LimbForge was established in 2014 by a group of volunteers to address the needs of the approximately 35 million people around the world who live with limb loss, most of them in developing nations. Experts in prosthetics, 3D printing, software development, health policy, social change, and design, they aimed to create an accessible solution that anyone could learn to use. Today, this nonprofit organization develops software, devices, and training to explore new approaches to prosthetic manufacturing.

Sam Hobish, LimbForge’s creative director and lead user-experience (UX) designer, came to the organization with a background in industrial design. He was inspired by his volunteer experience helping kids with limb loss to design custom prosthetics, such as a glitter-spraying superhero arm for a 10-year-old girl. “I never really thought about prosthetics before, but it brought my attention to the basic need that’s out there,” Hobish says. “That’s how I eventually got involved with LimbForge—I loved working in that world. You’re making something that is so essential to someone. You can’t say that about other things that you traditionally design as an industrial designer.” Hobish now oversees the development of LimbForge’s prosthetic devices along with the UX design of its proprietary prosthetics software.

To help meet the urgent need for prosthetics in developing countries, the LimbForge team created a customizable system that gives each individual a unique prosthesis that’s cosmetically pleasing. It looks like a real arm but is also very affordable and quick to make.

The LimbForge Upper Limb System is designed as modules for the upper arm, elbow, forearm, wrist, and hand, with options for different proportions and functionality. Each module is configured to an individual using LimbForge’s purpose-built software, then sent to a 3D printer to be fabricated in a plastic material in a range of skin tones.

The LimbForge software was built with the Autodesk Forge developer platform to connect the process of creating a prosthetic limb from design through 3D printing. It employs the powerful CAD capabilities of Fusion 360, honed down to the essentials for this task. The team created a simplified user interface to make it accessible to users with a variety of skill sets. “When we enter a patient’s measurements into the software, the model is drawn from Fusion 360 APIs,” Hobish explains. “For all the modules, the generic original versions are parametrically designed in Fusion so everything remains in the correct proportions when it’s resized.”

The final critical component of LimbForge’s mission is building capacity to serve more patients in more locations. “We want to train local clinicians, prosthetists, NGOs [nongovernmental organizations], even some government organizations to operate the LimbForge system,” Hobish says. “We train them in 3D scanning, basic CAD work, and obviously 3D printing, 3D-printer maintenance, and materials.” After a full training was conducted at Healing Hands for Haiti, the clinicians have been using the system for the past year with LimbForge’s ongoing support.

The organization has also found a powerful ally in Doctors Without Borders, working with conflict victims and refugees in the Middle East to test the LimbForge system. In turn, Doctors Without Borders offers learnings from the field that help LimbForge refine the tools and designs. In another partnership, a medical school graduate in Sri Lanka was inspired by LimbForge’s rehabilitation model to assemble a team of doctors, mechanical engineers, and prosthetists to implement a program at a local university.

LimbForge’s ultimate goal is to foster a network of organizations that can bring its design and manufacturing technologies to poor and conflict-torn regions around the world. To that end, the team is working to bring down costs and further simplify the process. “Then there’s the continued improvement of designs, finding better materials, finding better skin-tone matches,” Hobish says. The team also aims to integrate third-party devices into the LimbForge system, to provide patients with additional designs to fulfill even more needs. “We want to make this inclusive for other organizations working in the field.”

The current technology is just the start. “We would love to be at a point where an organization can come to us with a prosthetic-rehabilitation need that could be met by 3D printing or a parametric CAD design,” Hobish continues. “And we would be able to consult, help build tools, and work with them on their projects.”

LimbForge offers a fast, affordable way to design and manufacture quality prosthetics that change lives for the better. But beyond that, LimbForge is breaking new ground by making advanced technology more accessible, to help changemakers address critical health-care and social problems wherever the need exists.