 |
|
ASU, Walter Reed researchers create prosthesis of the future
May 02, 2007MESA, Ariz. — Researchers at Arizona State University's Polytechnic campus and the Military Amputee Research Program at Walter Reed Army Medical Center are teaming up to create the next generation of powered prosthetic devices based on lightweight energy storing springs.
The device, nicknamed SPARKy, short for Spring Ankle with Regenerative Kinetics, will be a first-of-its-kind smart, active and energy-storing transtibial (below-the-knee) prosthesis.
Existing technology in prosthetic devices is largely passive and requires the amputee to use 20 to 30 percent more energy to propel themselves forward when walking compared to an able-bodied person, according to Thomas Sugar, ASU assistant professor of engineering at the Polytechnic campus.
Once complete, SPARKy is expected to provide functionality with enhanced ankle motion and push-off power comparable to the gait of an able-bodied individual.
"A gait cycle describes the natural motion of walking starting with the heel strike of one foot and ending with the heel strike of the same foot," says Sugar. "The cycle can be split into two phases — stance and swing. We are concerned with storing energy and releasing energy (regenerative kinetics) in the stance phase."
When you look at the mechanics of walking, it can be described as catching a series of falls, explains Sugar. In the team's device, a tuned spring brakes falls and stores energy as the leg rolls over the ankle during the stance phase, similar to the Achilles tendon.
Sugar's team, made up of doctoral students Joseph Hitt and Matthew Holgate, and ASU Barrett Honors College student Ryan Bellman, have coined SPARKy a robotic tendon because of its bionic properties.
"What we hope to create is a robotic tendon that actively stretches springs when the ankle rolls over the foot, thus allowing the springs to thrust or propel the artificial foot forward for the next step," said Sugar. "Because energy is stored, a lightweight motor can be used to adjust the position of a uniquely tuned spring that provides most of the power required for gait. Thus, less energy is required from the individual."
The team is the first to apply regenerative kinetics to design a lightweight prosthetic device. Others are using large motors combined with harmonic drives, a monopropellant or extremely high-pressure oil.
Sugar's team already has proof that SPARKy is working. In recent experiments with able-bodied subjects outfitted with a robotic ankle orthosis, or a powered assist device, the researchers found that the spring and motor combination was able to amplify the motor power by three-fold. This significant finding allows SPARKy to be downsized from a 6 to 7 kg motor system to a 1 kg (2 lb) system, which is significant weight savings for those who wear a prosthetic.
"We expect this device to revolutionize prosthetics and will be especially helpful for military personnel wounded in active duty," says Hitt.
The project is a multi-phased effort led by ASU's Human Machine Integration Lab, Arise Prosthetics, Phoenix, and Robotics Group Inc., Scottsdale, Ariz. Arise Prosthetics is helping in the fitting of the device and Robotics Group, Inc. is designing embedded processors and motor amplifiers.
The first phase of SPARKy featuring the robotic tendon is expected to be ready for demonstration in December 2007. "I will know it is successful when a wounded solider is able to walk using the device on a treadmill," said Sugar about this phase.
The project will culminate with the functionality to support walking in a daily environment, which is expected in 2009.
Arizona State University
Once complete, SPARKy is expected to provide functionality with enhanced ankle motion and push-off power comparable to the gait of an able-bodied individual.
"A gait cycle describes the natural motion of walking starting with the heel strike of one foot and ending with the heel strike of the same foot," says Sugar. "The cycle can be split into two phases — stance and swing. We are concerned with storing energy and releasing energy (regenerative kinetics) in the stance phase."
When you look at the mechanics of walking, it can be described as catching a series of falls, explains Sugar. In the team's device, a tuned spring brakes falls and stores energy as the leg rolls over the ankle during the stance phase, similar to the Achilles tendon.
Sugar's team, made up of doctoral students Joseph Hitt and Matthew Holgate, and ASU Barrett Honors College student Ryan Bellman, have coined SPARKy a robotic tendon because of its bionic properties.
"What we hope to create is a robotic tendon that actively stretches springs when the ankle rolls over the foot, thus allowing the springs to thrust or propel the artificial foot forward for the next step," said Sugar. "Because energy is stored, a lightweight motor can be used to adjust the position of a uniquely tuned spring that provides most of the power required for gait. Thus, less energy is required from the individual."
The team is the first to apply regenerative kinetics to design a lightweight prosthetic device. Others are using large motors combined with harmonic drives, a monopropellant or extremely high-pressure oil.
Sugar's team already has proof that SPARKy is working. In recent experiments with able-bodied subjects outfitted with a robotic ankle orthosis, or a powered assist device, the researchers found that the spring and motor combination was able to amplify the motor power by three-fold. This significant finding allows SPARKy to be downsized from a 6 to 7 kg motor system to a 1 kg (2 lb) system, which is significant weight savings for those who wear a prosthetic.
"We expect this device to revolutionize prosthetics and will be especially helpful for military personnel wounded in active duty," says Hitt.
The project is a multi-phased effort led by ASU's Human Machine Integration Lab, Arise Prosthetics, Phoenix, and Robotics Group Inc., Scottsdale, Ariz. Arise Prosthetics is helping in the fitting of the device and Robotics Group, Inc. is designing embedded processors and motor amplifiers.
The first phase of SPARKy featuring the robotic tendon is expected to be ready for demonstration in December 2007. "I will know it is successful when a wounded solider is able to walk using the device on a treadmill," said Sugar about this phase.
The project will culminate with the functionality to support walking in a daily environment, which is expected in 2009.
Arizona State University
Prosthetic Current Events and Prosthetic News RSSOscar Pistorius' artificial limbs give him clear, major advantage for sprint running
The artificial lower limbs of double-amputee Olympic hopeful Oscar Pistorius give him a clear and major advantage over his competition, taking 10 seconds or more off what his 400-meter race time would be if his prosthesis behaved like intact limbs.
New study further disputes notion that amputee runners gain advantage from protheses
A study by six researchers, including a University of Colorado at Boulder associate professor and his former doctoral student, shows that amputees who use running-specific prosthetic legs have no performance advantage over counterparts who use their biological legs.
Time-Keeping Brain Neurons Discovered
Groups of neurons that precisely keep time have been discovered in the primate brain by a team of researchers that includes Dezhe Jin, assistant professor of physics at Penn State University and two neuroscientists from the RIKEN Brain Science Institute in Japan and the Massachusetts Institute of Technology (MIT).
MIT neuroscientists find neural stopwatch in the brain
MIT researchers have identified populations of neurons that code time with extreme precision in the primate brain. These neurons are found in two interconnected brain regions, the prefrontal cortex and the striatum, both of which are known to play critical roles in learning, movement, and thought control.
Bioengineering of nerve-muscle connection could improve hand use for wounded soldiers
Modern tissue engineering developed at the University of Michigan could improve the function of prosthetic hands and possibly restore the sense of touch for injured patients.
Where surgery was the standard, casting may be the future
When parents are told their babies' scoliosis needs treatment, they often try bracing first. If that fails, they need surgery to place metal rods in their backs with spinal fusion later on. These children face the risk of complications from the surgery and their backs and chests may be stiff for life.
UCLA scientists make paralyzed rats walk again after spinal-cord injury
UCLA researchers have discovered that a combination of drugs, electrical stimulation and regular exercise can enable paralyzed rats to walk and even run again while supporting their full weight on a treadmill.
URI researcher trips amputees in effort to develop improved prosthetic legs
Again and again, 71-year-old Marjorie Brasier walked on the treadmill using an instrumented prosthetic leg, and again and again she tripped or slipped. Sometimes she recovered on her own and kept walking, while at other times the harness she wore was all that kept her from tumbling to the floor.
Infective endocarditis: An old but changing disease
Infective endocarditis (IE) is a severe form of valve disease characterized by infection located in the valves of the heart.
Blur's noise and distortion reversed
Errant pixels and blurry regions in a photo, whether digital or scanned, are the bane of photographers everywhere.
More Prosthetic Current Events and Prosthetic News Articles
 |
A Primer on Limb Prosthetics by A. Bennett (Author), Jr. Wilson (Author) |
 |
Foam Prosthetic Zombie Teen by Unknown Out of the ground crawls a make-up so terrifying the Coroner might just chase you down the street! This is a one piece easy to apply, pre-painted foam rubber make-up, just like the Movies! Perfect vision in both eyes and no need to buy teeth, they're actually part of the mask as well! Includes instructions and suggestions on how to make your appliance come to life! Teen size. Spirit gum sold separately. This Scary Prosthetic Accessory Costume is available in One Size. |
 |
Dental Implant Prosthetics by Carl E. Misch DDS MDS PHD(HC) (Author) This new book focuses on dental implants used in conjuction with other prosthetic devices in the general dentist's office, designed to help the partially or completely edentulous patient recover normal function, esthetics, comfort, and speech. Step-by-step procedures guide practitioners through challenging clinical situations and assist them in refining their technique. The information in this practical, highly illustrated book reflects the latest in continued research, diagnostic tools, treatment planning, implant designs, materials, and techniques. Prosthetic devices covered in this include complete dentures, bridges, overdentures, and various dental implant systems. |
 |
Orthotics and Prosthetics in Rehabilitation by Michelle M. Lusardi PhD PT (Author), Caroline C. Nielsen PhD (Author) The most comprehensive physical therapy text available on this topic, Orthotics and Prosthetics in Rehabilitation, 2nd Edition provides clinically relevant information in a reader-friendly format. It provides essential information about orthotic/prosthetic prescription and fabrication to give readers a foundation for gait assessment, both pre- and post-intervention. Separate chapters cover each type of orthotic followed by clinical applications for typical and special populations, while the section on prosthetics provides an overview of the epidemiology of amputation and the criteria the physical therapist needs in order to determine the necessity for prosthetic limbs. Instructor resources available; contact your sales representative for details. * Includes guidelines for pre-prosthetic... |
 |
Amputations and Prosthetics: A Case Study Approach by Bella J. May (Author) Medical College of Georgia, Augusta. Case study text for students. Emphasizes the decision-making process of the physical therapist and the role of the physical therapy assistant. Softcover. DNLM: Amputation--rehabilitation. |
 |
Dry Pro Full-Leg Prosthesis Cover - Prosthetic Protector - Size: Medium by Dry Pro Dry Pro Leg Prostheses Protector If you have a leg prosthesis, you know you can t get into the water or get it wet. That has now changed! The DryPro Leg Prosthesis Protector is the only prosthesis protector with the patented watertight vacuum seal. The Dry Pro fits snug yet comfortable during a shower, a bath and even an active swim. Unlike "modified garbage bag" products, our patented vacuum sealed product cannot come off, you can't even pull it off in the deflated state! The Dry Pro prostheses cover is made of durable high quality surgical latex and carries a one year guarantee. Jump in the pool! Play in the waves at the beach! Shower or bathe repeatedly with ease! Features and Benefits of the Dry Pro prosthesis protector: The DryPro offers prostheses wearers an alternative to removing... |
 |
Mark Alfrey's Prosthetic Make-up for Beginners Starring: None Directed By: Mark Alfrey Learn how to create a prosthetic make-up from todays Hollywood pros! Covers the complete process from lifecast to finished make-up and hair. Each stage is performed by a highly reputable artist in the field. Also features a docu-interview with special make-up veteran Tom Burman. Some of his earliest work includes the original 1968 classic "Planet of the Apes". |
 |
World of Warcraft Blood Elf Latex Prosthetic Kit by Rubies Includes one elf prosthetic kit. This is an officially licensed World of Warcraft product. |
|
Journal of Maxillofacial Prosthetics & Technology by Eastman Dental Institute Contains information on maxillofacial prosthetics from a technical viewpoint. | |
 |
The Prosthetic Impulse: From a Posthuman Present to a Biocultural Future by Marquard Smith (Editor), Joanne Morra (Editor) Prosthesis—pointing to an addition, replacement, extension, enhancement—has become something of an all-purpose metaphor for the interactions of body and technology. Concerned with cybernetics, transplant technology, artificial intelligence, and virtual reality, among other cultural and scientific developments, "the prosthetic" conjures up a posthuman condition. In response to this, the 13 original essays in The Prosthetic Impulse reassert the phenomenological, material, and embodied nature of prosthesis without dismissing its metaphorical potential. They examine the historical and conceptual edge between the human and the posthuman—between flesh and its accompanying technologies. Rather than tracking the transformation of one into the other, these essays address this borderline and... |
| © 2009 BrightSurf.com |