One of the rehabilitation alternatives for fingers injuries is to use a finger splint. Some existing finger splint models still use excessive material, and the size is not appropriate. The purpose of this study was to propose a customized sleeve finger splint model with a conical shape along with the finger surface from the proximal phalanges to the distal phalanges. Design optimization using topology optimization was carried out to reduce mass and volume while maintaining the stress strength of the model. The stages of the method in this research were modeling design, preprocessing analysis, topology optimization, and postprocessing analysis. Topology optimization design was set with 70% mass in response constraint. The analysis results showed a significant reduction in the model mass of 42.18%, from 6.78 grams to 3.92 grams. Meanwhile, the maximum equivalent stress increased slightly by 3.42%, from 8.12 MPa to 8.4 MPa. Even though there was an increase in equivalent stress after topology optimization, the sleeve finger splint model was still categorized as safe, with a safety factor of 3.39.

S. Yarar, J. M. Rueger, and C. Schlickewei, “Finger injuries in ball sports,” Unfallchirurg, vol. 118, no. 6, pp. 496–506, 2015.

D. T. Netscher, D. T. Pham, and K. G. Staines, "Finger injuries in ball sports," Hand Clin., vol. 33, no. 1, pp. 119–139, 2017.

N. Qosim, R. Monasari, Z. F. Emzain, L. Hakim, and A. Sai'in, "Finite Element Analysis of Miniplate for Post-Fracture Finger Rehabilitation Device," J. Appl. Eng. Technol. Sci., vol. 2, no. 1, pp. 21–26, 2020.

J. P. Y. Cheung, B. Fung, and W. Y. Ip, "Review on mallet finger treatment," Hand Surg., vol. 17, no. 03, pp. 439–447, 2012.

J. S. Lin and J. B. Samora, "Surgical and nonsurgical management of mallet finger: a systematic review," J. Hand Surg. Am., vol. 43, no. 2, pp. 146–163, 2018.

L. O'Brien, "Adherence to therapeutic splint wear in adults with acute upper limb injuries: a systematic review," Hand Ther., vol. 15, no. 1, pp. 3–12, 2010.

L. J. O'Brien and M. J. Bailey, "Single blind, prospective, randomized controlled trial comparing dorsal aluminum and custom thermoplastic splints to stack splint for acute mallet finger," Arch. Phys. Med. Rehabil., vol. 92, no. 2, pp. 191–198, 2011.

S. Nasseri, V. K. Castellano, and M. Kotwal, "On Fabrication and Mechanical Testing of a New Finger Support," 2018.

H. Choi, A. Seo, and J. Lee, "Mallet Finger Lattice Casts Using 3D Printing," J. Healthc. Eng., vol. 2019, 2019.

A. Zolfagharian, T. M. Gregory, M. Bodaghi, S. Gharaie, and P. Fay, "Patient-specific 3D-printed splint for mallet finger injury," Int. J. Bioprinting, vol. 6, no. 2, 2020.

A. Gupta, S. Chaturvedi, A. K. Bhat, and M. Samheel, "Design and Manufacture of Customizable Finger Immobilizer and Mallet Finger Splints," in 2019 International Conference on Biomedical Innovations and Applications (BIA), 2019, pp. 1–4.

Y.-S. Yang, Z. F. Emzain, and S.-C. Huang, "Biomechanical Evaluation of Dynamic Splint Based on Pulley Rotation Design for Management of Hand Spasticity," IEEE Trans. Neural Syst. Rehabil. Eng., vol. 29, pp. 683–689, 2021.

Z. F. Emzain, S.-C. Huang, Y.-S. Yang, and N. Qosim, "Design and Analysis of a Dynamic Splint Based on Pulley Rotation for Post-Stroke Finger Extension Rehabilitation Device," Rekayasa Mesin, vol. 11, no. 3, pp. 477–485, 2020.

Z. F. Emzain, U. S. Amrullah, and A. M. Mufarrih, “Desain dan Analisis Elemen Hingga Model Prosthetic Ankle-Foot,” Infotekmesin, vol. 11, no. 2, pp. 87–93, 2020.

Z. F. Emzain, U. S. Amrullah, and A. M. Mufarrih, “Analisis elemen hingga untuk siklus berjalan pada model prostetik lentur pergelangan kaki,” J. POLIMESIN, vol. 18, no. 2, pp. 91–98, 2020.