At Lafayette Regional Rehabilitation Hospital, we are pleased to offer our patients the latest in rehabilitative technology through the Bioness® program. This allows us to enhance our patients’ treatment options and results.
Our current Bioness® technology helps patients regain lost mobility or movement in their hands and feet. This system is especially useful for stroke patients, those who may have suffered a traumatic brain injury, Multiple Sclerosis, cerebral palsy, and patients with partial spinal cord injuries. The system uses electrical stimulation to help patients regain more muscle control, which in turn, gives them more function and mobility.
The Hand Rehabilitation System is easy to use and has been shown to facilitate the use of hand function not only during the acute phase of recovery for stroke patients and those suffering from a brain injury, but also in select patients whose injuries are years old.
The Foot Rehabilitation System is wireless, low-profile, and lightweight. It consists of three components: a gait sensor that’s worn in the shoe, a wireless stimulating leg cuff worn below the knee, and a clinician-programmed control unit. This technology allows the patient to achieve a more-normalized gait on changing terrains and at varying speeds.
Lafayette Regional Rehabilitation Hospital was the first to offer this technology in Indiana.
LiteGait® is a gait training device that our staff uses to help patients comfortably walk in an environment free from falls. The system simultaneously provides proper posture, reduces weight bearing, eliminates concerns for balance, and helps in the training of lower body movement.
Its unique harness design creates and ideal environment for treating our patients who may have a wide range of impairments and ability levels. By allowing an increase or decrease in the weight-bearing load on the weaker side of the body, we may be able to begin gait training earlier in the rehabilitation process and at a lower weight-bearing level.
Dynavision (D2™) is a device to improve our patients’ visual and motor abilities that have been compromised by injuries or diseases. With each patient requiring a personalized rehabilitation program, Dynavision enables our staff to customize programs to best meet each of our patient’s needs.
The unit can be used to improve visual motor skills such as localization, fixation, gaze shift, and tracking. While using Dynavision, our patients can improve peripheral visual awareness, visual attention and anticipation, and improve eye-hand coordination and visual-motor reaction time.
For our patients with motor impairments, Dynavision can be used to increase upper extremity range of motion and coordination, muscular and physical endurance, and improve motor planning. Dynavision can be used to successfully improve abilities in patients with limitations from stroke, head injuries, amputations, spinal cord injuries, and orthopedic injuries.
The Moveo™ XP Mobile Exercise Platform, is an innovative exercise platform that combines the benefits of traditional tilt-table standing with active exercise. This combination allows a patient who is incapable of supporting his or her full body weight to participate in graded weight-bearing activity at an earlier stage in the rehabilitation process. It provides a bridge in the process as a patient moves from bed rest to mobility
The controlled environment of the Moveo Platform provides improved patient safety and reduces the risk of prolonged bed rest. The platform workout intensity can be adjusted to match a patient’s capabilities and limitations, allowing the patient to assist with his or her own movements with independence and confidence.
SaeboFlex is designed for patients suffering from neurological impairments such as stroke, who have limited hand abilities. It is a dynamic, custom-fabricated orthosis that supports the weakened wrist, hand, and fingers of a patient’s hand during therapy or at home. It is non-electrical and purely mechanical.
The brace attaches to the patient’s forearm, and fingers, positioning the wrist and fingers so functional activities can be performed. Using SaeboFlex, a patient can grasp an object by voluntarily flexing his or her fingers. An extension spring system assists in reopening the hand to release the object. The treatment principals of SaeboFlex are based on the latest advances in neuro-rehabilitation research that document the brain’s ability to “re-program” itself through mass practice, task-oriented arm training.