Use of Modalities in Upper Limb Management in Tetraplegia: Difference between revisions

Introduction[edit | edit source]

A wide range of therapeutic modalities addressing upper limb function in patients with tetraplegia is available in spinal cord injury rehabilitation.

Vibration[edit | edit source]

Muscle vibration is a technique that has potential to reduce muscle tone and spasticity in individuals with neurological disorders. Direct effect of muscle vibrations include an increase in corticospinal excitability and inhibition of neuronal activity in the antagonistic muscle. Three motor effects achieved through muscle vibration are as follow:

1. Sustained contraction of the vibrated muscle via tonic vibration reflex
2. Depression of the motor neurones innervating the antagonistic muscles via reciprocal inhibition or antagonistic inhibition
3. Suppression of the monosynaptic stretch reflexes of the vibrated muscle while being vibrated.

Questions still remain as to whether vibration has any sustained effect on the muscle. Muscle Vibration is generally applied to directly to the chosen muscle or tendon and may be applied in two ways: high frequency and low frequency vibration.

High Frequency Vibration

The high-frequency vibration is driven from a vibrator that optimally operates at a frequency of 100 - 200 Hz and at an amplitude of 1 – 2 mA. This type of vibration produce facilitation of muscle contraction through what is known as tonic vibration reflex. This facilitatory effect sustained for a brief time after application. Therefore it can be used for stimulating muscles whose primary function is one of tonic holding.

Low Frequency Vibration

The low-frequency stimulation occurring between 5 -50 Hz has an inhibitory effect on muscle through its activation of spindle secondary endings and the Golgi tendon organs.

While Vibration has the potential as a good treatment technique there is still limited evidence on its effectiveness the therapist must be aware of the precautions that must be considered when using it as a treatment option including heat generation at the point of application that has the potential for skin damage, particularly at high amplitude. Further studies are needed in the future well-designed trials with a bigger sample size to determine the most effective frequency, amplitude and duration of vibration application in the neurorehabilitation.

You can read more about self-applied vibration here.

Surface Stimulation[edit | edit source]

Two the most commonly used forms of surface stimulation are:

• Transcutaneous Electrical Nerve Stimulation (TENS)
• Functional Electrical Stimulation(FES).

TENS[edit | edit source]

This type of stimulation delivers high-frequency (50–150 Hz) and low-intensity (below motor threshold) surface electrical current decreased spasticity due to the use of this modality. For instance, TENS has recently reduced spasticity in SCI patients and the effects outlasted up to several hours after treatment [34]. This is because TENS activates sensory nerves that in turn may activate inhibitory interneurons that will inhibit the spastic muscle activity [34]. More specifically, these anti-spastic effects are due to the release of gamma-aminobutyric acid (GABA) that acts as inhibitory neurotransmitters, achieving similar anti-spastic effects to those of baclofen [32], which is a first-line treatment for spasticity, especially in adults who suffered a SCI [35]. Results of spasticity treatment using TENS seem to improve when combined with physical therapy [36]. Given its low cost, lack of adverse event effects, and ease to use, TENS seems to be a very good solution to treat spasticity after SCI. Moreover, since TENS alleviates pain and fatigue and can be used for periods of several hours, it seems to be appropriate for the beginning of the rehabilitation after SCI, when training is not very intensive.

FES[edit | edit source]

Sub Heading 3[edit | edit source]

Resources[edit | edit source]

• bulleted list
• x

or

1. numbered list
2. x

References[edit | edit source]