Enraf-Academy Introduction Note

  • Users of Enraf-Nonius treatment devices must be trained in how to use the system properly and have the appropriate skills.
  • Any treatment instructions regarding treatment location, duration and strength require medical knowledge and should only be given by authorised doctors, therapists and health professionals. It is imperative that these instructions are followed.
  • Before using Enraf-Nonius equipment, read, understand and practice the instructions for use. Know the limitations and hazards associated with using the device. Also observe the precautionary and operational decals placed on the unit.

Treatment Couches

Enraf-Nonius' Leading examination- and treatment couches at close range

Electrotherapy

Enraf-Nonius electrotherapy: Dutch quality, innovation and design

Rehabilitation and Medical Fitness

Enraf-Nonius equipment for Rehabilitation and Medical Fitness

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Ultrasound is one of the most well-known and applied forms of therapy in physical technology. The energy is transmitted to the tissue in the form of a sound wave by means of a “head” or transducer. The frequency with which this occurs is typically between 0.8 and 3 MHz. Not all tissue absorbs the ultrasound energy to the same degree. The effectiveness therefore strongly depends on the type of tissue that is being treated. The greatest effect of ultrasound occurs in that tissue where the energy is absorbed in an efficient manner. This is connective tissue (collagen) with a high degree of denseness such as ligaments, tendons, fascia, joint capsules and scar tissue.

Although ultrasound has an effect on other tissue (for example, muscle tissue), the effect of ultrasound on an acute muscle rupture is less pronounced than the effect on an acute ligament injury. Knowledge of the type of tissue that is affected is of essential importance for the clinical decision-making process. In a recent study no significant effects could be demonstrated in the treatment of very acute muscle contusions while positive effects were observed in the treatment of ligament injuries].

Effects of Ultrasound

Ultrasound can be applied both in a thermal as well as in a non-thermal manner. A thermal effect is in place if a temperature of 40-45°C is reached in the tissue, which must continue for at least 5 minutes. Excessive thermal effects, which could particularly occur at higher levels of intensity, could damage the tissue. The non-thermal effects of ultrasound (including cavitation and acoustic microcirculation) would play a more important role than the thermal effects in the treatment of  soft spot injuries. Cavitation occurs when gas-filled bubbles alternately swell and compress in tissue fluids under the influence of pressure differences (caused by ultrasound). This gives rise to a current movement in the tissue of the surrounding tissue. Due to this microcirculation the cell structure and permeability changes, which is considered as an explanation of the fact that ultrasound has a positive effect on wound healing.

There are two forms of cavitation:

  • Stable (non-inertial) cavitation
  • Unstable (inertial) cavitation

Non-inertial cavitation is the occurrence of stable bubbles which shrink and grow approximately evenly during compression and expansion.  It is assumed that stable cavitation has a positive effect on the affected tissue.

The microbubbles can also be instable, however, which is called inertial cavitation. These bubbles implode rather quickly, which causes many effects such as extreme increase of pressure and temperature. Instable cavitation can result in tissue damage. Instable cavitation should be prevented by using pulsed ultrasound with a very short pulse duration.

The thermal effect of ultrasound consists of heating the collagen tissue and is the easiest to reach through the use of continued ultrasound in combination with high intensity.

The non-thermal effects occur at lower energy levels and in pulsed mode and have cell “up” regulation as their objective. Non-thermal ultrasound is often used to speed up tissue recovery by optimizing the normal inflammation, proliferation and remodeling phase.
Treatment during the proliferative phase of wound healing results in improved recovery of the function.

Thermal   

  • Increased tissue flexibility/elasticity
  • Improved circulation
  • Pain modulation
  • Triggers a mild inflammatory response
  • Decreased joint stiffness
  • Decreased muscle tension

Non-thermal 

  • Cavitation
  • Acoustic microcirculation
  • The combination could possibly result in stimulation of fibroblast activity, increased protein synthesis, improved circulation, tissue recovery and bone healing.

Parameters in ultrasound therapy

Ultrasound Frequency, expressed in MHz, is the frequency of the ultrasound waves. The ultrasound frequency determines the penetration depth, which has the largest value at 1 MHz. The ultrasound frequency can be set at 1 MHz or 3 MHz.

Duty Cycle, expressed in %, defines the ratio of the pulse duration to the pulse repetition time. Ultrasound can be applied in pulsed or in continuous mode. When the Duty Cycle is set to 100%, the apparatus operates in continuous mode.

Effective Radiation Area (ERA) expressed in cm², defines the cross-sectional area of the ultrasound beam (See technical specifications for details). The Effective Radiation Area is fixed and defined by the size of the ultrasound applicator.

Ultrasound Power is the ultrasound output expressed in W. The ultrasound output display can be toggled between W and W/cm². In pulsed mode the power during the pulse is displayed. The time averaged power can be obtained by multiplying this value with the Duty Cycle.

Ultrasound Amplitude, expressed in W/cm², is the quotient of Ultrasound Power and Effective Radiation Area. The ultrasound output display can be toggled between W and W/cm². In pulsed mode the Amplitude during the pulse is displayed. The time-averaged Amplitude can be obtained by multiplying this value by the Duty Cycle.

Want to know more?

Please go to www.electrotherapy.org for more information.

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