Therapeutic Interventions for Spinal Cord Injury: Difference between revisions

Introduction[edit | edit source]

Respiratory Management[edit | edit source]

Spasticity Management[edit | edit source]

Contracture Management[edit | edit source]

Mobility[edit | edit source]

Transfers[edit | edit source]

Wheelchair Training[edit | edit source]

Gait Training[edit | edit source]

Overground[edit | edit source]

Treadmill[edit | edit source]

The incentive to provide a challenging environment, in which there is an opportunity to practise repetitively the missing components of gait, has underpinned another task-specific activity. This involves using a treadmill for gait re-training and also for improvements in cardiovascular function. A harness can be used for individuals with significant functional limitations, and this also offers the opportunity to grade the amount of body weight support provided. Therapists help to facilitate alternating stepping and weight-bearing, and as many as three therapists may be required to assist with the complete gait cycle. It has been suggested that treadmill training can support Gait Re-education as;

1. It allows a complete practice of the full gait cycle
2. It provides opportunity  for gaining improvements in speed and endurance
3. It optimises cardiovascular fitness

Task -specific training on a treadmill has also been shown to induce expansion of subcortical and cortical locomotion areas in individuals following stroke and spinal cord injury. It can result in an increase in cadence and a shortening of step length as compared to overground walking.

Upper Limb Management[edit | edit source]

Robotics[edit | edit source]

Over the past decade, rehabilitation hospitals have begun to incorporate robotics technologies into the daily treatment schedule of many patients. These interventions hold greater promise than simply replicating traditional therapy, because they allow therapists an unprecedented ability to specify and monitor movement features such as speed, direction, amplitude, and joint coordination patterns and to introduce controlled perturbations into therapy.

Rehabilitation robotics is a field of research dedicated to understanding and augmenting rehabilitation through the application of robotic devices. Rehabilitation robotics includes development of robotic devices tailored for assisting different sensorimotor functions (e.g. arm, hand, leg, ankle, development of different schemes of assisting therapeutic training, and assessment of sensorimotor performance (ability to move) of patient; here, robots are used mainly as therapy aids instead of assistive devices. Rehabilitation using robotics is generally well tolerated, and has been found to be an effective adjunct to therapy in individuals with motor impairments as a result of a spinal cord injury.

• Robotic Rehabilitation for the Lower Extremity
• Upper Extremity Rehabilitation using Robotics

Strength Training[edit | edit source]

Cardiovascular Training[edit | edit source]

Pain Management[edit | edit source]

Electrotherapy[edit | edit source]

Resources[edit | edit source]

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1. numbered list
2. x

References[edit | edit source]