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Orthoses and Prostheses: 3D printing enables the creation of custom orthoses and prostheses that fit the patient perfectly. Thanks to digital scans and advanced design, lightweight and comfortable devices can be produced that ensure optimal functionality.
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Surgical instruments: 3D printing enables the production of specific surgical instruments that can be adapted to the specific needs of the operation. This increases the efficiency and precision of surgical procedures.
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Bioprinting: In the field of regenerative medicine, bioprinting technology is being developed, which allows the creation of living tissues and organs from cells. This method has the potential to produce transplants and drug research, which could significantly affect patient treatment.
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Anatomical models: Doctors use 3D printing to produce anatomical models based on patient images (such as CT or MRI). These models help doctors better plan surgical procedures and improve communication with patients.
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Dental applications: In dentistry, 3D printing is used to produce crowns, bridges and orthodontic appliances. This technology speeds up production and increases accuracy, leading to better patient outcomes.
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Research and Education: 3D printing also serves as a tool for teaching and research in medicine. Students and researchers can work with real-life models, which improves understanding of complex anatomical structures.
These applications make 3D printing a key tool for improving patient care and bringing innovation to the medical industry.
