12898
3899
9889
8969
16889
6669
89899
18889
Key Features:
1.Antimicrobial, Moisture-Wicking Top Layer:
The top layer uses an eco-friendly, water-resistant, and mildew-treated yarn. Its cross-vented fiber structure rapidly absorbs sweat (within 1-3 seconds) and channels it into the 3D-printed breathable layer below, ensuring the foot surface remains dry. For diabetic feet prone to skin breakdown, maintaining dryness is essential to prevent sores and bacterial infections.
2. 3D-Printed Breathable Layer:
Made from 99% antimicrobial TPU with a 65-75% porosity, this layer uses a customizable 3D lattice design to evenly distribute pressure and provide gentle cushioning. By easing stress on vulnerable areas and improving airflow, it helps reduce the risk of diabetic foot ulcers, maintaining a stable, comfortable environment that can help prevent further complications.
3. Moisture-Absorbing & Massaging Foam Layer:
The open-cell foam, capable of holding up to 280% of its weight in moisture, efficiently locks in sweat. Pyramid-shaped protrusions gently massage the foot, stimulating circulation and promoting even pressure distribution. Improved blood flow and reduced pressure points are crucial for diabetic feet, helping to prevent skin breakdown and encouraging healthier tissue.
4. Rapid-Drying Layer with Laval System:
Employing 800-1000 specialized drainage holes and a 3D-printed Laval nozzle system, this layer swiftly channels moisture downward. Rapid drying is vital for diabetic foot health, as it reduces the likelihood of fungal or bacterial growth that can lead to infections or slow wound healing.
5. Automatic Air-Drying System:
Equipped with 32 air bladders, 12 airflow channels, and over 2,000 microstructures, every step generates 4-6 milliliters of airflow to enhance evaporation. This automatic ventilation keeps the insole dry and hygienic, significantly minimizing conditions that could trigger sores or exacerbate existing diabetic foot complications.
6. Customizable Functional Inserts:
By selecting from Ortholite foam, high-rebound materials, ACF cushioning, or silicone inserts, the insole can be tailored to individual needs. Adequate arch support and shock absorption help reduce stress on sensitive diabetic foot areas, promoting proper alignment and preventing excessive friction or pressure that may lead to ulceration.
7. Health Therapy Features:
Optional therapeutic elements—such as energy chips, magnetic materials, or terahertz components—can be integrated to encourage better circulation and maintain ion balance. Enhanced blood flow is especially beneficial for diabetic patients, as improved circulation can support healing, reduce inflammation, and maintain healthier tissues.
8. Medicinal Patch Application:
The insole can be fitted with therapeutic patches that release active compounds through foot warmth and pressure. Anti-inflammatory or healing agents can be targeted directly at problem areas, helping to manage pain, improve wound healing, and reduce the risk of infection—critical considerations for diabetic foot care.
9. Micro-Intelligent Arch Support & Carbon Fiber Stability:
Ergonomically contoured arch grooves, supportive protrusions, and an integrated carbon fiber plate ensure even weight distribution and proper foot alignment. For diabetic feet, reducing uneven pressure and excessive loading on certain areas is paramount. Proper alignment helps decrease the likelihood of hotspots, calluses, and ulcers, ultimately maintaining better foot health.
By integrating these nine layers and features, the diabetic-focused insoles offer a comprehensive solution aimed at minimizing moisture, redistributing pressure, enhancing circulation, and supporting therapeutic measures. This holistic approach helps safeguard diabetic feet, reduce the risk of complications, and improve overall comfort and mobility.
Frequently Asked Questions
89%would recommend these products
Reviews with images or video
Read reviews that mention
111
2
0 Reviews
0 Reviews
Key Features
Specification
1.Antimicrobial, Moisture-Wicking Top Layer:
The top layer uses an eco-friendly, water-resistant, and mildew-treated yarn. Its cross-vented fiber structure rapidly absorbs sweat (within 1-3 seconds) and channels it into the 3D-printed breathable layer below, ensuring the foot surface remains dry. For diabetic feet prone to skin breakdown, maintaining dryness is essential to prevent sores and bacterial infections.
2. 3D-Printed Breathable Layer:
Made from 99% antimicrobial TPU with a 65-75% porosity, this layer uses a customizable 3D lattice design to evenly distribute pressure and provide gentle cushioning. By easing stress on vulnerable areas and improving airflow, it helps reduce the risk of diabetic foot ulcers, maintaining a stable, comfortable environment that can help prevent further complications.
3. Moisture-Absorbing & Massaging Foam Layer:
The open-cell foam, capable of holding up to 280% of its weight in moisture, efficiently locks in sweat. Pyramid-shaped protrusions gently massage the foot, stimulating circulation and promoting even pressure distribution. Improved blood flow and reduced pressure points are crucial for diabetic feet, helping to prevent skin breakdown and encouraging healthier tissue.
4. Rapid-Drying Layer with Laval System:
Employing 800-1000 specialized drainage holes and a 3D-printed Laval nozzle system, this layer swiftly channels moisture downward. Rapid drying is vital for diabetic foot health, as it reduces the likelihood of fungal or bacterial growth that can lead to infections or slow wound healing.
5. Automatic Air-Drying System:
Equipped with 32 air bladders, 12 airflow channels, and over 2,000 microstructures, every step generates 4-6 milliliters of airflow to enhance evaporation. This automatic ventilation keeps the insole dry and hygienic, significantly minimizing conditions that could trigger sores or exacerbate existing diabetic foot complications.
6. Customizable Functional Inserts:
By selecting from Ortholite foam, high-rebound materials, ACF cushioning, or silicone inserts, the insole can be tailored to individual needs. Adequate arch support and shock absorption help reduce stress on sensitive diabetic foot areas, promoting proper alignment and preventing excessive friction or pressure that may lead to ulceration.
7. Health Therapy Features:
Optional therapeutic elements—such as energy chips, magnetic materials, or terahertz components—can be integrated to encourage better circulation and maintain ion balance. Enhanced blood flow is especially beneficial for diabetic patients, as improved circulation can support healing, reduce inflammation, and maintain healthier tissues.
8. Medicinal Patch Application:
The insole can be fitted with therapeutic patches that release active compounds through foot warmth and pressure. Anti-inflammatory or healing agents can be targeted directly at problem areas, helping to manage pain, improve wound healing, and reduce the risk of infection—critical considerations for diabetic foot care.
9. Micro-Intelligent Arch Support & Carbon Fiber Stability:
Ergonomically contoured arch grooves, supportive protrusions, and an integrated carbon fiber plate ensure even weight distribution and proper foot alignment. For diabetic feet, reducing uneven pressure and excessive loading on certain areas is paramount. Proper alignment helps decrease the likelihood of hotspots, calluses, and ulcers, ultimately maintaining better foot health.
By integrating these nine layers and features, the diabetic-focused insoles offer a comprehensive solution aimed at minimizing moisture, redistributing pressure, enhancing circulation, and supporting therapeutic measures. This holistic approach helps safeguard diabetic feet, reduce the risk of complications, and improve overall comfort and mobility.
Below is a table summarizing the layers, materials, design features, and key benefits of the diabetic-focused insoles:
| Layer/Feature | Materials & Characteristics | Design Features | Key Benefits for Diabetic Feet |
| Antimicrobial, Moisture-Wicking Top Layer | Eco-friendly, mildew-resistant yarns | 50-60% porosity, >95% moisture permeability, rapid (1-3s) sweat absorption | Maintains a dry surface, reducing the risk of skin breakdown and infection |
| 3D-Printed Breathable Layer | 99% antimicrobial TPU with high porosity (65-75%) | Customizable 3D lattice structure, ~1.2 mm thick, ergonomic fit | Even pressure distribution, enhanced airflow, reduces stress on sensitive areas, helps prevent ulcers |
| Moisture-Absorbing & Massaging Foam Layer | Open-cell foam (absorbs up to 280% of its weight in moisture) | Pyramid-shaped protrusions, micro-channels for even moisture dispersal | Quickly locks in sweat, improves circulation through gentle massage, relieves pressure points, promotes tissue health |
| Rapid-Drying Layer with Laval System | Specialized drainage holes (800-1000), 3D-printed Laval nozzles | Downward moisture flow design, aerodynamic drainage | Swift moisture removal, prevents bacterial/fungal growth, supports a clean and healthy environment |
| Automatic Air-Drying System | 32 air bladders, 12 ventilation channels, 2000+ microstructures | Pressure-driven airflow (4-6 ml/step), continuous evaporation | Maintains dryness and reduces the conditions for sores or infection, ensuring consistent comfort |
| Customizable Functional Inserts (Optional) | Ortholite foam, ACF foam, silicone, high-rebound materials | Interchangeable inserts tailored for arch support, shock absorption | Adapts to individual needs, reduces excessive pressure, improves foot alignment, helps prevent ulceration |
| Health Therapy Features (Optional) | Energy chips, magnets, terahertz materials, antimicrobial ion spheres | Integrated into independent air pockets | Enhances circulation, promotes healing, balances energy for improved foot health and wound recovery |
| Medicinal Patch Application (Optional) | Various therapeutic patches (anti-inflammatory, healing agents) | Heat-activated, absorbed via foot warmth and pressure | Targeted relief of pain, inflammation, and infection risk, aiding wound healing and tissue maintenance |
| Micro-Intelligent Arch Support & Carbon Fiber Stability | Ergonomic arch grooves, carbon fiber reinforced plate | Even weight distribution, suitable for multiple foot types | Maintains proper alignment, reduces pressure hotspots, decreases risk of calluses and ulcers |
Overall Advantage:
These diabetic-focused insoles integrate advanced moisture management, balanced pressure distribution, customizable support, and optional therapeutic elements. By providing a stable, hygienic, and circulation-friendly environment, they help protect diabetic feet, minimize the risk of complications, and support overall foot health.
Related Searches & Categories
