, durability, flexibility, and ease of sterilization. Plastic materials can closely mimic the mechanical properties of human tissue, allowing for a more accurate representation of anatomical structures in surgical models. Plastic materials used in 3D printing are generally more cost-effective compared to other materials, such as metals or resins. This makes plastic a preferred choice for surgical models, particularly in settings with budget constraints. Plastic materials used in 3D printing come in various types, such as polylactic acid (PLA), acrylonitrile butadiene styrene (ABS), polyethylene terephthalate glycol (PETG), and polyamide (nylon). These materials offer different mechanical properties, such as strength, flexibility, and transparency, enabling surgeons to select the most suitable material for their specific surgical modeling needs. Plastic materials have been extensively researched and validated for their use in 3D printed surgical models. Numerous studies have demonstrated the accuracy, functionality, and reliability of plastic-based models in surgical planning and training.
3D Printed Surgical Models Market by Region
Geographically, the global 3D printed surgical models market has been segmented into North America, Europe, Asia Pacific, Latin America, and the Middle East & Africa.
The North America region has the largest 3D printed surgical models market size in terms of revenue generation accounting for around 34.2% share of the market. North America is at the forefront of technological advancements in 3D printing and healthcare. The region has a strong presence of innovative companies, research institutions, and healthcare facilities that are actively pushing the boundaries of 3D printing technology. Continuous advancements in hardware, software, and materials are driving the growth of the 3D printed surgical models market in North America. Personalized medicine is gaining momentum in North America, with a focus on delivering tailored treatments and solutions to individual patients. 3D printed surgical models play a significant role in personalized medicine by providing surgeons with patient-specific anatomical models for preoperative planning, surgical simulation, and custom implant design. North America witnesses a high volume of complex surgical procedures, including orthopedic, cardiovascular, and neurological surgeries. 3D printed surgical models enable surgeons to visualize and practice intricate procedures, improving surgical outcomes and patient safety. According to the United States Bone and Joint Initiative, Musculoskeletal diseases impact almost 1 out of every 2 people in the United States aged 18 and up, and nearly 3 out of every 4 people aged 65 and up. Medical education and surgical training programs in North America are incorporating 3D printed surgical models to enhance learning experiences. These models provide a hands-on approach for medical students and residents to practice surgical techniques, improve their skills, and gain a better understanding of anatomy. North America has a robust healthcare infrastructure with well-established hospitals, surgical centers, and research institutions. The region's advanced healthcare system supports the adoption and utilization of innovative technologies such as 3D printed surgical models.
3D Printed Surgical Models Market Competitive Landscape
The prominent players operating in the global 3D printed surgical models market are:
3D Printed Surgical Models Market Strategic Developments
3D printed surgical models refer to three-dimensional physical replicas of anatomical structures or surgical sites that are created using 3D printing technology.
Asia Pacific can be considered the key growth region due to the surge in 3D printed surgical models industry trends in China, Japan, and the Indian subcontinent.
The prominent players operating in the global 3D printed surgical models market are Stratasys, Ltd., Lazarus 3D, 3D Systems, Inc., Osteo3D, and Axial3D.
The global 3D printed surgical models market growth is estimated to grow at a revenue CAGR of 13.2% during the forecast period from 2023 to 2031.
The estimated size of the global 3D printed surgical models market in 2031 is US$ 1587.92 million.
*Insights on financial performance are subject to the availability of information in the public domain
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