“Medical-grade plantar pressure plate” is actually a very important type of testing equipment in sports rehabilitation, medical research, and sports science:
I. Product Functions and Features
Dynamic gait detection
It can capture in real time the plantar pressure distribution during walking and running.
It collects data such as step frequency, stride length, and gait symmetry, forming visualized curves and heat maps.
High-precision sensing
It usually adopts a high-density pressure sensor matrix, with high sampling frequency (≥100Hz), meeting clinical-level testing requirements.
It can identify subtle differences in plantar pressure, supporting medical diagnosis.
Combination of medicine and sports
It can not only assist in orthopedics and rehabilitation medical research, but also guide athlete training and injury prevention.
II. Application Scenarios
Sports science institutes / sports research institutions
Used for athlete gait evaluation and running economy analysis.
Provides training data support, optimizes movement posture, and reduces injury risks.
Hospital rehabilitation departments / orthopedics
Used for clinical gait analysis, assisting in the diagnosis of flatfoot, varus/valgus, diabetic foot, etc.
Combined with rehabilitation programs, it tracks recovery effects.
Orthopedic shoes / fitness centers
Provides data for custom insole or footwear design.
Helps sports enthusiasts understand their own gait characteristics.
III. Typical Advantages
Dynamic vs. static: Traditional static pressure plates can only show standing pressure distribution, while medical-grade equipment supports complete dynamic gait detection, closer to real movement.
Quantitative data: Not only “feeling” and “experience,” but providing quantitative parameters, with high value for research and clinical use.
Visualized results: Heat maps, dynamic trajectories, and three-dimensional models, intuitive and easy to understand.
“Medical-grade plantar pressure plate, supporting dynamic gait detection, is widely applied in sports science research, rehabilitation medicine, and orthopedic shoe design. Through high-precision sensors capturing plantar pressure distribution, it provides scientific data support and a reliable basis for improving athletic performance and disease prevention.”
