Traditionally, the O&P industry has relied on outdated, manual methods to capture patient anatomy and create custom devices. From casting molds to labor-intensive design processes, these methods are not only time-consuming but often lead to less accurate results. However, the power of technology is transforming this space, and Structure is at the forefront of this revolution.
With millions of people living with diabetes worldwide, many require specially designed orthotics to prevent complications and improve their quality of life. Structure’s 3D scanning solutions, including Structure Sensor 3 and our robust SDK platform, empowers the O&P industry to create high-quality, comfortable diabetic orthotics at scale, benefiting patients everywhere.
By leveraging Structure’s 3D scanning platform, companies like Taika3D empower O&P professionals with mobile scanning and design automation. This enables organizations like KLM Orthotic Labs to offer physicians a seamless application that captures patients’ unique limb anatomies in seconds. This innovative approach replaces the need for cumbersome physical molds, enabling faster and more accurate scans for custom orthotics, insoles and diabetics shoes.
These advancements are more than just a technical upgrade – they’re transforming the way O&P professionals deliver patient care. By integrating Structure’s 3D mobile scanning solutions with automated design platforms like Taika3D, businesses can streamline order management, reduce costs, and eliminate the inefficiencies of manual design.
Together, Structure, Taika3D, and KLM Orthotic Labs are leading the way in creating a more inclusive and efficient healthcare ecosystem for people who need custom orthotics, paving the way for healthier, more comfortable lives for all.
Purchase the Structure Sensor 3 today at https://structure.io/
Learn more about how Taika3D’s design automation can transform your business at https://taika3d.com/
Discover KLM Orthotic Labs’ wide range of orthotic solutions and designs at https://klmlabstore.com