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Serving doctors to treat patients better. Offers better insight of complexity. Helps doctors pre-plan for an operation. Reduces anesthesia time on patients.
Dental restorations,dental prostheses,crowns, veneers, inlays and on lays, fixed bridges, Dental implant restorations, Splints, Orthodontic appliances, Craniofacial structures.
Customised and patient specific implants can be printed at Printlay. Doctory can under go a rehersal and prepare the implant before applying it on patients.
Serving doctors to treat parients better. Offers better insight of complexity. Helps doctors pre plan for an operation. Reduces anesthesia time on patients.
Dental restorations,dental prostheses,crowns, veneers, inlays and on lays, fixed bridges, Dental implant restorations, Splints, Orthodontic appliances, Craniofacial structures
Customised and patient specific implants can be printed at Printlay. Doctory can under go a rehersal and prepare the implant before applying it on patients.
Making a prosthetic or an implant or even developing a prototype involves long hours and delivery time. With the process easier and cost-effective, more researchers and professionals can develop designs and innovate.
3D Printed casts is filled with ventilation holes to reduce the itchiness, bulk, and smell that usually plague wearers of traditional plaster casts.
A lot of limits have already been pushed in the field of healthcare and 3D printing. Right from the perfect prosthetics, accurate pre-op models for academic purposes and for practicing surgical procedures, and even something as complex as fabricating human tissue. 3D printers are not only great for creating prototypes but also small scale production units. There are some obvious uses and benefits of 3D printing in the field of healthcare.
Customizing outputs is essential for understanding human anatomy at a deeper level.
Prosthetics can be tailored to the unique characteristics of each patient.
Different types of tissues can be fabricated to meet specific needs.
Difficult bone disorders, like craniofacial disfigurement, can be accurately recreated with customizable options, such as bone thickness.
Personalized equipment and medicine can be developed, revolutionizing the healthcare industry by providing customized solutions for each patient.
3D printers enable cost-effective prototyping and small-scale production, revolutionizing affordability in manufacturing.
Smaller production runs and prototyping are now affordable with 3D printers.
Smaller procedures can be tested and developed according to the end consumer’s parameters
The first output is as inexpensive as the last, eliminating the cost of human resources.
Advances in 3D printing democratize manufacturing, allowing for agile development and testing of procedures tailored to consumer needs.
Developing prosthetics, implants, or prototypes typically requires extensive time and delivery schedules.
Automation and pre-set readings can significantly accelerate production, ensuring precise results down to decimal accuracy.
Automated processes enhance reliability and efficiency.
Scalability and easy replication are benefits of streamlined automation.
Overall, automation improves the efficiency and reliability of producing prosthetics, implants, or prototypes.
Simplified processes and cost-effectiveness empower more researchers and professionals to innovate in design and development.
Easy access to solutions accelerates the realization of creative ideas, fostering innovation in medical research and applications.
Our vision aims to revolutionize the field of medicine by enabling simpler, more effective solutions.
We strive to facilitate innovation that transforms both research methodologies and practical medical applications.
By making design and development more accessible, we aim to catalyze revolutionary advancements in medicine.
