Simulation of the mechanical interlocking capacity of a rough bone implant surface during healing
Artikel i vetenskaplig tidskrift, 2015

Background: When an implant is inserted in the bone the healing process starts to osseointegrate the implant by creating new bone that interlocks with the implant.
Biomechanical interlocking capacity is commonly evaluated in in vivo experiments. It would be beneficial to find a numerical method to evaluate the interlocking capacity
of different surface structures with bone. In the present study, the theoretical interlocking capacity of three different surfaces after different healing times was evaluated by
the means of explicit finite element analysis.
Methods: The surface topographies of the three surfaces were measured with interferometry and were used to construct a 3D bone-implant model. The implant
was subjected to a displacement until failure of the bone-to-implant interface and the maximum force represents the interlocking capacity.
Results: The simulated ratios (test/control) seem to agree with the in vivo ratios of Halldin et al. for longer healing times. However the absolute removal torque values are
underestimated and do not reach the biomechanical performance found in the study by Halldin et al. which might be a result of unknown mechanical properties of the interface.
Conclusion: Finite element analysis is a promising method that might be used prior to an in vivo study to compare the load bearing capacity of the bone-to-implant interface
of two surface topographies at longer healing times.

Bone healing


Bone-to-implant interface shear strength



Anders Halldin

DENTSPLY Implants, Mölndal, Sweden

Malmö universitet

Mats Ander

Chalmers, Tillämpad mekanik, Material- och beräkningsmekanik

Magnus Jacobsson

Malmö universitet

DENTSPLY Implants, Mölndal, Sweden

Stig Hansson

DENTSPLY Implants, Mölndal, Sweden

BioMedical Engineering Online

1475-925X (ISSN)

Vol. 14 45 1-13


Teknisk mekanik

Biomedicinsk laboratorievetenskap/teknologi

Annan medicinsk bioteknologi

Medicinsk bildbehandling


Livsvetenskaper och teknik