Computerized Gait Analysis System

Results: 25

Accugait

AccuGait is a portable computerized gait analysis system designed for use in gait assessment. The system consists of a platform with a composite material top plate and Hall effect sensing elements. The unit interfaces directly with a laptop computer via a built-in amplifier. Analog outputs are optional. Data are provided for force and movent along x-y-z coordinates, with the z axis oriented downward, the y axis oriented away from the connector, and the x axis oriented to the left. DIMENSIONS (Hx

Actitrainer

The ActiTrainer is an electronic motion evaluation system and heart monitor designed for use in assessing the physical activity level of individuals with disabilities. This accelerometer measures the user's movements. When worn with the included Polar Wearlink T31, heart rate data is wirelessly transmitted to the unit, where it can be viewed in real time on an OLED display window and stored along with activity data for further analysis. Other performance parameters that can be monitored by this

Amti Multiaxis Force Platform (Model Bp400600)

The AMTI Multiaxis Force Platform, model BP400600, is a gait and balance analysis system designed for use in gait or balance assessment. The system consists of a platform with an aluminum top plate and strain gauge bridge sensing elements. The unit's 2:3 width to length ratio is useful for gait lab installations where variable stride must be accommodated. The platform uses a coordinate system with the z axis oriented downward, the y axis oriented away from the connector, and the x axis oriented

Amti Multiaxis Force Platform (Model Or6-7)

The AMTI Multiaxis Force Platform, model OR6-7, is a gait and balance analysis system designed for use in gait or balance assessment. The system consists of a platform with an aluminum top plate and strain gauge bridge sensing elements. The platform uses a coordinate system with the z axis oriented downward, the y axis oriented away from the connector, and the x axis oriented to the left. The platform provides six analog outputs corresponding to the three orthogonal forces and the three orthogon

Amti Walker Sensor (Models Mcw-Pa, Mcw-Pp, & Mcw-Aa)

AMTI Walker Sensors are biomechanical sensors designed for use in gait and walker stability analysis and prosthetics fitting. Attached to a walker, this multiaxis transducer measures the forces transmitted through the walker. It measures the three orthogonal force components along the X, Y, and Z axes, and the moments about the axes, producing a total of six outputs. The sensor is available in pediatric anterior (model MCW-PA), pediatric posterior (model MCW-PP), and adult anterior (model MCW-AA

Electrodynogram System Edg

Gait analysis system acquires data about the effects of pressure and shock on the feet and legs by means of thin electronic sensors applied to the feet. A lightweight data collector is secured at the user's lower back, and computer hardware and software programs analyze the data. Software utilizing a database of ordinary ambulation constants and those of several sports activities allows the computer to compare the data on a given user with the normal constants. 80 column high speed printer, deta

Electronic Tactile Balance Vest

---- PROTOTYPE --------- PURPOSE: To create a prototype electronic tactile balance vest for individuals with balance disabilities. Researchers at UCLA’s Center for Advanced Surgical and Interventional Technology (CASIT) are developing a vest that could improve the rehabilitation process while an individual is at the clinic and then go home with them afterward. UCLA's tactile vest is self-contained and portable, sporting the electronic control system, accelerometers across the shoulders, and pneu

Emg Analyzer (Model Ma-300-6, Ma300-10, & Ma300-16)

The EMG Analyzer, models MA300-6, MA300-10, and MA300-16, is a gait analysis system designed for use in rehabilitation or physical therapy. This digital EMG and Footswitch system is available with six, ten, or sixteen EMG channels. The sixteen-channel system also provides four additional channels for research use. The frequency response on these additional channels, direct current (DC) to 150 Hertz (Hz), makes them suitable for EKG, goniometer, and pressure sensors. All models come with a lightw

Emg Analyzer Software For Ms-Windows

EMG Analyzer Software for MS-Windows is a gait analysis program designed for use to provide a complete evaluation of muscle activity of the lower extremities during gait. Results are presented graphically and in text form. The software is used in conjunction with EMG and Footswitch or Motion Analysis data acquisition hardware (not included). The software is used to quantify the data and plot the raw or integrated EMG and gait parameters, and compare the results with Normal data derived from two

Foottrak

FootTrak is an electronic motion evaluation system designed to measure supination and pronation during running or walking on a treadmill as compared to normal ranges. The efficacy of foot orthotics, shoe gear, and rehabilitation is automatically quantified and facilitates understanding of treatment techniques. The unit features a computerized video system, real time data acquisition, fully automatic data input with two and three dimensional capability, and full color view of stick figures from a

Gaitrite System

The GAITRite System is a computerized gait analysis system designed for use to assess walking patterns of seniors and individuals with balance, lower extremity, or walking disabilities. The system includes a portable carpet with 16,128 sensors. As the individual walks down this carpet, the system measures cadence, step length, velocity, step-by-step variability, and other gait parameters. Plantar pressures are measured at up to 300 Hz, including shear. All parameters can be tracked, reported, an

Gaittrak

GaitTrak is an electronic motion evaluation system designed to measure angles and velocities of the hip, knee and ankle during walking. It then compares these values to norms. Information regarding cadence, stride length and gait symetry is also provided. A thorough gait analysis can be completed in 15 minutes. The unit features a computerized video system, real time data acquisition, fully automatic data input with two and three dimensional capability, and full color view of stick figures from

Ideea

The IDEEA (Intelligent Device for Energy Expenditure & Activity) is an electronic motion evaluation system designed for use in gait analysis and physical activity monitoring. This portable system provides physical activity assessment, portable gait analysis, energy expenditure estimation, and functional capacity evaluation. It automatically recognizes more than 40 types of posture and gait, with 97 percent accuracy. Performance, functional capacity and body motion can be recorded, with detai

Lokomatnano

LokomatNano is a robotic gait training system designed for use by individuals with stroke, brain injury, cerebral palsy, spinal cord injury, or other mobility, neurological or walking disabilities. The system consists of a robotic gait orthosis that guides the user's legs on a treadmill according to a pre-programmed physiological gait pattern. The guidance can be individually adjusted to the user's abilities and can be reduced according to the user’s improvement. The Levi dynamic body weight sys

Lokomatpro (Versions 5 & 6)

LokomatPro, versions 5 and 6, are robotic gait training systems designed for use by individuals with stroke, brain injury, cerebral palsy, spinal cord injury, or other mobility, neurological or walking disabilities. The system consists of a robotic gait orthosis that guides the user's legs on a treadmill according to a pre-programmed physiological gait pattern. The guidance can be individually adjusted to the user's abilities and can be reduced according to the user’s improvement. A dynamic body

Lopes

---- PROTOTYPE --------- PURPOSE: To create a prototype of a lower-extremity powered exoskeleton to access motor skills and assist in teaching individuals with stroke how to walk again. Researchers at the Netherlands’ University of Twente have developed the LOwer-extremity Powered ExoSkeleton (LOPES), a robotic device to assess motor skills and assist in teaching individuals with stroke how to walk again. The newest version of LOPES allows for eight degrees of freedoms, which provides the legs b

Myotrace 400

The MyoTrace 400 is an EMG feedback unit designed for use in biofeedback and clicical evaluation of movement, force, and muscle activity. This portable handheld unit operates with two channels in stand alone mode and four channels in PC-mode. A wide variety of compatible plugin sensors can be used to objectively evaluate the functional status of the musculo-skeletal system, including force transducers, goniometers, inclinometers, accelerometers, hand dynamometers and foot switches. Applications

Orthotrak

OrthTrak is a three-dimensional orthopedic gait analysis system designed for clinical applications where full body analysis is necessary for diagnostic purposes. OrthoTrak may be added to any ExpertVision 3D system and can also integrate with EMG and force palte information. The unit features a computerized video system, real time data acquisition, fully automatic data input, and full color view of stick figures from any viewpoint.

Rapid Rehab Smart Insole

---- PROTOTYPE --------- PURPOSE: To create a prototype "smart" shoe insole for individuals with prosthetic legs or individuals undergoing rehabilitation after hip fracture or replacement to correct their gait. University of Utah engineering professor, Stacy Bamberg, has developed the Rapid Rehab smart shoe insole to correct the gait of people who have prosthetic legs or people in rehabilitation after hip fracture or replace. The Rapid Rehab insole consists of a custom gel insole embedded with f

Robotic Corbys Platform Orthosis

-- PROTOTYPE --------- PURPOSE: To create a prototype of a powered orthosis designed to move a stroke patient's legs in response to feedback from the brain. Stroke treatment often includes therapists retraining a person's body by repeatedly lifting his or her legs, guiding them through a proper walking pattern. The European Union funded the CORBYS project, which aims to make such therapy easier by developing a powered orthosis to move the stroke patient's legs in response to feedback from the br

Smart Pyramid & Compas

Smart Pyramid and Compas together form a computerized gait analysis and alignment tool designed for use by individuals with lower extremity amputation. The system consist of hardware with embedded sensors (Smart Pyramid) that is integrated into the leg prosthesis, with an attached adaptor that uses Bluetooth to communicate wirelessly with automatic gait analysis software (Compas) on a personal computer (PC) or personal digital assistant (PDA). The adaptor attaches to any socket using the Euro fo

Stepwatch

The StepWatch is a gait analysis system designed for use by frail seniors or individuals with post-surgical mobility limitations, neurological disabilities, or stroke. The system includes one or more monitor units and a docking/software package (sold separately). Worn around the ankle, the monitor unit monitors and records continuously the number of steps per time interval over extended monitoring periods. The monitor unit can store step data for up to two months at one-minute intervals before r

Tibion Bionic Leg

---- PROTOTYPE --------- PURPOSE: To create a prototype of a powered knee orthosis for individuals with neuromuscular disabilities, arthritis, or people recovering from surgery or stroke. The device is indicated in the United States for use by rehabilitation centers as a training aid in helping recover a proper walking gait. Software that controls the knee has been rewritten specifically to work for stroke rehab. The system is currently undergoing a 24-patient trial at New York Presbyterian Hosp

Vector Gait & Safety System

Vector Gait & Safety System is designed for individuals recovering from stroke, amputations, orthopedic injuries and spinal cord injuries. Patient falls are the number one risk during the rehabilitation process and contribute to a loss of confidence, anxiety, activity restriction and injury. The Vector Gait and Safety System® helps to promote patient mobility and independence while reducing the risk of injury to both patients and therapists. Leveraging dynamic body weight support (DBWS),

Virtual Reality Gait Feedback Device

---- PROTOTYPE --------- PURPOSE: To create a prototype wearable virtual reality device to provide individuals with balance disorders with supplemental auditory and visual information to assist in restoring normal gait. Scientists at the Techion Institute of Technology in Israel have created a prototype virtual reality gait feedback device which combines a wearable cell-phone sized audio component and a visual feedback apparatus. The audio component measures body movement and then processes the

Parent Category: Ambulation Training
 
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