ABOUT TIBOVINI
Welcome to TIBOVINI
Our company is comprised of precision manufacturing experts and professors with extensive experience in the medical field, offering a deep foundation in 3D printing technology. We initially entered the market through medical products and have progressively expanded into various fields and materials, including medical, metal, and non-metal 3D printing products and services.
With a profound understanding of 3D printing technology, exceptional technical application capabilities, and cross-disciplinary integration skills, we continuously enhance our overall competitive edge, providing clients with more innovative and efficient solutions.
ABOUT 3D PRINT
3D Printing in Medical
Expanding Customized Markets for Dentistry and Orthopedics
Medical 3D Printing Development
3D printing, also known as additive manufacturing, is a type of rapid prototyping technology. It is based on three-dimensional digital model files, which are sliced into layers using software and then formed layer by layer using methods such as laser sintering or thermal melting to bind materials like metals, ceramics, plastics, and even
3D printing, also known as additive manufacturing, is a type of rapid prototyping technology. It is based on three-dimensional digital model files, which are sliced into layers using software and then formed layer by layer using methods such as laser sintering or thermal melting to bind materials like metals, ceramics, plastics, and even cells.
Medical 3D printing builds on traditional 3D printing technologies by incorporating medical and biological aspects. It is used not only for manufacturing medical devices and prosthetics but also for applications in biomedical fields, such as printing tissue and organ models.
Medical 3D Printing Development
Expanding Customized Markets for Dentistry and Orthopedics
Medical 3D Printing Development
The medical field has a wide range of applications for 3D printing, and its market penetration is expected to gradually increase. The global 3D printing market is growing annually, and the personalized demands and high value-added features of the medical sector make it one of the most suitable areas for 3D printing. Currently, the commerc
The medical field has a wide range of applications for 3D printing, and its market penetration is expected to gradually increase. The global 3D printing market is growing annually, and the personalized demands and high value-added features of the medical sector make it one of the most suitable areas for 3D printing. Currently, the commercialization of medical 3D printing can be divided into four levels:
- Commercialized and Relatively Mature Applications:
- Medical Devices: Includes prosthetics and custom surgical instruments.
- Medical Models: Used for surgical planning, patient education, and medical training.
- Surgical Guides: Custom guides that assist in precise surgical procedures.
- Dental Applications: Customized dental implants, crowns, and orthodontic devices.
- Clinical Research and Data Accumulation Stage:
- Implants: Various types of implants that are still in the clinical research phase, including those for orthopedics and other specialties.
- Laboratory Research Stage:
- Functional Tissues and Organs: Research is ongoing into creating functional biological tissues and organs, which are not yet commercially available but hold significant potential.
- Other Emerging Applications:
- Personalized Drug Delivery: Development of customized drug formulations and delivery methods tailored to individual patients.
Currently, the field with the largest application scale is dentistry due to high market demand and relatively lower regulatory requirements. Medical models and surgical guides are significant breakthroughs in large-scale industrialization at this stage. As costs continue to decrease in the coming years, the market penetration of medical 3D printing is expected to increase steadily.
Expanding Customized Markets for Dentistry and Orthopedics
Expanding Customized Markets for Dentistry and Orthopedics
Expanding Customized Markets for Dentistry and Orthopedics
3D printing is currently most prominently applied in non-biomedical medical fields, with high levels of maturity in areas such as dentistry, orthopedics, and medical devices. Key applications include:
- Surgical Planning and Education:
- 3D Printed Medical Models: These are used for preoperative planning, surgical simulations, and patient edu
3D printing is currently most prominently applied in non-biomedical medical fields, with high levels of maturity in areas such as dentistry, orthopedics, and medical devices. Key applications include:
- Surgical Planning and Education:
- 3D Printed Medical Models: These are used for preoperative planning, surgical simulations, and patient education. They provide detailed anatomical representations that help in planning complex procedures.
- Surgical Guides:
- Custom Surgical Guides: Designed to assist surgeons in performing precise operations, especially in orthopedics and dentistry. These guides ensure accuracy during surgeries, such as implant placements.
- Implants and Prosthetics:
- Orthopedic Implants: Includes custom implants for joint replacements and fracture fixation. Tailored to fit individual patient anatomies, improving surgical outcomes and recovery.
- Dental Implants and Prosthetics: Custom-made crowns, bridges, dentures, and implants that provide better fit and function compared to traditional solutions.
- Rehabilitation Devices:
- Custom Rehabilitation Equipment: Personalized devices for physical therapy and rehabilitation, designed to meet the specific needs of individual patients.
- Bioprinting:
- Biological 3D Printing: An emerging field that involves printing living tissues and organs. While still in experimental stages, bioprinting holds promise for creating functional human tissues and organs for medical research and potential future treatments.
Overall, 3D printing technology is proving to be a transformative tool in various medical applications, offering high customization and precision in the creation of medical models, surgical aids, implants, and rehabilitation devices. As technology advances, the scope of bioprinting is also expanding, potentially revolutionizing the field of regenerative medicine.
WHO WE ARE
Our Mission
With the advantages of high precision, personalized manufacturing and printing of complex structures, 3D printing has gradually penetrated into aerospace, automotive industry, shipbuilding, rail transportation, electronics industry and biomedical fields.
The global market size is expected to maintain 20% CAGR growth and reach $37.2 billion in 2026.
Our Story
In 2019-2021, the founding team has academic cooperation with the First Hospital of Hebei Medical University, and obtained the approval of the Innovation Special Project of the Key Research and Development Program of Hebei Province.
In 2021, we will work with China Children's Rehabilitation Association to develop children's spine related products.
3D-Printed Rehabilitation Devices Collaboration with Hospital and University
Based on the collaboration with Medical University and Hospital, Tibovini has made significant strides in developing 3D-printed smart rehabilitation aids for knee joints and pediatric spines. The specific features of these products are detailed below:
1. Knee Joint Rehabilitation Aids:
- Custom 3D Printing: These aids are produced using specialized materials and undergo clinical mechanical analysis to ensure a precise fit, enhancing patient comfort compared to existing market products.
- Treatment for Mild Joint Deformities: Designed to address mild knee joint varus deformities, these aids offer a non-invasive alternative to joint replacement surgery, providing a more conservative treatment approach.
- Aerosol Technology Integration: The devices incorporate unique aerosol technology for comprehensive patient tracking and data collection throughout the rehabilitation process. This integration significantly improves clinical utility by enabling real-time monitoring and adjustments.
Our Competive Advantage
Tibovini's 3D-printed rehabilitation aids are uniquely positioned in the market due to the clinical alignment, innovative materials, and smart technology integration. These factors provide a significant competitive edge over traditional and additive manufacturing competitors, positioning Tibovini to rapidly capture market share.
Our Values
Medical products for rapid customized manufacturing to achieve functional integration of lightweight design, the entire production process is convenient, simple and fast, not only to shorten the time cost and improve the aids and the patient's body structure to match.