🦿 Microprocessor

Controlled Knee & Foot Prosthetics

🦿 Microprocessor-Controlled Knee & Foot Prosthetics

Integral to the Future of Intelligent Prosthetics & Orthotics

Prosthetic and Orthotic Clinic Mission Statement

The Prosthetic and Orthotic Clinic was established by a dedicated team of healthcare professionals, engineers, and educators with a unified mission:

To bridge the gap between advanced prosthetic and orthotic technology and the increasing global demand for skilled practitioners who can provide life-changing solutions.

As the need for intelligent, adaptive prosthetic and orthotic devices continues to rise, so does the necessity for specialized care that integrates medical expertise, biomechanics, and innovative technology. Our clinic was created to meet this demand, offering comprehensive services that enhance the quality of life for our patients through personalized prosthetic and orthotic solutions.

What Makes Us Unique

At our clinic, we specialize in next-generation prosthetic and orthotic care, with a strong focus on microprocessor-controlled knee and foot prosthetics. These advanced systems are engineered to restore natural movement, boost confidence, and improve the overall quality of life for individuals with limb loss or mobility challenges.

🔧 What Makes Our Intelligent Prosthetics Different?

🌟 Adaptive Technology

Our prosthetic systems use real-time sensors and smart algorithms to continuously adapt to your walking speed, terrain, and body movement—creating a smoother, more natural gait with greater stability.

🧍‍♂️ Personalized Fit and Function

Every prosthetic is custom-tailored to match your lifestyle, activity level, and medical needs. Whether you’re navigating daily routines or pursuing an active lifestyle, your device is designed just for you.

🧗 Advanced Mobility Features

Navigate ramps, stairs, and uneven ground with ease. Our devices automatically adjust to inclines, declines, and surface changes—reducing the risk of falls and improving confidence with every step.

📲 User-Friendly Controls

With intuitive interfaces and smart feedback systems, users can monitor performance, fine-tune settings, and stay in control of their mobility journey.

🤝 Comprehensive Support & Training

Our team of specialists is here for you at every step—from initial fitting to long-term follow-up care. We provide hands-on training, education, and adjustments to ensure you get the most from your prosthesis.

💡 Innovation Backed by Compassion

We combine leading-edge technology with personalized, compassionate care. Our mission is to help every patient reclaim independence, confidence, and movement—on their own terms.

Whether you’re seeking your first prosthesis or upgrading to the latest intelligent system, our clinic is here to guide, support, and empow

🧬 How the Technology Works

Each prosthesis includes:

Sensors: Detect changes in motion, joint angle, and pressure
Microprocessor (MPU): Processes data and adjusts the prosthetic in milliseconds
Actuators or Hydraulic Systems: Respond to the microprocessor’s instructions, changing resistance or positioning
Battery & Control Interface: Powers the device and allows users/clinicians to fine-tune settings via app or Bluetooth

Frequently Asked Questions

1. What is a microprocessor-controlled prosthetic?

A microprocessor-controlled prosthetic is an advanced artificial limb that uses sensors and a computer chip (microprocessor) to adapt the prosthesis in real time, improving stability, movement, and energy efficiency for the user.

2. How does it differ from a mechanical prosthetic?

Unlike mechanical prosthetics, which have fixed movement patterns, microprocessor-controlled prosthetics actively respond to walking speed, terrain, and activity level. They can adjust resistance and provide a more natural gait.

3. Who is a good candidate for this type of prosthetic?

These prosthetics are ideal for:

Above-knee amputees (transfemoral)
Active individuals who walk on uneven terrain or need to navigate stairs and slopes
Users seeking increased safety and stability

4. What are the benefits of a microprocessor knee or foot?

Improved balance and stability
Reduced risk of falls
Smoother and more natural walking motion
Greater adaptability to different walking speeds and environments
Less energy expenditure while walking

5. Are microprocessor knees and feet waterproof?

Some models are water-resistant or waterproof, but this varies. Always check the specific model’s guidelines before exposure to water.

6. Do they require charging or batteries?

Yes, these devices require regular charging. Battery life typically ranges from 1 to 5 days depending on the model and usage.

7. Can the prosthetic be customized or adjusted for different activities?

Yes! Many microprocessor prosthetics have multiple modes for walking, cycling, or even light jogging. These can often be adjusted via a mobile app or by a prosthetist.

8. How long do they last?

Most microprocessor knees and feet have a lifespan of 5–7 years with proper maintenance, though battery life and software updates may influence this.