Assistive Technology for Prosthetic Users: Enhancing Quality of Life

Q: FAQs about Assistive Technology for Prosthetic Users

### 1. What is assistive technology (AT)?

Assistive technology for prosthetic users allows individuals to enhance their mobility and functionality through the use of specialized devices. Assistive technology for prosthetic users has significantly improved the daily lives of people with amputations or limb differences.

These devices are designed to increase mobility and functionality, allowing for a more comfortable and independent lifestyle. The technology may include prostheses, orthoses, and other specialized equipment that support individuals in their daily activities and tasks. Some prosthetic devices are now equipped with sensors that can detect the user’s movement and adjust the device accordingly, providing a more intuitive user experience. With advances in technology, prosthetic users have more options available to them, enabling them to live life to the fullest. This article will explore the different types of assistive technology available to prosthetic users and their benefits.

Assistive Technology for Prosthetic Users: Enhancing Quality of Life

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Table of Contents

Introduction

Definition Of Assistive Technology For Prosthetic Users

Assistive technology for prosthetic users refers to the devices and tools designed to aid individuals with limb loss or limb difference in performing daily activities. This technology assists prosthetic users by improving mobility and function, enabling them to achieve greater independence in their daily lives.

Some examples of assistive technology for prosthetic users include prosthetic limbs, harnesses, and mobility aids.

Importance Of Assistive Technology For Prosthetic Users

Assistive technology plays a vital role in the lives of individuals with limb loss or limb difference.

Enhances mobility and independence: assistive technology for prosthetic users enables individuals to perform daily tasks without relying on help from others.
Increases safety: this technology improves stability and balance, reducing the risk of falls and injury.
Aids in rehabilitation: assistive technology can support individuals in their rehabilitation process by helping them perform exercises and other activities that aid in their recovery.
Improves overall quality of life: by enhancing mobility and enabling greater independence, assistive technology supports prosthetic users in leading a more fulfilling life.

Assistive technology for prosthetic users provides a range of benefits, which impact positively on their daily living and rehabilitation process. Improved mobility, greater independence, enhanced safety, and overall improved quality of life are some of the benefits that prosthetic users can gain from assistive technology.

Devices And Tools For Prosthetic Users

Assistive technology for prosthetic users: devices and tools for prosthetic users

Living with a prosthetic limb can be a challenging experience. Fortunately, with the advancement of technology, there are various assistive devices and tools that aid in restoring some functionality and independence for prosthetic users. In this article, we will be delving into types of assistive technology devices, prosthetic limbs and orthotics, advanced prosthetics, and wheelchairs and mobility aids.

Types Of Assistive Technology Devices

Assistive technology devices are designed to increase the independence of persons with disabilities. They can be any item, piece of equipment, or product system that is used to enhance or maintain the functional capabilities of people with disabilities.

Augmentative and alternative communication (aac) devices
Environmental control systems (ecs)
Hearing aids and cochlear implants
Electronic aids to daily living (eadl)
Computer access aids
Vehicle and home modifications

Prosthetic Limbs And Orthotics

Prosthetic limbs and orthotics are among the most common types of assistive devices used by individuals with physical disabilities. These devices provide support and can assist people with mobility issues.

Lower limb prosthetics: these devices include below-knee prostheses, above-knee prostheses, and hip disarticulation prostheses.
Upper limb prosthetics: these devices include cosmetic prostheses, body-powered prostheses, and myoelectric prostheses.
Orthotics: these devices include braces, shoe inserts, and spinal orthotics.

Advanced Prosthetics

Advanced prosthetics refer to newer and technologically advanced prosthetic devices that offer more functionality than traditional prosthetics. These advanced prosthetics use advanced materials, technologies, and designs that provide better mobility and more natural movement.

Mind-controlled prosthetics: these prosthetics respond to a person’s thoughts, allowing them to control the movements of their prosthetic with their brains.
Exoskeletons: these are wearable machines that allow people with lower limb mobility issues to stand, walk, and climb stairs with ease.
3d printed prosthetics: these are prosthetics that can be customized to fit the specific needs of the user. They are cheaper and faster to produce than traditional prosthetics.

Wheelchairs And Mobility Aids

Wheelchairs and mobility aids are crucial for people with mobility issues who cannot use prosthetics. These devices help people with disabilities move around and perform daily activities.

Manual wheelchairs: these are wheelchairs that are propelled by the user’s arms.
Electric wheelchairs: these wheelchairs are powered by a motor and can be controlled using a joystick or other devices.
Scooters: these are small motorized vehicles designed for outdoor use.
Canes: these are mobility aids that provide support and balance when walking.

Assistive technology devices have revolutionized the lives of many prosthetic users by providing them with more independence and functionality in their daily lives. From prosthetic limbs and orthotics to advanced prosthetics and mobility aids, there is a vast array of assistive technology devices available to meet the unique needs of prosthetic users.

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Benefits Of Assistive Technology For Prosthetic Users

Assistive technology has revolutionized the world of prosthetics, offering a wide range of benefits for prosthetic users. The technology employs a variety of tools, devices, and equipment that enable individuals with prosthetics to carry out various activities with relative ease.

Let us dive into the benefits of assistive technology for prosthetic users, categorized under three crucial headings.

Improved Independence

One of the significant benefits of assistive technology for prosthetic users is the enhanced independence the technology provides. People with prosthetics often struggle with carrying out several tasks that able-bodied people take for granted. Fortunately, assistive technology tools can help automate tasks such as opening doors, eating, and drinking, effectively eliminating the need for help from others.

Assistive technology also helps with the following:

Helps users move around with ease and confidence
Enhances self-esteem by enabling individuals to carry out tasks independently

Increased Safety

Prosthetic users can experience various challenges, including limited mobility, lack of sensation, and imbalance while performing tasks, putting them at risk of injury. With the aid of assistive technology, they can carry out tasks safely, reducing the risk of accidents.

Helps with balance and stability while walking or standing
Enhances vibration and tactile feedback to help users sense the environment better
Provides fall protection by activating safety mechanisms in the event of a fall

Enhanced Mobility And Functionality

Assistive technology provides a range of tools that enable prosthetic users to move around seamlessly. They can now participate in various activities, including sports and outdoor activities.

Offers precise control of prosthetics using sensors and wireless technology
Enables device customization to fit individual users’ needs
Enhances mobility on uneven surfaces and steps

Improved Psychological And Emotional Well-Being

Assistive technology does not only cater to the physical needs of prosthetic users but also their psychological and emotional needs.

Boosts confidence and self-esteem by providing a sense of control over their environment
Reduces isolation by enabling users to actively participate in social activities
Reduces feelings of frustration and anxiety by eliminating obstacles to performing tasks

Assistive technology has transformed the lives of prosthetic users in many ways. It enhances their independence, improves their safety, and enables them to participate in various activities while providing psychological and emotional benefits. These benefits illustrate how important assistive technology is to the prosthetic community today.

Incorporating Technology With Prosthetics

Assistive Technology For Prosthetic Users: Incorporating Technology With Prosthetics

The field of prosthetics has come a long way with the help of technological advancements. With the introduction of assistive technology, it is possible for prosthetic users to enjoy greater mobility and functionality. This blog post will specifically explore the ways in which technology has been incorporated with prosthetics to enhance the lives of users.

Overview Of Technological Advancements

Advancements in technology have fundamentally changed the world of prosthetics. Prosthetics can now offer greater comfort, functionality, and durability than ever before.

Advanced materials: prosthetics materials have come a long way; they are now more lightweight, comfortable and sweat-resistant. One example, silicone prosthetic liners, offer both comfort and support to the residual limb.
Microprocessors: microprocessors are small computers that have the ability to process data in real-time. Prosthetic devices that include these processors can adjust to changes in terrain and walking speed. This technology also allows for the integration of a bluetooth capability that can connect to a smartphone app.
Mobility-enhancing devices: robotics and exoskeletons are new technologies being applied to assistive devices, for example, the rewalk and the ekso bionics exoskeletons, offer a new level of mobility for people with spinal cord injuries.

Customized Prosthetic Attachments

One of the most significant ways technology is used in prosthetics is by creating customized attachments for the user.

3d printing: 3d printing technology is used to produce prosthetic sockets. Because everyone’s limb is different 3d printing technology makes creating customized sockets possible.
Personalized prosthetic covers: users can get creative and choose personalized covers to customize their prosthetics. They can express their personalities by selecting a cover that suits their style and taste.

Real-Time Data And Monitoring Systems

Prosthetic users benefit from real-time data and monitoring systems.

Pressure sensors: pressure sensors are embedded in the prosthetic socket to monitor the force exerted on the residual limb. This technology helps keep the device well-fitted and comfortable.
Real-time monitoring: monitoring systems provide prosthetic users with real-time data, for example, on the number of steps taken, walking speed, and gait. This information is useful in tracking the device’s performance and predicting when it needs servicing.

As technology continues to develop, assistive technology for prosthetic users will also continue to advance. Innovations such as personalized prosthetic attachments, real-time monitoring, and advanced materials will help in creating more comfortable, durable, and, most importantly, functional prosthetic devices.

Technologies For Improving Prosthetic Fit

When amputees lose a limb, they often face difficulties adapting to their new prosthetic limb. Due to the unnatural fit, they can have trouble moving and eventually suffer from infections and even ulcers. However, with the advancement of technology, several solutions are available to make prosthetic use easier and more comfortable.

Pressure Mapping Technology

One of the major challenges prosthetic users face is pressure points and discomfort. With the help of pressure mapping technology, the prosthetic’s fit can be adjusted to reduce pressure points. The technology uses thin sensors above the socket to measure pressure distribution, enabling clinicians to determine which areas require adjustments.

Some advantages of using pressure mapping technology in prosthetics include:

Improved convenience and comfort
Reduced pressure points
Enhanced safety by reducing the risk of further injuries

Socket Liners And Vacuum Systems

Socket liners and vacuum systems provide an improved fit and suction between the amputee’s residual limb and the prosthetic socket. The systems function by removing excess air between the patient’s limb and the socket, which creates suction.

Benefits of using socket liners and vacuum systems include:

Increased fit and suction, reducing movement during day-to-day activities
Improved stability and control of the prosthetic limb
Reduced pain, chafing, and irritation

Micro-Processor-Controlled Prosthetic Knees

Microprocessor-controlled prosthetic knees (mpks) are among the most effective technologies for improving prosthetic fit. They function by analyzing the user’s walking style and adapting to their movements and speed.

Real-time adjustment
Monitoring activity levels
Analyzing gait patterns

The benefits of using mpks include:

Better balance and stability
Reduced energy consumption
Reduced incidence of falls

Assistive technology is constantly evolving and improving, offering hope and solutions to amputees. The technologies mentioned above aim to improve prosthetic fit and help amputees achieve an active and fulfilling life.

Emerging Trends In Assistive Technology For Prosthetic Users

Prosthetic technology has come a long way, and with the advancement of technology, prosthetic users are now exposed to newer and better assistive technologies for ease of use and more comfort.

3D Printing

The use of 3d printing technology has revolutionized prosthetic manufacturing. The technique has made it possible to create prosthetic parts that are more precise and less expensive.

Greater personalization – it’s easier to design customized prosthetic parts improving the patient’s experience.
Reduced costs – 3d printing technology eliminates the need for traditional manufacturing methods, which are often more costly.
Greater durability – prosthetic parts made with 3d printing methods have shown greater strength and lasted longer than traditionally manufactured parts.

Brain-Computer Interfaces

Brain-computer interfaces (bcis) are medical devices that allow people to control electronic devices with their minds. Bcis are now being used in prosthetic systems, enabling prosthetic wearers to control their prosthetic components with their thoughts.

Improved control – bcis help patients to have more natural and precise control of their prosthetic components.
Enhanced mobility – the use of bcis has helped prosthetic users move with less effort hence reducing muscle fatigue.
New opportunities – bcis are giving new opportunities for individuals with disabilities and enhancing their independence.

Haptic Feedback Devices

A haptic feedback device sends a tactile response to the user in response to an action, such as touching a button. In prosthetics, haptic feedback devices assist in creating a sense of touch.

Greater sensation – prosthetic users receive sensory stimulation, thus creating a sensation to emulate touch in the prosthetic limb.
Improved balance – with haptic feedback devices, prosthetic users can sense the environment around them, thus reducing the risk of falls.
Enhanced mobility – haptic feedback devices enable prosthetic wearers to move more smoothly and efficiently.

To sum it up, the inclusion of emerging trends in assistive technology for prosthetic wearers has made life easier for people living with prosthetics. From 3d printing customized prosthetics, use of bci to control the prosthetic components using the mind to haptic feedback devices giving sensory feedback, the future of prosthetic technology continues to evolve, providing innovative solutions to ultimately enhance the lives of prosthetic users.

Challenges And Limitations Of Assistive Technology For Prosthetic Users

Assistive technology plays a vital role in improving the quality of life of prosthetic users. However, despite all its benefits, there are several challenges and limitations of assistive technology that can hinder its effectiveness. In this section, we’ll explore some of these constraints, including cost, access and availability, acceptance and stigma, and maintenance and upkeep.

Cost

Assistive technology for prosthetic users can be expensive, and the cost is often the most significant barrier to its accessibility. Most insurance companies only cover basic prosthetic technology, leaving advanced and innovative devices out of reach for many. This leaves the prosthetic users to bear the cost, which can be quite burdensome, especially for those on a tight budget.

The average cost of a below-knee prosthetic is $5,000-$7,000.
The average cost of an above-knee prosthetic is $8,000-$10,000.
The average cost of a myoelectric prosthetic is $25,000-$75,000.

Access And Availability

Access to assistive technology is still a challenge in many parts of the world. The availability of these devices varies significantly, and prosthetic users in rural and remote areas often face difficulties in accessing them. Additionally, many specialized prosthetic clinics are only located in urban areas, limiting access for rural communities and those who cannot afford to travel.

In developing countries, only 5-15% of people who require prosthetic care have access to it.

Acceptance And Stigma

Prosthetic users still face social stigma despite the significant advancements made in assistive technology. Many people believe that prosthetic devices are inferior, which can make it challenging for prosthetic users to integrate into society fully. This can lead to feelings of isolation and inadequate care.

Prosthetic users may feel awkward or self-conscious about their prosthesis in public spaces, especially if they have a visible physical difference.

Maintenance And Upkeep

Assistive technology requires regular maintenance and upkeep to remain functional and effective. However, maintenance and upkeep are often overlooked due to a lack of resources, time, and knowledge, leaving prosthetic users without access to the tools they need to maintain their devices.

Prosthetic users should have regular check-ins with a prosthetist (a professional who designs, fits, and maintains prosthetic devices) to ensure functionality and fit are correct.
Maintenance and upkeep could include getting batteries replaced, maintaining appropriate cleaning and hygiene, and replacing parts that are worn or damaged.

Overall, while assistive technology has come a long way, there are still challenges and limitations that need to be addressed to ensure all prosthetic users have access to the care they need to fully integrate into society.

User-Centered Design And Assistive Technology

Assistive technology has come a long way in denting the difficulties faced by prosthetic users. With an emphasis on user-centered design, their lives have become much easier. Today, we take a closer look at user-centered design and its importance in creating assistive technology devices that meet the needs of prosthetic users.

Importance Of User-Centered Design

User-centered design (ucd) is an iterative design process that prioritizes user needs, preferences and feedback at every stage of the development process. To create a successful assistive technology device for prosthetic users, it’s essential to incorporate ucd principles.

*ease of use*: ucd ensures that the prosthetic device is intuitive and easy to use, enabling prosthetic users to perform daily tasks with ease and confidence.
*high user satisfaction*: when users participate in the design process, they feel that their needs and preferences have been considered. This approach increases user satisfaction and enables them to have a positive attitude toward their prosthetic device.
*fewer errors*: ucd ensures that the prosthetic device is less error-prone since it takes into account the user’s abilities, making it easier to operate the device without making mistakes.

User Input And Participation In Design Process

One of the core principles of user-centered design is to involve the end-user in the design process. Therefore, the design process involves collecting feedback and requirements from users and allowing them to participate in the development of the device.

*interviews*: conducting interviews with users to understand their needs, preferences, and experiences.
*observation*: observing how prosthetic users carry out everyday tasks to get a better understanding of their limitations and challenges.
*usability testing*: testing of the developed product with real end-users to identify usability issues and make improvements to the design.

Examples Of User-Centered Prosthetics

Here are some notable examples of prosthetic devices that have been designed with ucd principles:

*michelangelo hand*: the device is a prosthetic hand with five articulated fingers that mimic the natural movement of a real hand. The device uses myoelectric sensors that detect electrical signals produced by the user’s muscles, making it possible to move the hand quickly and naturally.
*c-leg*: c-leg is a prosthetic leg that has microprocessor-controlled knee technology that adjusts to the user’s walking speed, making it easier to walk on different surfaces.
*roeher bionics genium x3*: the genium x3 is a prosthetic leg designed for active users. It has a microprocessor-controlled knee joint that mimics the natural movement of the knee, making it possible to carry out a wide range of activities like running, cycling, and even climbing stairs.

The user-centered design process is crucial in developing successful and effective assistive technology devices for prosthetic users. By involving the users in the design process, the devices can better meet their needs and preferences. Examples like michelangelo hand, c-leg, and genium x3 are proof that user-centered design can lead to innovative solutions that improve the lives of prosthetic users.

Assistive Technology For Specific Populations

Assistive Technology For Prosthetic Users: Assistive Technology For Specific Populations

Prosthetic users face a range of difficulties in their daily activities. Fortunately, advancements in technology have enabled assistive devices that cater to specific populations. These technologies are lifesavers for the people who require them. In this blog post, we will discuss the assistive technology available for prosthetic users in three specific populations: children, soldiers/veterans, and elderly.

Children

Children who use prosthetics may have some unique requirements due to rapid growth and development.

Parents and caregivers need to involve the child in selecting the type and design of the prosthetic device to match their preferences.
The device must support the child’s activities and increase their mobility, such as sports-oriented prosthetics.
Kids require lightweight prosthetic limbs that will not hinder their movements or cause discomfort.
The assistive device should be colorful and playful to match the child’s personality and preferences.

Soldiers And Veterans

Prosthetic devices are essential for veterans and soldiers who have suffered limb loss in conflicts or accidents.

There is a need to utilize technology for motorized prosthetics, which require fewer movements and tasks by the user.
Robotic prosthetic devices with advanced neural sensors for sensing phantom limb pain are becoming increasingly common.
The assistive technology for the military personnel should work in any environment, including high altitude, underwater, and extreme temperatures.
The technology should allow for easy and repairable field maintenance.

Elderly

Older adults may have difficulty using and maintaining prosthetic devices. Therefore, the devices used must cater to their unique needs.

Lightweight prosthetics are essential for elderly patients with mobility problems.
The prosthesis must improve the older adult’s balance and stability, especially in cases of hip amputations.
The prosthetic device should help reduce falls and make transfers from a wheelchair easier.
Grip strength of an elderly person reduces over time, hence, a prosthetic with wider finger placement and stronger grip is suitable for them.

As we have seen from the above discussion, assistive technology has made life easier for prosthetic users in various populations. There are many options to choose from that cater to specific needs, preferences, and lifestyles. By utilizing these devices, prosthetic users can become more independent, mobile, and comfortable in their daily activities.

Funding And Insurance For Assistive Technology

Assistive technology for prosthetic users is a rapidly developing field that aims to provide new ways to improve the quality of life for people with limb loss. However, with so many different types of assistive devices available today, understanding the funding and insurance options can be overwhelming.

This section focuses on everything you need to know about funding and insurance for assistive technology.

Insurance Coverage For Assistive Technology

Insurance coverage is crucial for those who depend on assistive devices, such as prosthetics, for a better quality of life.

Insurance plans often have exclusions for prosthetics and other assistive devices. However, some plans may cover them partially or fully.
A prior authorization may be required before purchasing an assistive device.
Some insurance providers have a cap on the number of devices that can be purchased annually.
It’s important to check with your insurance provider to understand what is covered in your plan.

Medicare And Medicaid

Medicare and medicaid are two of the most popular government-funded healthcare programs in the united states.

Medicare provides coverage for medically necessary prosthetics and assistive devices. However, deductibles and coinsurance may be required.
Medicaid may provide funding for assistive devices, depending on the state. Eligibility requirements and coverage vary by state.

Financial Assistance And Grants

For those who need assistive technology but can’t afford it, there are a variety of financial assistance programs and grants available.

Non-profit organizations, such as the amputee coalition, offer financial assistance to help offset the cost of assistive technology.
Vocational rehabilitation programs, available in every state in the united states, offer financial support and vocational training for those with disabilities.
Federal and state-funded grant programs, such as the social security disability insurance (ssdi) and supplemental security income (ssi), can help cover the cost of assistive technology for eligible individuals.

Understanding the funding and insurance options for assistive technology can be difficult and overwhelming. However, with the right information and resources, prosthetic users can find the right financial assistance and coverage to help them access the technology that can significantly improve their quality of life.

Conclusion

Assistive technology for prosthetic users has witnessed advancements in recent years, but it still poses certain benefits and challenges. As we have discussed in this blog post, assistive technology provides a multitude of benefits for prosthetic users, including improved mobility, increased independence, and better overall quality of life.

That being said, these benefits are also met with certain challenges such as the high cost of technology, the need for continuous maintenance, and a lack of accessibility for those who cannot afford these technologies.

Recap Of The Benefits And Challenges Of Assistive Technology For Prosthetic Users

Benefits Of Assistive Technology For Prosthetic Users

Improved mobility
Increased independence
Better overall quality of life

Challenges Of Assistive Technology For Prosthetic Users

High cost
Need for continuous maintenance
Lack of accessibility for those who cannot afford these technologies

While assistive technology has improved the lives of many prosthetic users, there is still much room for growth and development in this field.

Importance Of Continued Research And Development

To ensure the needs of prosthetic users are met, continuous research and development is necessary.

To develop more affordable and accessible technology options for all users
To overcome challenges associated with assistive technology
To enhance and improve current technologies and make them more user-friendly

There is a need to promote technological advancements, which could include financial incentives, government funding, or partnerships between private and public sectors. With continued research and development, assistive technology will continue to improve and positively impact the lives of many.

Future Aspirations For Assistive Technology In Prosthetics

Despite the progress made in recent years, there is still much to be done to make assistive technology even more effective and user-friendly.

Real-time feedback to enhance functionality and user experience
Greater affordability and accessibility
Innovative designs that address individual needs and preferences
Easier maintenance without compromising performance

Assistive technology has made great strides in improving the lives of prosthetic users. However, innovation and advancements are essential to create a more accessible and affordable future for prosthetic users. Improvements like greater affordability, increased accessibility, innovative designs, and easier maintenance without compromising performance will come with continued research and development.

Frequently Asked Questions Of Assistive Technology For Prosthetic Users

Faqs About Assistive Technology For Prosthetic Users

### 1. What is assistive technology (at)?

2. What Types Of Assistive Technology Are Available For Prosthetic Users?

There are various types of assistive technology available for prosthetic users, including myoelectric, body-powered, and hybrid prosthetics, as well as specialized software for controlling devices.

3. What Are The Benefits Of Using Assistive Technology For Prosthetic Users?

Assistive technology can help prosthetic users increase their functionality, independence, and improve their quality of life by allowing them to perform tasks they couldn’t otherwise.

4. Can Assistive Technology For Prosthetic Users Be Customized?

Yes, assistive technology for prosthetic users can be customized based on their specific needs and preferences. Prosthetists can work with them to develop a personalized solution that works best for them.

5. Are There Any Limitations Or Downsides To Using Assistive Technology For Prosthetic Users?

Assistive technology can be costly and might not be covered by insurance, making it difficult for some individuals to access. Additionally, some prosthetic users might not be able to use certain devices based on their physical limitations.

6. How Can Prosthetic Users Learn To Use Assistive Technology Effectively?

Prosthetic users can work with their prosthetist to learn how to use assistive technology effectively. Many prosthetics come with training programs, and there are also numerous online resources available.

7. How Often Should Assistive Technology For Prosthetic Users Be Replaced Or Updated?

Assistive technology, like any technology, becomes outdated over time. The life span of prosthetic technology varies, but prosthetic users should work with their prosthetist to evaluate when an upgrade or replacement is necessary.

Conclusion

Assistive technology has revolutionized the prosthetic industry, improving the quality of life for those who have lost limbs. With the advancements in technology and research, prosthetic users can pick from vast and highly functional aids. The devices listed in this blog post are only a few of the many innovations that are available.

With the right combination of assistive technology, those with physical disabilities can lead a normal life. The advancements in prosthetic technology have opened a door to infinite possibilities for individuals with limb loss, providing the necessary support, mobility, and function to live independently.

Weather-sensitive skin, stylish designs, and software sensors are just a few examples of how technology is enhancing prosthetics. As technology continues to advance, there’s no telling what the future holds for prosthetic users. It’s some exciting times ahead, and we’re confident assistive technology will only make things better for amputees.