Creating a strong, 3D printed prosthetic finger system powered by muscle signals
Development and clinical assessment of a robust, 3D printed titanium, myoelectric powered prosthetic digit system
This study is working on a new kind of prosthetic finger for people who have lost part of their hand, using 3D printing to make it strong and light, so you can control it with your muscle signals and get back to doing everyday tasks more easily.
Quick facts
| Grant type | Sbir 2 grant |
|---|---|
| Study type | NIH-funded research |
| Funding institution | Point Designs, LLC NIH-funded |
| Lab location | 1 site (Broomfield, UNITED STATES) |
| Project ID | NIH-10930823 on NIH RePORTER |
What this research studies
This research focuses on developing a new type of prosthetic finger system designed for individuals with partial hand amputations. The approach involves using advanced 3D printing technology to create durable and lightweight prosthetic digits that can be controlled by muscle signals through myoelectric sensors. The goal is to provide a more functional and reliable option for patients, improving their ability to perform daily tasks and return to work. The research team has extensive experience in developing prosthetic devices and aims to launch this innovative system within the next few years.
Who could benefit from this research
Good fit: Ideal candidates for this research are individuals living with partial hand amputations who are seeking improved prosthetic solutions.
Not a fit: Patients with complete hand amputations or those who do not have the necessary muscle signals to control a myoelectric device may not benefit from this research.
Why it matters
Potential benefit: If successful, this research could significantly enhance the quality of life for individuals with partial hand loss by providing them with a more effective and user-friendly prosthetic option.
How similar studies have performed: Previous research in developing advanced prosthetic devices has shown promise, indicating that innovative approaches like this one could lead to significant advancements in prosthetic technology.
Where this research is happening
Broomfield, UNITED STATES
- Point Designs, LLC — Broomfield, United States (Active)
Researchers
- Principal investigator: Sliker, Levin — Point Designs, LLC
- Study coordinator: Sliker, Levin
About this research
- This is an active NIH-funded research project — typically early-stage science, not a clinical trial accepting patient enrollment.
- Some NIH-funded labs run parallel clinical studies or seek volunteers for related work. To check, contact the principal investigator or institution listed above.
- For full project details, budget, and progress reports, visit the official NIH RePORTER page below.