[DATA TITLE]: Finite element models through patient specific gait in people with haemophilia
[CREATORS]: Hattie Talbott and Marlène Mengoni, 2024, University of Leeds
[CITE AS]: Talbott H. and Mengoni M., 2024, [dataset] Finite element models through patient specific gait in people with haemophilia, doi: https://doi.org/10.5518/1520
[RIGHT HOLDER]: Copyright 2024 University of Leeds
[LICENSE]: This dataset is licensed under a Creative Commons Attribution 4.0 International Licence: https://creativecommons.org/licenses/by/4.0/.
[RELATED PUBLICATION]: Data associated with "Incorporating pathological gait into patient‑specific finite element models of the haemophilic ankle". 

[DESCRIPTION]: 
The data comprises Finite Element model files, analysis script for Abaqus 2017 and outputs of interest.
Each of the five ankle geometry, mesh and material properties in the study was extracted from data shared under CC-BY license (full Abaqus input files available): Talbott, Harriet and Mengoni, Marlene (2022) Subchondral bone cysts in the ankle: patient-specific finite element study data. University of Leeds. [Dataset] https://doi.org/10.5518/1207
The dataset contains an example of input file modification to simulate gait in a quasi-dynamic model.

Funding for this research was provided by the EPSRC (grant EP/R513258/1, project 2118904)

[CONTENT INFORMATION]:(see associated publication for detailed description)
example_gait_profile.inp: modifications necessary in the definition of loads, boundary conditions and step properties for a gait-driven simulation
ankle_outputs_odbRead.py: Abaqus Python script which allows analysis of the output databases created (generates outputs such as presented in subjectSpecificOutputs.csv)
subjectSpecificOutputs.csv: key contact and bone stress outputs for the patient-specific models for three ankles
contactPressureMaps.zip: figures of contact pressure maps for all five ankles for each gait event simulated