Wong Julielynn Y
Toronto, Ontario, Canada.
Aerosp Med Hum Perform. 2015 Oct;86(10):911-4. doi: 10.3357/AMHP.4259.2015.
The first off-Earth fused deposition modeling (FDM) 3D printer is investigating acrylonitrile butadiene styrene (ABS) thermoplastic manufacturing applications for long-duration space missions. This study assessed the feasibility of FDM 3D printing ABS thermoplastic customized mallet splints on site for Mars analogue crewmembers.
Seven caliper measurements were taken of the right ring finger of 13 healthy Mars Desert Research Station mission crewmembers. These measurements were input into a free 3D modeling software program to create customized digital splint models. These digital files were uploaded to a desktop FDM 3D printer and custom splints were printed on site with ABS thermoplastic. Splint fit was assessed via subject feedback. Joint active range of motion was recorded when the splint was worn briefly.
The time it took the software program to digitally render each splint model was less than 2 min and 30 s. The print duration for the splints ranged from 21 to 29 min. All 13 subjects reported that their 3D printed custom mallet splints fit securely and comfortably. All splints permitted full active range of motion of the proximal interphalangeal joint (0-100°) while maintaining the distal interphalangeal joint in extension.
It is feasible to 3D print functional ABS thermoplastic custom mallet splints on site for Mars analogue crewmembers. This technology could be used clinically in the future when a custom mallet splint is required in a remote, resource-constrained setting.
首台地外熔融沉积建模(FDM)3D打印机正在研究用于长期太空任务的丙烯腈丁二烯苯乙烯(ABS)热塑性塑料制造应用。本研究评估了FDM 3D打印ABS热塑性塑料定制槌状指夹板供火星模拟任务船员在现场使用的可行性。
对13名健康的火星沙漠研究站任务船员的右手无名指进行了七次卡尺测量。这些测量数据被输入到一个免费的3D建模软件程序中,以创建定制的数字夹板模型。这些数字文件被上传到一台桌面FDM 3D打印机上,并在现场用ABS热塑性塑料打印定制夹板。通过受试者反馈评估夹板的贴合度。在短暂佩戴夹板时记录关节活动范围。
软件程序对每个夹板模型进行数字渲染的时间不到2分30秒。夹板的打印时间为21至29分钟。所有13名受试者报告称,他们的3D打印定制槌状指夹板佩戴牢固且舒适。所有夹板均允许近端指间关节充分活动(0-100°),同时保持远端指间关节伸直。
为火星模拟任务船员在现场3D打印功能性ABS热塑性塑料定制槌状指夹板是可行的。这项技术未来在偏远、资源有限的环境中需要定制槌状指夹板时可用于临床。
