26isfam052
10.3205/26isfam052
urn:nbn:de:0183-26isfam0528
Meeting Abstract
Biofiligree<Superscript>®</Superscript>: Reimagining Osteosynthesis Plates as Biomedical and Aesthetic Artefacts
Noronha
Noronha
Olga
O
esad.idea - research in design and art
author
Coelho
Coelho
Rafael
R
esad.idea - research in design and art
author
Simoes
Simoes
Orlando
O
Faculdade de Medicina da Universidade do Minho, Braga
author
Ramos
Ramos
Antonio
A
Universidade de Aveiro
author
Simoes
Simoes
Jose
J
Hospital São Francisco, Porto
author
German Medical Science GMS Publishing House
Düsseldorf
610
20260612
engl
This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 License.
Dieser Artikel ist ein Open-Access-Artikel und steht unter den Lizenzbedingungen der Creative Commons Attribution 4.0 License (Namensnennung).
M0652
052
International Society for Arts and Medicine
The Healing Arts – Forging Alliances of Arts & Medicine
Presentation Abstracts
Berlin
20260618
20260620
26isfam052
TextConventional osteosynthesis plates provide reliable mechanical fixation for bone fracture healing; however, patient recovery is often experienced as a purely clinical process, functionally effective but emotionally detached. Recent intersections between medicine, engineering, art and design suggest opportunities to expand fracture treatment beyond biological repair, incorporating patient identity, participation, and emotional well-being. Within this context, this study introduces Biofiligree®, a novel fixation concept that reimagines osteosynthesis plates as both biomedical implants and aesthetic artefacts. Inspired by traditional Portuguese filigree, Biofiligree® integrates ornamental geometry into load-bearing fixation devices, enabling patient-driven personalisation through selectable patterns, motifs, and engravings. Following fracture consolidation and implant removal, the plate may be transformed into wearable jewellery, preserving it as a symbolic marker of recovery rather than disposable medical hardware.This work presents proof-of-concept biomechanical evaluations of Biofiligree® plates applied to two clinical scenarios: ulna and calcaneal fracture fixation. Finite element simulations were conducted to compare intact bone models, commercial fixation plates, and Biofiligree® designs, assessing stress distribution and micromotion at the fracture site. In addition, experimental mechanical testing was performed on synthetic composite calcaneus models using stainless steel 316L Biofiligree® plates and commercial equivalents.Results demonstrate that Biofiligree® plates provide stable fixation with controlled micromotion compatible with secondary bone healing. These findings indicate that Biofiligree® offers a clinically viable and conceptually innovative approach to osteosynthesis, illustrating how fixation devices may evolve from purely functional hardware into artefacts that unite healing, identity, and design.
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