Learn how amputee athletes prevent injuries and optimize performance with proper training, recovery, and advanced sports prosthetics.

How Athletes with Prosthetics Prevent Injuries and Improve Performance

Athletes with prosthetic limbs push the limits of human potential, proving that limb loss does not mean the end of competitive sports. Whether sprinting, cycling, playing basketball, or engaging in high-impact activities, these athletes train hard to reach peak performance. However, using a prosthetic in sports requires special attention to injury prevention and physical conditioning.

A prosthetic limb is not just a replacement—it is a high-performance tool that needs to work in sync with the body. Proper training, conditioning, and injury prevention strategies are crucial to ensure smooth movement, reduce strain, and improve overall athletic ability. From muscle strengthening to prosthetic maintenance, every aspect of preparation plays a role in achieving success.

Athletes with prosthetic limbs rely on strength training to improve stability, endurance, and power. Unlike traditional training, they must focus on specific muscle groups that compensate for the missing limb and support the prosthetic.

Strength Training to Prevent Injuries and Boost Performance

Athletes with prosthetic limbs rely on strength training to improve stability, endurance, and power. Unlike traditional training, they must focus on specific muscle groups that compensate for the missing limb and support the prosthetic.

A well-conditioned body ensures smoother movement, reduces fatigue, and minimizes the risk of injuries caused by muscle imbalances.

Building Core Strength for Stability

The core is the foundation of movement. It controls balance, posture, and force generation. For amputee athletes, a strong core is even more important because it helps maintain stability when running, jumping, or shifting weight.

Weak core muscles can lead to poor posture, uneven weight distribution, and strain on the residual limb.

Core exercises such as planks, leg raises, and rotational movements strengthen the abdominal and lower back muscles, allowing athletes to move with greater control. When the core is strong, the prosthetic limb moves more naturally, reducing stress on other parts of the body.

Strengthening the Supporting Muscles

Athletes using prosthetic legs must develop strength in the hips, glutes, and lower back to compensate for the missing limb’s movement.

These muscles provide power for sprinting, jumping, and sudden changes in direction. Weakness in these areas can lead to instability, improper gait, and a higher risk of injury.

For upper-limb amputees, the shoulders, chest, and remaining arm play a crucial role in maintaining balance and control. Strengthening these muscles improves performance in sports like basketball, cycling, and weightlifting, where upper-body endurance is essential.

By targeting these supporting muscles, athletes create a strong foundation that allows them to move with more confidence and efficiency.

Preventing Muscle Imbalances

One of the biggest challenges for athletes with prosthetics is avoiding muscle imbalances. Since the prosthetic side does not have active muscles, the opposite side may become overworked. This can lead to uneven strain on the body, causing pain or even long-term injuries.

Strength training should focus on both sides of the body, ensuring that one side does not become significantly stronger than the other.

Using resistance bands, free weights, and controlled bodyweight exercises helps maintain even muscle development and prevents unnecessary stress on joints.

Regular assessment by a physical therapist or coach can help athletes adjust their training to correct imbalances and optimize performance. By focusing on strength and stability, they can move more efficiently, reduce the risk of injuries, and enhance their overall athletic ability.

A well-fitted prosthetic is just as important as strength training when it comes to preventing injuries and enhancing performance.

Optimizing Prosthetic Fit and Function for Injury Prevention

A well-fitted prosthetic is just as important as strength training when it comes to preventing injuries and enhancing performance.

Athletes put immense stress on their prosthetic limbs during high-impact activities, and even a small misalignment can lead to discomfort, strain, and potential injury.

Proper fit, alignment, and maintenance ensure that the prosthetic limb moves in harmony with the body, reducing unnecessary stress on muscles and joints.

The Importance of Proper Prosthetic Alignment

Prosthetic alignment affects everything from balance to movement efficiency. If a prosthetic knee or foot is slightly off in its positioning, it can create uneven weight distribution, leading to hip, knee, or back pain.

Athletes with lower-limb prosthetics must ensure that their socket fits snugly and that their knee and foot components are properly adjusted to match their gait.

For upper-limb athletes, the alignment of the prosthetic arm or hand plays a role in grip strength, shoulder stability, and control. A poorly aligned arm prosthetic can lead to overuse injuries in the remaining arm and back muscles.

Regular check-ups with a prosthetist ensure that adjustments are made based on changes in muscle development and training intensity.

Customization for Sport-Specific Movements

Athletes in different sports require different prosthetic setups. A sprinter needs a prosthetic leg that maximizes forward propulsion, while a rock climber needs a prosthetic with excellent grip and flexibility.

Customization allows athletes to fine-tune their prosthetic limbs to match their sport’s unique demands.

Some advanced prosthetic knees and feet come with adjustable settings that allow athletes to modify stiffness, resistance, and energy return. This level of customization helps prevent injuries by ensuring the prosthetic responds naturally to movement and impact.

For upper-limb amputees, customized attachments—such as grip-enhancing hands for weightlifting or flexible wrist joints for racket sports—allow for greater adaptability and performance.

By working closely with prosthetists and coaches, athletes can optimize their prosthetics to improve efficiency and reduce strain on their bodies.

Reducing Skin Irritation and Pressure Sores

One of the most common injury risks for amputee athletes is skin irritation or pressure sores caused by friction between the residual limb and the prosthetic socket.

Intense training sessions can lead to sweating, which increases the chances of chafing and discomfort. If left unaddressed, these issues can develop into painful sores that limit training and competition.

Using breathable liners, moisture-wicking materials, and ensuring proper socket fit can help reduce friction. Athletes should also check their skin daily for signs of redness or irritation and make adjustments to their prosthetic fit if needed.

Applying anti-friction creams and keeping the residual limb clean and dry further prevents irritation.

Routine Maintenance for Long-Term Performance

Like any high-performance equipment, prosthetic limbs require regular maintenance to function at their best. Loose joints, worn-out suspension systems, or damaged foot components can affect movement and increase the risk of falls or injuries.

Athletes should routinely inspect their prosthetic limbs for signs of wear and tear, ensuring that all parts are secure and functioning correctly.

A well-maintained prosthetic limb not only enhances performance but also ensures long-term safety. Regular servicing by a prosthetist and immediate adjustments to fit and alignment help athletes stay at their peak without unnecessary strain or risk of injury.

For athletes with prosthetic limbs, developing balance and coordination is essential to moving efficiently and preventing injuries.

Enhancing Mobility and Agility Through Balance and Coordination Training

For athletes with prosthetic limbs, developing balance and coordination is essential to moving efficiently and preventing injuries.

Unlike able-bodied athletes, amputees must learn to control their movement with an artificial limb that does not provide natural sensory feedback. This requires targeted training to improve body awareness, agility, and reaction time.

Training the Body to Move Naturally

One of the biggest challenges for amputee athletes is achieving natural movement patterns. When using a prosthetic, the body must compensate for the lack of muscle control in the artificial limb.

Without proper training, this can lead to inefficient movement and unnecessary strain on other body parts.

Balance training helps athletes develop better control over their weight distribution, allowing for smoother transitions between movements.

Exercises such as single-leg stands, weight shifts, and controlled stepping drills teach the body how to adapt to the prosthetic limb’s mechanics. Over time, these exercises improve stability and confidence in movement.

For upper-limb amputees, coordination drills that focus on hand-eye control, grip adjustments, and reaction speed enhance their ability to use their prosthetic arm naturally.

Activities like catching and throwing, resistance band exercises, and fine motor skill training help improve overall dexterity and control.

Improving Agility for High-Intensity Sports

Agility is crucial for sports that require quick direction changes, sudden stops, and fast reactions. Amputee athletes must train their bodies to move efficiently while adjusting to the unique biomechanics of their prosthetic limbs.

Agility ladder drills, cone drills, and quick footwork exercises help athletes develop faster reaction times and smoother transitions between movements. These exercises not only enhance sports performance but also reduce the risk of falls and missteps that can lead to injuries.

For sports that require explosive power, such as sprinting or basketball, plyometric training helps improve coordination between the prosthetic limb and the rest of the body.

Jump training, bounding exercises, and controlled landings strengthen the muscles that support the prosthetic, ensuring that movements are both powerful and safe.

Developing Proprioception for Better Body Awareness

Proprioception is the body’s ability to sense movement and position without visual feedback. For amputees, developing proprioception is vital because the prosthetic limb does not provide the same sensory feedback as a natural limb.

Athletes must rely on their remaining muscles, core stability, and visual awareness to maintain control.

Balance boards, stability balls, and uneven surface training force the body to make small adjustments in real time, improving coordination and reducing the likelihood of missteps.

Athletes who engage in regular proprioception training gain better control over their prosthetic limb, allowing for more fluid and confident movement.

As mobility and agility improve, athletes find it easier to perform complex movements, react quickly in game situations, and avoid injuries caused by instability or poor coordination.

These training techniques are essential for reaching peak performance while staying safe and efficient in motion.

Training hard and competing at a high level puts significant strain on the body, making recovery an essential part of an athlete’s routine.

Recovery and Injury Management for Prosthetic Athletes

Training hard and competing at a high level puts significant strain on the body, making recovery an essential part of an athlete’s routine.

For athletes with prosthetic limbs, recovery is even more critical, as their bodies must adjust to additional physical stress, maintain muscle balance, and prevent overuse injuries. A well-structured recovery plan not only reduces injury risk but also improves long-term performance.

Managing Overuse Injuries and Muscle Fatigue

Athletes using prosthetics often rely more heavily on certain muscle groups to compensate for the missing limb. Over time, this can lead to muscle fatigue, joint stiffness, and even overuse injuries.

The most commonly affected areas include the lower back, hips, shoulders, and the remaining limb.

To prevent overuse injuries, athletes must incorporate rest days, stretching routines, and active recovery sessions into their training plans.

Foam rolling, massage therapy, and mobility exercises help release muscle tension and improve flexibility, ensuring that the body remains in optimal condition.

For lower-limb amputees, hip and lower back strain is a common issue due to altered weight distribution. Gentle stretching of the hip flexors, hamstrings, and lower back can prevent tightness and discomfort.

Upper-limb amputees benefit from shoulder and upper back mobility work to avoid stiffness from repeated prosthetic use.

The Role of Physical Therapy in Injury Prevention

Regular sessions with a physical therapist help athletes maintain proper movement mechanics and address any alignment issues before they become serious injuries.

Physical therapists assess posture, gait, and muscle imbalances to ensure that training movements do not place excessive strain on the body.

For athletes recovering from minor injuries, rehabilitation exercises help rebuild strength and restore full range of motion. These exercises focus on gradually reintroducing movement patterns while ensuring that the prosthetic limb remains well-aligned with the rest of the body.

Hydrotherapy is another excellent recovery tool for amputee athletes. Water-based exercises reduce impact on joints while allowing for full-body movement. This method is particularly useful for post-injury rehabilitation and active recovery sessions.

Nutrition and Hydration for Faster Recovery

Proper nutrition plays a crucial role in an athlete’s ability to recover from intense training sessions. Protein-rich foods support muscle repair, while anti-inflammatory foods, such as fruits, vegetables, and omega-3-rich sources, help reduce soreness and joint stiffness.

Hydration is just as important, especially for athletes who sweat heavily during training. Dehydration can lead to muscle cramps, fatigue, and slower recovery times.

Drinking enough water, combined with electrolyte-rich fluids, ensures that the body remains well-hydrated and ready for the next training session.

Sleep and Mental Recovery for Peak Performance

Athletes often focus on physical recovery, but mental recovery is just as important. Competitive sports require intense concentration and focus, and overtraining can lead to mental fatigue.

Getting enough sleep is essential for muscle repair, hormone regulation, and overall athletic performance.

Mindfulness techniques, meditation, and deep breathing exercises help reduce stress and improve mental clarity. Athletes who incorporate these practices into their routine are better equipped to handle the pressures of competition and maintain a strong, focused mindset.

By prioritizing recovery and injury management, athletes with prosthetic limbs can extend their careers, stay injury-free, and perform at their highest potential. Taking the time to rest and restore the body ensures long-term success in any sport.

Athletic success is not just about physical strength and endurance—it is also about mental resilience. Athletes with prosthetic limbs face unique psychological challenges, from overcoming self-doubt to handling the pressures of competition.

The Psychological Edge: Mental Toughness and Confidence in Sports

Athletic success is not just about physical strength and endurance—it is also about mental resilience. Athletes with prosthetic limbs face unique psychological challenges, from overcoming self-doubt to handling the pressures of competition.

Developing mental toughness is key to staying motivated, confident, and focused on performance goals.

Overcoming Self-Doubt and Building Confidence

For many amputee athletes, the biggest challenge is not physical—it is believing in their ability to compete at the highest level. Whether returning to sports after an amputation or entering a new level of competition, self-doubt can be a major barrier.

One of the most effective ways to build confidence is through gradual progression. Setting small, achievable goals allows athletes to track their improvement and recognize their capabilities.

Each milestone—whether it’s running a faster sprint, jumping higher, or mastering a new technique—reinforces confidence and proves that limitations can be overcome.

Support from teammates, coaches, and other adaptive athletes plays a crucial role in building self-assurance. Being surrounded by a positive community that understands the challenges of using a prosthetic in sports helps athletes stay motivated and push past their mental barriers.

Handling Pressure and Staying Focused

Competitive sports come with pressure—whether it’s the pressure to perform well, meet expectations, or recover from setbacks. Athletes with prosthetics must learn to manage stress effectively so that it does not interfere with performance.

Visualization techniques are a powerful tool for mental preparation. By mentally rehearsing movements and strategies before a game or race, athletes can improve focus and execution. Visualization helps reinforce muscle memory, making actions feel more natural and automatic.

Breathing techniques also help manage stress and maintain composure. Deep, controlled breathing activates the body’s relaxation response, reducing anxiety and improving concentration.

This technique is especially useful before high-pressure moments, such as the start of a race or a critical play in a game.

Developing a Growth Mindset

A growth mindset—the belief that ability can be developed through effort and persistence—is essential for long-term success. Instead of viewing challenges as obstacles, athletes with a growth mindset see them as opportunities to improve.

For prosthetic athletes, setbacks such as adjusting to a new prosthetic limb, recovering from an injury, or losing a competition should be viewed as part of the learning process.

Those who stay committed to improvement, despite difficulties, ultimately become stronger both mentally and physically.

Learning from other adaptive athletes can be inspiring and motivating. Watching Paralympic athletes, speaking with experienced competitors, and hearing stories of perseverance remind athletes that success is possible with dedication and the right mindset.

The Role of Sports Psychology in Performance

Many high-level athletes, including those with prosthetics, work with sports psychologists to enhance their mental game. Sports psychology focuses on developing strategies for handling competition pressure, staying motivated, and bouncing back from setbacks.

Techniques such as cognitive reframing—changing negative thoughts into positive ones—help athletes stay in the right mindset.

Instead of thinking, “I can’t compete at this level,” an athlete learns to say, “I’m improving with every training session.” This mental shift strengthens confidence and resilience.

By focusing on mental strength alongside physical training, athletes with prosthetic limbs can maximize their potential, stay motivated, and compete with the same level of intensity and determination as any other athlete.

Developing psychological resilience ensures that they not only perform at their best but also enjoy the journey of sports and competition.

Advancements in prosthetic technology have transformed the way amputee athletes train, compete, and recover.

The Role of Technology in Enhancing Performance and Injury Prevention

Advancements in prosthetic technology have transformed the way amputee athletes train, compete, and recover.

Modern prosthetic limbs are no longer just replacements for lost limbs—they are high-performance tools designed to enhance mobility, optimize energy efficiency, and reduce injury risks.

The integration of cutting-edge materials, smart technology, and biomechanical engineering has allowed athletes to push their limits like never before.

Smart Prosthetics: Real-Time Adaptation for Better Performance

One of the most significant innovations in sports prosthetics is the development of microprocessor-controlled prosthetic knees and feet.

These smart devices use sensors to analyze movement patterns in real time, adjusting resistance, shock absorption, and stability based on the athlete’s activity.

For example, a microprocessor knee can detect when an athlete is sprinting and adjust its mechanics to provide smoother transitions between strides.

It can also sense when the user is landing from a jump and increase resistance to absorb impact, reducing strain on the residual limb.

Some of the most advanced prosthetics even include artificial intelligence (AI) algorithms that learn an athlete’s movement style over time. These AI-driven systems fine-tune performance automatically, making each motion more natural and efficient.

Energy-Storing and Energy-Returning Prosthetics

Athletes require powerful, explosive movements for jumping, sprinting, and agility-based sports. Traditional prosthetic limbs were often rigid and limited in motion, but today’s designs incorporate energy-storing materials like carbon fiber to create a more dynamic response.

Energy-returning prosthetic feet and knees absorb force when the athlete steps or lands and then release that energy to propel them forward.

This technology mimics the natural elasticity of muscles and tendons, allowing for greater speed, higher jumps, and reduced energy expenditure.

For long-distance runners, energy-efficient prosthetics help conserve strength, allowing them to maintain endurance over extended periods. For jumpers, the added propulsion reduces strain on the joints and muscles, making landings smoother and safer.

Lightweight Materials for Increased Agility

The weight of a prosthetic limb can significantly impact an athlete’s performance.

Traditional prosthetics were often made from heavier metals, but today’s high-performance limbs use lightweight materials such as titanium, aerospace-grade aluminum, and carbon fiber composites.

These materials not only reduce overall weight but also improve strength and durability. A lighter prosthetic allows for faster movement, better control, and reduced fatigue, especially in sports requiring rapid footwork or explosive jumps.

Customization and 3D Printing in Prosthetic Sports

Every athlete has different needs based on their sport, body type, and movement patterns. Custom prosthetic design plays a huge role in ensuring optimal performance and injury prevention.

Modern 3D printing technology allows for prosthetic limbs to be precisely tailored to an individual’s unique biomechanics.

With 3D printing, manufacturers can create custom sockets, footplates, and knee components that fit perfectly and reduce pressure points. This minimizes discomfort and prevents common issues like skin irritation and misalignment-related injuries.

Athletes can also choose specific stiffness levels, flexibility settings, and shock absorption capacities, ensuring that their prosthetic limb meets the exact demands of their sport.

Whether a cyclist needs a low-resistance knee for continuous pedaling or a sprinter requires a footplate with maximum energy return, custom prosthetics enhance performance and safety.

Wearable Sensors and Performance Tracking

Athletes rely on data to fine-tune their performance, and prosthetic technology is evolving to meet this need. Wearable sensors and smart tracking systems now allow amputee athletes to monitor their gait, impact force, stride length, and balance.

These sensors provide real-time feedback, helping athletes identify movement inefficiencies and areas for improvement. If an athlete notices excessive pressure on one side of the body, adjustments can be made to prevent overuse injuries.

Coaches and prosthetists can also use this data to make precise modifications to prosthetic alignment and settings.

The Future of Prosthetic Innovation in Sports

As technology continues to advance, the future of prosthetic sports performance looks even more promising.

Researchers are developing bionic limbs with neural integration, allowing prosthetic limbs to be controlled by the brain, creating a near-instant response time. This could revolutionize the way amputee athletes move, providing an even closer replication of natural motion.

Other emerging technologies, such as self-adjusting hydraulic systems and smart materials that change stiffness based on movement, will continue to enhance agility, reduce strain, and improve overall comfort.

With each breakthrough, prosthetic technology is closing the gap between artificial limbs and natural human movement.

These innovations allow amputee athletes to not only compete at the highest level but also train more safely, recover more efficiently, and prevent injuries before they happen.

Conclusion

Athletes with prosthetic limbs are redefining the limits of human performance, proving that adaptability, training, and technology can overcome physical barriers. By focusing on strength, balance, and agility, they enhance movement efficiency while reducing injury risks. A well-fitted prosthetic, combined with sport-specific training, allows them to compete safely and effectively.

Advancements in prosthetic technology, from microprocessor-controlled knees to energy-returning feet, have revolutionized the way amputee athletes train and perform. Customization, lightweight materials, and smart tracking systems further optimize movement, ensuring peak performance with reduced strain on the body.

Beyond physical training, mental resilience plays a crucial role in success. Confidence, focus, and a strong mindset allow athletes to push through challenges and stay competitive. With proper recovery strategies, physical therapy, and personalized prosthetic adjustments, they can extend their careers while staying injury-free.

At Robobionics, we believe that technology and innovation should empower athletes to move without limits. Whether you’re a professional competitor or an active individual, the right prosthetic can help you achieve your goals. Book a consultation today to find the best prosthetic solution for your sport and take your performance to the next level!

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REFUNDS AND CANCELLATIONS

Last updated: November 10, 2022

Thank you for shopping at Robo Bionics.

If, for any reason, You are not completely satisfied with a purchase We invite You to review our policy on refunds and returns.

The following terms are applicable for any products that You purchased with Us.

Interpretation And Definitions

Interpretation

The words of which the initial letter is capitalized have meanings defined under the following conditions. The following definitions shall have the same meaning regardless of whether they appear in singular or in plural.

Definitions

For the purposes of this Return and Refund Policy:

  • Company (referred to as either “the Company”, “Robo Bionics”, “We”, “Us” or “Our” in this Agreement) refers to Bionic Hope Private Limited, Pearl Haven, 1st Floor Kumbharwada, Manickpur Near St. Michael’s Church Vasai Road West, Palghar Maharashtra 401202.

  • Goods refer to the items offered for sale on the Website.

  • Orders mean a request by You to purchase Goods from Us.

  • Service refers to the Services Provided like Online Demo and Live Demo.

  • Website refers to Robo Bionics, accessible from https://robobionics.store

  • You means the individual accessing or using the Service, or the company, or other legal entity on behalf of which such individual is accessing or using the Service, as applicable.

Your Order Cancellation Rights

You are entitled to cancel Your Service Bookings within 7 days without giving any reason for doing so, before completion of Delivery.

The deadline for cancelling a Service Booking is 7 days from the date on which You received the Confirmation of Service.

In order to exercise Your right of cancellation, You must inform Us of your decision by means of a clear statement. You can inform us of your decision by:

  • By email: contact@robobionics.store

We will reimburse You no later than 7 days from the day on which We receive your request for cancellation, if above criteria is met. We will use the same means of payment as You used for the Service Booking, and You will not incur any fees for such reimbursement.

Please note in case you miss a Service Booking or Re-schedule the same we shall only entertain the request once.

Conditions For Returns

In order for the Goods to be eligible for a return, please make sure that:

  • The Goods were purchased in the last 14 days
  • The Goods are in the original packaging

The following Goods cannot be returned:

  • The supply of Goods made to Your specifications or clearly personalized.
  • The supply of Goods which according to their nature are not suitable to be returned, deteriorate rapidly or where the date of expiry is over.
  • The supply of Goods which are not suitable for return due to health protection or hygiene reasons and were unsealed after delivery.
  • The supply of Goods which are, after delivery, according to their nature, inseparably mixed with other items.

We reserve the right to refuse returns of any merchandise that does not meet the above return conditions in our sole discretion.

Only regular priced Goods may be refunded by 50%. Unfortunately, Goods on sale cannot be refunded. This exclusion may not apply to You if it is not permitted by applicable law.

Returning Goods

You are responsible for the cost and risk of returning the Goods to Us. You should send the Goods at the following:

  • the Prosthetic Limb Fitting Centre that they purchased the product from
  • email us at contact@robobionics.store with all the information and we shall provide you a mailing address in 3 days.

We cannot be held responsible for Goods damaged or lost in return shipment. Therefore, We recommend an insured and trackable courier service. We are unable to issue a refund without actual receipt of the Goods or proof of received return delivery.

Contact Us

If you have any questions about our Returns and Refunds Policy, please contact us:

  • By email: contact@robobionics.store

TERMS & CONDITIONS

Last Updated on: 1st Jan 2021

These Terms and Conditions (“Terms”) govern Your access to and use of the website, platforms, applications, products and services (ively, the “Services”) offered by Robo Bionics® (a registered trademark of Bionic Hope Private Limited, also used as a trade name), a company incorporated under the Companies Act, 2013, having its Corporate office at Pearl Heaven Bungalow, 1st Floor, Manickpur, Kumbharwada, Vasai Road (West), Palghar – 401202, Maharashtra, India (“Company”, “We”, “Us” or “Our”). By accessing or using the Services, You (each a “User”) agree to be bound by these Terms and all applicable laws and regulations. If You do not agree with any part of these Terms, You must immediately discontinue use of the Services.

1. DEFINITIONS

1.1 “Individual Consumer” means a natural person aged eighteen (18) years or above who registers to use Our products or Services following evaluation and prescription by a Rehabilitation Council of India (“RCI”)–registered Prosthetist.

1.2 “Entity Consumer” means a corporate organisation, nonprofit entity, CSR sponsor or other registered organisation that sponsors one or more Individual Consumers to use Our products or Services.

1.3 “Clinic” means an RCI-registered Prosthetics and Orthotics centre or Prosthetist that purchases products and Services from Us for fitment to Individual Consumers.

1.4 “Platform” means RehabConnect, Our online marketplace by which Individual or Entity Consumers connect with Clinics in their chosen locations.

1.5 “Products” means Grippy® Bionic Hand, Grippy® Mech, BrawnBand, WeightBand, consumables, accessories and related hardware.

1.6 “Apps” means Our clinician-facing and end-user software applications supporting Product use and data collection.

1.7 “Impact Dashboard™” means the analytics interface provided to CSR, NGO, corporate and hospital sponsors.

1.8 “Services” includes all Products, Apps, the Platform and the Impact Dashboard.

2. USER CATEGORIES AND ELIGIBILITY

2.1 Individual Consumers must be at least eighteen (18) years old and undergo evaluation and prescription by an RCI-registered Prosthetist prior to purchase or use of any Products or Services.

2.2 Entity Consumers must be duly registered under the laws of India and may sponsor one or more Individual Consumers.

2.3 Clinics must maintain valid RCI registration and comply with all applicable clinical and professional standards.

3. INTERMEDIARY LIABILITY

3.1 Robo Bionics acts solely as an intermediary connecting Users with Clinics via the Platform. We do not endorse or guarantee the quality, legality or outcomes of services rendered by any Clinic. Each Clinic is solely responsible for its professional services and compliance with applicable laws and regulations.

4. LICENSE AND INTELLECTUAL PROPERTY

4.1 All content, trademarks, logos, designs and software on Our website, Apps and Platform are the exclusive property of Bionic Hope Private Limited or its licensors.

4.2 Subject to these Terms, We grant You a limited, non-exclusive, non-transferable, revocable license to use the Services for personal, non-commercial purposes.

4.3 You may not reproduce, modify, distribute, decompile, reverse engineer or create derivative works of any portion of the Services without Our prior written consent.

5. WARRANTIES AND LIMITATIONS

5.1 Limited Warranty. We warrant that Products will be free from workmanship defects under normal use as follows:
 (a) Grippy™ Bionic Hand, BrawnBand® and WeightBand®: one (1) year from date of purchase, covering manufacturing defects only.
 (b) Chargers and batteries: six (6) months from date of purchase.
 (c) Grippy Mech™: three (3) months from date of purchase.
 (d) Consumables (e.g., gloves, carry bags): no warranty.

5.2 Custom Sockets. Sockets fabricated by Clinics are covered only by the Clinic’s optional warranty and subject to physiological changes (e.g., stump volume, muscle sensitivity).

5.3 Exclusions. Warranty does not apply to damage caused by misuse, user negligence, unauthorised repairs, Acts of God, or failure to follow the Instruction Manual.

5.4 Claims. To claim warranty, You must register the Product online, provide proof of purchase, and follow the procedures set out in the Warranty Card.

5.5 Disclaimer. To the maximum extent permitted by law, all other warranties, express or implied, including merchantability and fitness for a particular purpose, are disclaimed.

6. DATA PROTECTION AND PRIVACY

6.1 We collect personal contact details, physiological evaluation data, body measurements, sensor calibration values, device usage statistics and warranty information (“User Data”).

6.2 User Data is stored on secure servers of our third-party service providers and transmitted via encrypted APIs.

6.3 By using the Services, You consent to collection, storage, processing and transfer of User Data within Our internal ecosystem and to third-party service providers for analytics, R&D and support.

6.4 We implement reasonable security measures and comply with the Information Technology Act, 2000, and Information Technology (Reasonable Security Practices and Procedures and Sensitive Personal Data or Information) Rules, 2011.

6.5 A separate Privacy Policy sets out detailed information on data processing, user rights, grievance redressal and cross-border transfers, which forms part of these Terms.

7. GRIEVANCE REDRESSAL

7.1 Pursuant to the Information Technology Rules, 2021, We have given the Charge of Grievance Officer to our QC Head:
 - Address: Grievance Officer
 - Email: support@robobionics.store
 - Phone: +91-8668372127

7.2 All support tickets and grievances must be submitted exclusively via the Robo Bionics Customer Support portal at https://robobionics.freshdesk.com/.

7.3 We will acknowledge receipt of your ticket within twenty-four (24) working hours and endeavour to resolve or provide a substantive response within seventy-two (72) working hours, excluding weekends and public holidays.

8. PAYMENT, PRICING AND REFUND POLICY

8.1 Pricing. Product and Service pricing is as per quotations or purchase orders agreed in writing.

8.2 Payment. We offer (a) 100% advance payment with possible incentives or (b) stage-wise payment plans without incentives.

8.3 Refunds. No refunds, except pro-rata adjustment where an Individual Consumer is medically unfit to proceed or elects to withdraw mid-stage, in which case unused stage fees apply.

9. USAGE REQUIREMENTS AND INDEMNITY

9.1 Users must follow instructions provided by RCI-registered professionals and the User Manual.

9.2 Users and Entity Consumers shall indemnify and hold Us harmless from all liabilities, claims, damages and expenses arising from misuse of the Products, failure to follow professional guidance, or violation of these Terms.

10. LIABILITY

10.1 To the extent permitted by law, Our total liability for any claim arising out of or in connection with these Terms or the Services shall not exceed the aggregate amount paid by You to Us in the twelve (12) months preceding the claim.

10.2 We shall not be liable for any indirect, incidental, consequential or punitive damages, including loss of profit, data or goodwill.

11. MEDICAL DEVICE COMPLIANCE

11.1 Our Products are classified as “Rehabilitation Aids,” not medical devices for diagnostic purposes.

11.2 Manufactured under ISO 13485:2016 quality management and tested for electrical safety under IEC 60601-1 and IEC 60601-1-2.

11.3 Products shall only be used under prescription and supervision of RCI-registered Prosthetists, Physiotherapists or Occupational Therapists.

12. THIRD-PARTY CONTENT

We do not host third-party content or hardware. Any third-party services integrated with Our Apps are subject to their own terms and privacy policies.

13. INTELLECTUAL PROPERTY

13.1 All intellectual property rights in the Services and User Data remain with Us or our licensors.

13.2 Users grant Us a perpetual, irrevocable, royalty-free licence to use anonymised usage data for analytics, product improvement and marketing.

14. MODIFICATIONS TO TERMS

14.1 We may amend these Terms at any time. Material changes shall be notified to registered Users at least thirty (30) days prior to the effective date, via email and website notice.

14.2 Continued use of the Services after the effective date constitutes acceptance of the revised Terms.

15. FORCE MAJEURE

Neither party shall be liable for delay or failure to perform any obligation under these Terms due to causes beyond its reasonable control, including Acts of God, pandemics, strikes, war, terrorism or government regulations.

16. DISPUTE RESOLUTION AND GOVERNING LAW

16.1 All disputes shall be referred to and finally resolved by arbitration under the Arbitration and Conciliation Act, 1996.

16.2 A sole arbitrator shall be appointed by Bionic Hope Private Limited or, failing agreement within thirty (30) days, by the Mumbai Centre for International Arbitration.

16.3 Seat of arbitration: Mumbai, India.

16.4 Governing law: Laws of India.

16.5 Courts at Mumbai have exclusive jurisdiction over any proceedings to enforce an arbitral award.

17. GENERAL PROVISIONS

17.1 Severability. If any provision is held invalid or unenforceable, the remainder shall remain in full force.

17.2 Waiver. No waiver of any breach shall constitute a waiver of any subsequent breach of the same or any other provision.

17.3 Assignment. You may not assign your rights or obligations without Our prior written consent.

By accessing or using the Products and/or Services of Bionic Hope Private Limited, You acknowledge that You have read, understood and agree to be bound by these Terms and Conditions.