Our Guide to Microprocessor Controlled Prosthetic & How it Works

From wooden legs to high-tech prostheses thanks to state-of-the-art resources, technology continues to revolutionize the development of prosthetic devices. It continues to evolve as applied science continues to evolve by the year, enriching the lives of amputees with the rise of computer-aided prosthetics. 

One of the most anticipated is the microprocessor-controlled prosthetics, a so-called “smart” version of prostheses. The device aims to improve mobility, reduce risks of falls, and overall enhance the quality of life for its wearers. 

How Microprocessor Technology Works 

Computerized prosthetics are built with a microprocessor, software, sensors, a hydraulic, pneumatic resistance system, and a battery. All the components worth in conjunction to enhance the amputee’s stability. Detecting environmental changes, for instance, is now possible due to the sensor monitors. 

It can evaluate different surfaces and speeds, which automatically adjusts the resistance to the bending and extension of the knee. This feedback calibrates the walking speed suitable for the terrain. With this feature, the wearer can quickly recover from any stumbles and have better control over their movements. 

Microprocessor Technology Promotes a New Level of Independence 

Microprocessor-controlled prosthetics opens up new opportunities for amputees as it gives them control over their swing and stance phases. With the ability to walk faster, slower, or go down and up the stairs with a natural gait, the wearers can enjoy a new level of independence. 

The feedback goes through multiple sensors 100 times a second, which means you can make adjustments with your next step in real-time. This recreates a controllable free-swinging motion with reliable stability with each move you make. It features the following benefits: 

  1. Stumble Recovery 

The revolutionary motor sensors inside the prosthetics can detect movements in real-time, which means it can sense if you’re in a high-risk position. For instance, if you’re about to trip, the microprocessor-controlled prostheses will harden up to act as support. This allows you to recover quickly, while the prostheses will normalize once it detects you’re back in a secure stance. 

  1. Extra Durability and Anti-Slip Features

Microprocessor-controlled prosthetic devices are built with a hard exterior to protect the hardware from environmental risks like scratches or dents. It also has an anti-slip feature to enhance the wearer’s stability when kneeling, all while improving user experience as the prostheses is easy to put on and take off. 

Microprocessor Technology as a Cutting Edge Solution

Microprocessor technology is a revolutionary step towards biological systems as it enhances the lives of amputees like never before. For one, the microprocessors are customizable, which means patients can fine-tune the device to match their natural gait. 

It also boasts of other features that help amputees adjust their walking speed along with a secure controlled recline for sitting positions. 

In Conclusion 

Microprocessor technology achieves a prosthetic milestone as it promotes a reliable and smooth interaction between the mechanics, electronics, and the user. With this advancement, amputees can reap the benefits of dynamic motors as they can adjust movements, normalize their gait, and achieve stability with the help of real-time electronics and high-resolution sensors. 

If you are looking for foot prosthesis solutions, get in touch with us to see how we can help.