Speck Design collaborated with Cytori Therapeutics (Cytori) on their next-generation platform, the CT-X2, designed to improve cell therapy processes through enhanced user experience, functionality, and cost efficiency. The project involved the design and manufacturing of the CT-X2 system and its custom cart, as well as the UX/UI design and GUI development. Speck Design's expertise in user research, industrial design, mechanical and electrical engineering, and user experience played a crucial role in successfully completing the project.
The CT-X2 was developed as an upgrade to the Celution 800 System, aiming to increase cell yield, reduce processing time, enhance user experience, and cut procedure costs. The system was designed with a smaller footprint, modular structure, and lower manufacturing costs, enabling greater market access for Cytori's diverse commercial regions. Speck Design was tasked with multiple aspects of the project, which can be categorized into the following areas of expertise:
Speck Design's user research team conducted extensive research to gain insights from doctors who would utilize the CT-X2 device. By understanding the needs and preferences of the end-users, the team was able to set a foundation for the design process. The research led to the creation of a detailed workflow map, which informed the entire design of the project and ensured that the final product catered to the needs of the medical professionals who would be using it.
Electrical Engineering:Speck Design's electrical engineering team played a vital role in the project, identifying major system components, interconnects, and interface requirements for the CT-X2 system. They optimized workflow alternatives to enhance the device's functionality and ensure seamless communication between components.
The mechanical engineering team at Speck Design developed and refined a range of mechanical subsystem concepts, ensuring the device's durability and robustness. They also created a detailed CAD database suitable for prototype release, allowing for the fabrication of functional prototypes to verify fit and serve as initial functional test units.
Speck Design's industrial designers focused on creating a visually appealing and functionally cohesive system, reinforcing Cytori's position as a leader in cell therapy. The design aimed to connect rationally and emotionally with product users, while also incorporating key signature elements and recognizable attributes transferrable to related and future Cytori products. The design was also optimized for easy user maintenance and field servicing, creating high barriers for competitors.
The user interface (UI) and user experience (UX) design team at Speck Design worked on improving the overall user interaction with the CT-X2 system. They designed the graphical user interface (GUI) to be intuitive and user-friendly, with a focus on minimizing device interaction and providing real-time technical support materials. This ensured a seamless and enjoyable experience for users, enabling them to efficiently perform cell therapy processes.
Through the successful integration of user research, electrical engineering, mechanical engineering, industrial design, and UI/UX design expertise, Speck Design completed the Cytori CT-X2 project to the highest standards. The final product not only met the desired specifications but also reinforced Cytori's position as a leader in the cell therapy industry. The project showcased Speck Design's ability to provide innovative solutions and their commitment to working closely with clients to achieve exceptional results.
Speck Design collaborated with Cytori Therapeutics (Cytori) on their next-generation platform, the CT-X2, designed to improve cell therapy processes through enhanced user experience, functionality, and cost efficiency. The project involved the design and manufacturing of the CT-X2 system and its custom cart, as well as the UX/UI design and GUI development. Speck Design's expertise in user research, industrial design, mechanical and electrical engineering, and user experience played a crucial role in successfully completing the project.
The CT-X2 was developed as an upgrade to the Celution 800 System, aiming to increase cell yield, reduce processing time, enhance user experience, and cut procedure costs. The system was designed with a smaller footprint, modular structure, and lower manufacturing costs, enabling greater market access for Cytori's diverse commercial regions. Speck Design was tasked with multiple aspects of the project, which can be categorized into the following areas of expertise:
Speck Design's user research team conducted extensive research to gain insights from doctors who would utilize the CT-X2 device. By understanding the needs and preferences of the end-users, the team was able to set a foundation for the design process. The research led to the creation of a detailed workflow map, which informed the entire design of the project and ensured that the final product catered to the needs of the medical professionals who would be using it.
Electrical Engineering:Speck Design's electrical engineering team played a vital role in the project, identifying major system components, interconnects, and interface requirements for the CT-X2 system. They optimized workflow alternatives to enhance the device's functionality and ensure seamless communication between components.
The mechanical engineering team at Speck Design developed and refined a range of mechanical subsystem concepts, ensuring the device's durability and robustness. They also created a detailed CAD database suitable for prototype release, allowing for the fabrication of functional prototypes to verify fit and serve as initial functional test units.
Speck Design's industrial designers focused on creating a visually appealing and functionally cohesive system, reinforcing Cytori's position as a leader in cell therapy. The design aimed to connect rationally and emotionally with product users, while also incorporating key signature elements and recognizable attributes transferrable to related and future Cytori products. The design was also optimized for easy user maintenance and field servicing, creating high barriers for competitors.
The user interface (UI) and user experience (UX) design team at Speck Design worked on improving the overall user interaction with the CT-X2 system. They designed the graphical user interface (GUI) to be intuitive and user-friendly, with a focus on minimizing device interaction and providing real-time technical support materials. This ensured a seamless and enjoyable experience for users, enabling them to efficiently perform cell therapy processes.
Through the successful integration of user research, electrical engineering, mechanical engineering, industrial design, and UI/UX design expertise, Speck Design completed the Cytori CT-X2 project to the highest standards. The final product not only met the desired specifications but also reinforced Cytori's position as a leader in the cell therapy industry. The project showcased Speck Design's ability to provide innovative solutions and their commitment to working closely with clients to achieve exceptional results.
Speck Design collaborated with Cytori Therapeutics (Cytori) on their next-generation platform, the CT-X2, designed to improve cell therapy processes through enhanced user experience, functionality, and cost efficiency. The project involved the design and manufacturing of the CT-X2 system and its custom cart, as well as the UX/UI design and GUI development. Speck Design's expertise in user research, industrial design, mechanical and electrical engineering, and user experience played a crucial role in successfully completing the project.