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The biomechanical effects of 3D printed and traditionally made foot orthoses in individuals with unilateral plantar fasciopathy and flat feet

Malia Ho, Julie Nguyen, Luke Heales, Robert Stanton, Pui Wah Kong, Crystal O. Kean

2022Gait & Posture30 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Foot orthoses (FOs) are used to manage foot pathologies such as plantar fasciopathy. 3D printed custom-made FOs are increasingly being manufactured. Although these 3D-printed FOs look like traditionally heat-moulded FOs, there are few studies comparing FOs made using these two different manufacturing processes. RESEARCH QUESTION: How effective are 3D-printed FOs (3D-Print) compared to traditionally-made (Traditional) or no FOs (Control), in changing biomechanical parameters of flat-footed individuals with unilateral plantar fasciopathy? METHODS: Thirteen participants with unilateral plantar fasciopathy walked with shoes under three conditions: Control, 3D-print, and Traditional. 2 × 3 repeated measures analysis of variance (ANOVAs) with Bonferroni post-hoc tests were used to compare discrete kinematic and kinetic variables between limbs and conditions. Waveform analyses were also conducted using statistical parametric mapping (SPM). RESULTS: =0.54). There was 0.87 mm (95% CI [-1.84, -0.20]) less arch height drop in 3D-print compared to Traditional. The SPM analyses revealed condition main effects on ankle moment (p < 0.001) and ankle power (p < 0.001). There were significant differences between control condition and both 3D-print and Traditional conditions. For ankle moment and power, there were no differences between 3D-print and Traditional conditions. SIGNIFICANCE: 3D-printed FOs are more effective in reducing arch height drop, whist both FOs lowered ankle plantarflexion moment and power compared to no FOs. The results support the use of 3D-printed FOs as being equally effective as traditionally-made FOs in changing lower limb biomechanics for a population of flat-footed individuals with unilateral plantar fasciopathy.

Topics & Concepts

AnkleBonferroni correctionRepeated measures design3d printedPost hocFoot (prosody)MedicineAnalysis of varianceKinematicsPost-hoc analysisPhysical medicine and rehabilitationMathematicsOrthodonticsSurgeryBiomedical engineeringStatisticsPhilosophyClassical mechanicsLinguisticsPhysicsLower Extremity Biomechanics and PathologiesFoot and Ankle SurgeryDiabetic Foot Ulcer Assessment and Management
The biomechanical effects of 3D printed and traditionally made foot orthoses in individuals with unilateral plantar fasciopathy and flat feet | Litcius