Although the use of magnetostrictive and piezoelectric devices is similar, there are technical differences. As dental care workers are increasingly exposed to both dental equipment, understanding how to use them correctly is critical to achieving the best results.
The root causes of gum and periodontal inflammation usually require radical radical treatment. When the ultrasound insertion/tip (Inuit) is sufficiently dynamic and direct contact with the surface of the tooth, the damage of the dental calculus and biofilm occurs in mechanical vibrations. Therefore, in order not to damage the tooth itself, clinicians need to understand different lateral forces, cutting-edge adaptation, and energy Settings between magnetostrictive and piezoelectric devices
The most dynamic part of the Inuit is the tip. Magnetostrictive and piezoelectric UITs are capable of transmitting energy on all sides. However, the control energy dispersion is controlled by appropriate cutting edge. Magnetostrictive slots transmit energy to various aspects, including concave convex surfaces. On the other hand, the side edges of the piezoelectric tip are usually realized because they can transmit the most energy during deposition
Adaptive and magnetostrictive units
When using magnetostrictive scalar supragingival biofilm and calculus removed in the middle of the aspect of the distal and proximal teeth, inserted at 0 ° 15 ° to crown. The tip refers to the tip of the tooth or the lower part of the contact, using a vertical, oblique or horizontal stroke to the proximal side of the tooth's surface. When using this technique, the adaption is challenging. For example, if the inserted concave surface is at the far end of the surface, pointing to the proximal surface, the bottom of the pocket may be hindered and forced entry will cause the tissue to expand. The middle part of the insertion is suppressed by the gum, which limits the gullies of the soft and hard sediments.
On the other hand, if the insert is inserted into the joint of the enamel, the top is headed toward the top, the concave faces towards the far end, and the adaptation changes. The insertion point is now in the position of the tooth, increasing the risk of cutting grooves to the root surface. The contact between the insertion point and the root surface increases, and when moved, grab a blocked pen.
In order to reduce the possibility of injury and improve the ability to adapt, start from insertion point to vertex. Use the support of the same arch to lower the handle slightly to better utilize the inserted front part. By repositioning the handle from the tooth to the bottom of the pocket, it is mainly inserted vertically like a vertical stroke. When the curvature of the tooth is properly adjusted, the lateral side of the magnetostrictive insert is used to perform the grinding calculation. In order to prevent this situation, the insertion of the first 2 mm to 4mm is the key to a system's multi-directional journey sequence. On the basis of calculus, from the edge of the gum to the epithelium, you can use a methodical and multidirectional approach to regulate the high power. To crush calculus, insert the newt into a top direction. Use the tip of the point to hit the top with a slow, vertical stroke of the stroke. Once the rock is broken, the horizontal or diagonal strokes that overlap slowly are moved from areas without sediment to areas with calculus. Clinicians should not start with dental supplies horizontal strokes, because they may shave calculus and increase the risk of leaving a glossy sheet on the root surface. On the surface of mesial, the inserted convex end is easy to adapt to the crown. In order to maintain the tip of the adaptive ability, by slightly raising or lowering it to replenish the root surface.
