Qadam Poron Met Pads are self-adhesive metatarsal pads designed to provide targeted cushioning, pressure relief, and forefoot support within orthotics and footwear. Made from high-quality Poron material, these pads offer long-lasting resilience and shock absorption, helping improve comfort for patients who experience forefoot strain, metatarsal pressure, or general foot fatigue.
The peel-and-stick backing allows quick, secure application to orthotic devices, insoles, or suitable footwear interiors. Once positioned, the pad adheres firmly to help reduce shifting during wear, making it practical for both clinical fitting and patient-specific comfort adjustments.
For orthotic and prosthetic clinicians, podiatrists, rehabilitation providers, and technicians, Qadam Poron Met Pads offer a simple and effective way to fine-tune orthotic comfort without remaking the full device. They can be used to support the metatarsal area, help redistribute pressure, and improve patient tolerance during everyday walking and standing.
Key Features
- Self-adhesive Poron metatarsal pads
- Peel-and-stick backing for quick application
- Provides targeted forefoot support and cushioning
- Helps relieve metatarsal pressure and strain
- Offers shock absorption and pressure relief
- Designed to stay securely in place during wear
- Suitable for orthotics, insoles, and appropriate footwear
- Practical for clinical use and at-home comfort adjustments
Clinical Applications
- Metatarsal support
- Forefoot pressure relief
- Ball-of-foot cushioning
- Foot fatigue reduction
- Shock absorption during walking and standing
- Orthotic modification and fine-tuning
- Sensitive or pressure-prone forefoot areas
- Everyday footwear comfort
Product Positioning
Qadam Poron Met Pads are ideal for clinicians and technicians who need a simple, durable, and effective forefoot cushioning addition for orthotics and insoles. Their Poron construction, peel-and-stick application, and pressure-relieving design make them a practical choice for improving patient comfort and orthotic performance.
