What was the point of shockwave

The shockwave spreads out from the applicator leading to a low intensity radial primary wave, followed by a focused shockwave with focus F2 which occurs due to the reflection of the spherical wave at the reflector. The second generator is the electromagnetic one, which uses an electromagnetic coil and a metal membrane opposite to it.

A low-pressure acoustic pulse is generated by acceleration of the membrane away from the coil due to electromagnetic forces. There are two construction types of electromagnetic shockwave generators. The first one creates a plane wave, which is focused by an acoustic lens. The focal point is defined by the focal length of the lens. The second construction type uses a cylindrical source which creates a cylinder shaped pressure wave.

In this case focusing is achieved by reflection of the wave at a hyperbole shaped metal reflector. The two principles of electromagnetic shockwave generators are shown in fig. The third generator forms acoustic waves using the piezoelectric effect, which is the ability of some materials to deform when voltage is applied.

A few hundred piezoelectric crystals are mounted on a spherical surface. When a high voltage pulse is applied to the crystals they immediately expand generating a low pressure pulse in the surrounding water. Both inflammation of the tendon and damage on the cellular level are successfully treated with Shockwave.

The number of sessions is typically 3—5 with 5—10 days in-between sessions. Medial tibial stress syndrome typically occurs due to activities placing large amounts of stress through the tibialis anterior muscle. These activities may include fast walking or running especially up or downhill or on hard or uneven surfaces or sporting activity such as kicking sports. Patient is usually restricted from such activities for prolonged periods of time. When treated with Shockwave therapy the passive period is significantly shorter and the recovery time cuts back by at least a half.

Calcifying tendinitis is a chronic painful disorder that is characterized by calcifications in rotator cuff tendons. Such condition causes pain and range of motion limitations. Shockwave therapy is one of the most effective treatments of calcifications. Acoustic waves cause disruption of the calcified entities and support their resorption and elimination by the body. SWT significantly decreases treatment length and offers fast relief in chronic stages. With age and use, the cartilage can wear down or become damaged.

Muscles and tendons in the hip can get overused. The hip bone itself can be fractured during a fall or other injury. Any of these conditions can lead to pain and damage in the hip area. Shockwave therapy enhances the healing process, fights inflammation, eliminates the pain and tenderness and can prevent hip replacement surgery.

Mechanism of Action Shockwave is an acoustic wave which carries high energy to painful spots and myoskeletal tissues with subacute, subchronic and chronic conditions. New Blood Vessel Formation Nutrient blood flow is necessary to start and maintain the repair processes of damaged tissue. Reversal of Chronic Inflammation Mast cells are one of the key components of the inflammatory process. Stimulation of Collagen Production The production of a sufficient amount of collagen is a necessary precondition for the repair processes of the damaged myoskeletal and ligamentous structures.

Dissolution of Calcified Fibroblasts Calcium build-up is most often the result of micro-tears or other trauma to a tendon. Release of Trigger Points Trigger points are the principal cause of pain in the back, neck, shoulder and limbs. Initiate therapy in 3 steps: 1 st. Watch SWT in action.

FAQ Will Shockwave therapy help me? Does the treatment hurt? How many treatments will I need? How often will I need the treatment? Will I feel any pain after the treatment? Are there any restrictions after the treatment? New Blood Vessel Formation Nutrient blood flow is necessary to start and maintain the repair processes of damaged tissue structure.

Scientific support Biological Mechanism of Musculoskeletal Shockwaves. Reversal of Chronic Inflammation Chronic inflammation occurs when the inflammatory response is not completely halted. Dissolution of Calcified Fibroblasts Calcium build-up is most often a result of micro-tears or other trauma to a tendon. Scientific support Shockwave Therapy for Knee Osteoarthritis. Painful Shoulder Pain of the shoulder can be caused by e.

Heel Spur Calcium deposit on the underside of the heel bone heel spur is closely associated with scarring or inflammation of the plantar fascia plantar fasciitis. Insertional Pain Pain in the muscle insertions typically occurs due to repetitive or prolonged activities placing strain on a particular tendon.

Chronic Tendinopathy Cumulated microtraumas from repetitive overloading can result in chronic tendinopathy tendinitis or tendinosis. The Storz radial systems offer a wide range of transmitters, including fascia and spine applicators, which allows for both local treatments and the treatment of broad superficial areas.

Muscle chains can be treated functionally in the course of the chain. Pressure waves mobilise the tissue layers, which in turn breaks up adhesions and trigger points. The shifting of the tissue layers brings about myofascial release, which is the prerequisite for fascia therapy. Focused Shockwaves Hard shock — Smaller focal point for greater accuracy and greater treatment depth.

Focused shockwaves are able to penetrate deeper into the tissues and provides all of its power at the designated depth. Focused shockwaves are generated electromagnetically through a cylindrical coil creating opposing magnetic fields when current is applied. This causes a submerged membrane to move and generate a pressure wave in the surrounding fluid medium. These propagate through the medium without any loss in energy with a small focal zone.

At the site of actual wave generation the amount of energy dispersed is minimal. This limits damage at the skin and to underlying soft tissues. The focusing mechanism directs each shock to a defined point within the body. The location within the body is adjusted by altering the energy output of the machine or by adjusting the focusing mechanism.

A stand off applicator can be used to adapt the depth of energy. Treatments that require targeting tissue at a deeper level such as tissue close to bone, calcifications or delayed unions and non unions benefit from focused shockwaves.