A NEW APPROACH TO IMPLEMENT A CUSTOMIZED ANATOMIC INSOLE IN ORTHOPAEDIC FOOTWEAR OF LOWER LIMB ORTHOSIS J. Peixoto, P. Flores, A. P. Souto University.

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Presentation transcript:

A NEW APPROACH TO IMPLEMENT A CUSTOMIZED ANATOMIC INSOLE IN ORTHOPAEDIC FOOTWEAR OF LOWER LIMB ORTHOSIS J. Peixoto, P. Flores, A. P. Souto University of Minho, Guimarães, Portugal jjorge@det.uminho.pt pflores@dem.uminho.pt souto@det.uminho.pt

PRESENTATION OUTLINE Introduction Objectives Materials and Methods Results and Discussions Conclusions

Introduction The development of footwear associated with orthosis hasn’t received significant attention for the last twenty years. The authors, in previous papers have proposed several solutions, including laminating lining with hydrophilic membranes and functional products, to reduce or eliminate bromhidrosis (odourless). Waterproof property has been provided. Additional and relevant aspects to reduce or even eliminate the humidity inside footwear meanly in toe puffs, counters and insoles, were considered in the development of the orthopaedic footwear.

Introduction KAFO is a long leg brace that is made with many different materials, functions, and designs depending upon need. It can be used for multiple purposes, including severe knee ligament instability, muscle weakness, pain or fractures. Lower limb orthosis

Objectives This study deals with the design and development of a new customized insole to be employed on orthopaedic footwear. Anatomic insoles using a nonconventional methodology has been evaluated and consists of using a 3D scan system to digitalize the end user foot and a 3D printing to create a customized insole. This work is part of a broader research project that has been developed at the Textile and Mechanical Departments of the University of Minho. The main purpose is to develop a new manufacturing process of orthopaedic footwear.

Materials and Methods First phase of this work determinates the distribution of pressure on the patient’s feet during gait and it was measured using pressure plates. The dynamic measurements were performed individually for each foot. The characterization of the human gait attending to biomechanics motion for normal and pathological cases was performed which allowed the identification of the worst scenarios in terms of loads during human gait.

FootScan® 3D Gait Scientific 2m System Plate – Dinamic analisys Materials and Methods Study of the human gait cycle to characterized the dynamic loads generated during the different motion phases. PoData footboard Static analysis FootScan® 3D Gait Scientific 2m System  Plate – Dinamic analisys

Materials and Methods The 3D scan uses an innovative development of the implicit modelling method, Radial Basis Functions (RBF). An implicit modelling algorithm determines how known data points are used to imply (or estimate) unknown data points to create surfaces.

Materials and Methods Development of a customized anatomic insole by collecting feet’s data with a 3D scanner FastScan® and producing it with 3D printing.

Materials and Methods Fused Deposition Modelling (FDM) is the most common 3D printing method used in desktop 3D printing, using thermoplastic filament heated and extruded through an extrusion head that deposits the molten plastic in X and Y coordinates, while the build table lowers the object layer by layer in the Z direction.

Results and discussions Gait analysis The experimental data used in this biomechanical simulation was obtained in a human gait laboratory. A polio patient male of age 43, mass 93 kg and height 178 cm have been dressed with a special suit with 37 reflective markers attached, as illustrated. The polio patient was wearing a traditional KAFO orthosis on his right leg.

Results and discussions Gait analysis For the experimental procedure, the subjects walk on a walkway with two AMTI AccuGait force plates, located in such a way that each plate measures the ground reactions of one foot during the gait cycle. The motion is captured by an optical system composed by 12 Natural Point OptiTrack FLEX: V100 cameras (100 Hz).

Results and discussions Gait analysis It is possible to verify that the force applied on the right calcaneus is equal to 24.589 kg, which represents 78% of total weight on right leg. It is also possible to observe that the left leg of the user has a different forces distribution.

Results and discussions Gait analysis It is possible to verify that the force applied on the right calcaneus is equal to 24.589 kg, which represents 78% of total weight on right leg. It is also possible to observe that the left leg of the user has a different forces distribution. Parameters Left foot Right foot Total mass (kg) 91.386 Mass on left foot (kg) 59.787 x Mass on right foot (kg) 31.599 Mass of the 1st metatarsal (kg) 20.983 0.029 Mass of the 5th metatarsal (kg) 39.794 6.981 Mass of the calcaneus (kg) 0.990 24.589

Results and discussions Gait analysis The dynamic results associated with human gait for one foot normal and one foot with cavus foot pathology. Cavus foot pathology

Results and discussions Gait analysis The intensity of pressure increases from green to red colours. In the dynamic analysis it can be verified that the differences between right and left feet responses during the gait. It is also possible to observe the high pressure on right foot located in calcaneus zone. Left/normal foot Right/cavus foot

Conventional anatomic Insole prodution Conventional process to made an orthopaedic customized insole

Plantar surface New approach FastSCAN™ instantly acquires three-dimensional surfaces by gathering measurements made by smoothly sweeping a handheld laser scanning wand over.

Manufacturing process The figure show 3D printing manufacturing process of making three dimensional solid insole layer by layer. In this case the image is captured from 3D scanner of plantar foot of polio patient referenced in this study.

Footwear production

Conclusions The high potential of new technologies such as 3D scanner and 3D printer to produce anatomic insoles and how the static and dynamic analysis gait improve the prospective of developing high quality footwear to apply on orthosis has been demonstrated in this work. It must be highlighted that the new model is 25% lighter than the conventional footwear, which is a crucial issue in terms of user’s usability. Furthermore, based on the user’s experience it was reduced the fatigue during gait so the new approach is appropriate and functional for daily activities.  

Acknowledgements This work is supported by FEDER funding on the COMPETE program and by national funds through FCT Foundation for Science and Technology within the scope of the project POCI-01-0145-FEDER- 007136 and UID/CTM/00264.

Thank for your attention Acknowledgements Thank for your attention J. Peixoto, P. Flores, A. P. Souto University of Minho, Guimarães, Portugal Jjorge@det.uminho.pt pflores@dem.uminho.pt souto@det.uminho.pt