Applications:
- Shaped to fit easily inside most types of flat or low-heeled women and men’s footwear
- Lab job description:
- 3D scanning foam box impression or plaster cast
- Designing done by Ortho-model software™
- Milled and cut polypropylene material
- 14-16 mm deep heel cup
- Full length PPT with variety of top cover material
- Optional full back cover
Optional Shell Materials:
- High density polypropylene
- Carbon-flex (very rigid)
- Co-polymer
Applications: Men’s casual and dress shoes
Lab Job Description:
- 3D scanning foam box impression or plaster cast
- Designing done by Ortho-model software™
- Milled and cut polypropylene material
- 10mm deep heel cup
- Narrow functional grind
- PPT Cushion heel to end of shell
- Vinyl Top Cover
- Full back cover optional
Optional shell material
- 2mm Carbon Flex
Application: Women’s dress and casual shoes
Lab Job Description:
- Flat heel cup or less than 10mm deep heel cup
- Thin PPT cushioning on shell orthotics
- Full length vinyl topcover
- Full length back cover optional
Application: Suitable for wide-fitting lace-up shoes, runners, sports. Specially designed for skate, ski, soccer and other intensive sports.
Lab Job Description:
- 3D Scanning from foam impression or plaster cast
- Designing sport orthotics by new ortho-model™ software
- Milled polypropylene
- 14-16mm deep heel cup to control ankle foot movement
- Full length 1.5mm PPT and 1.5mm sports mesh top cover
- Extrinsic rear foot posting for stability optional
Optional Shell Materials
- Carbon Flex
- High Density polypropylene
- Co-polymer
Application: Suitable for men, ladies and youth who are physically active and requires maximum shock absorption and comfort
Input – Image: Sports Marathon 3D img
Lab Job Description
- 3D scanning foam box or plastercast
- Designed by Ortho-model™ software
- Milled polypropylene
- EVA arch support
- Full-length neoprene or combination of 3mm PPT and sports mesh top cover
- Sandwich back cover
Optional Shell Material
- High density polypropylene
- Carbon flex
- Co-polymer
Application: Suitable for runners and athletes or individual who are very active. Also specially designed for patients suffering from arthritis and diabetes.
Lab Job Description
Job Description
- 3D scanning foam box or plaster cast
- Designed by Ortho-model™ software
- Milled polypropylene
- EVA arch support
- 14-16mm deep heel cup
- Soft EVA arch fill for improved shock absorption
- Full-length neoprene or combination of 3mm PPT and sports mesh top cover
- Sandwich back cover
Application: Suitable for runners and athletes or individual who are very active. Also specially designed for patients suffering from arthritis and diabetes.
Lab Job Description
Job Description
- 3D scanning foam box or plastercast
- Designed by Ortho-model™ software
- Milled low-density polypropylene
- Combination of hard EVA and low density EVA
- Full-length neoprene or combination of 3mm PPT and sports mesh top cover
- Sandwich back cover
Optional Shell Materials:
- Red subortholyne
- Co-polymer
Applications: Most Men’s and Ladies casual wide shoes, hiking, walking, work boots. Also good for arthritic and hypersensitive feet. Good for diabetics.
Lab Job Description
- 3D scanning foam impression or plaster cast
- Designed by Ortho-model™ software
- Milled from medium density EVA
- 16mm Deep heel cup
- Full length ppt and plastozot
- Full back cover
U.C.B.L
Applications:
- Kids with Flat Feet
- Adult with Fallen Arches
- Athletes with extreme over-pronation
- Lab Description
- 3D Scanning Foam Box, Plaster Cast
- Special Designed UCBL orthotics
- Milled Medium Density Polypropylene
- Kids Top Cover
- Rear Foot Posting Optional
- 25-30 mm Deep Heel Cup
Shell Material
- Co-Polymer
- Subo
Diabetic :
Application:
- Diabetic Feet
- Athletic
- Lab Description:
- 3D Scanning foam Box, Plaster Cast
- Special Designing for Diabetic Orthotics
- Milled Low Density Polypropylene
- 1.5 mm PPT and 3m Special Soft Plastazote
- Top Cover _ Optional
- 16mm Deep Heel Cup
Shell Material
- Co-Polymer
- Subo
- EVA Medium Density