Dental equipment have a good record of removing stones. However, ultrasonic instruments are a technology sensitive way, neither simple nor easy. Recognizing that some common misconceptions about the use of ultrasonic scalding will help clinicians optimize their ultrasound techniques to ensure effective patient care.
Many clinicians mistakenly believe that ultrasonic detectors are faster to remove sediments than manual instruments. The amount of time required for an effective deposit migration depends on a number of variables, such as the location, quality and quantity of biofilm and calculus, and the degree of disease. As the dental endoscope shows, the successful root coverage of ultrasound or hand instruments requires a systematic, holistic approach. The endoscope of periodontal disease also confirmed that the use of hand scales and ultrasonic instruments was limited in the use of an explorer.
Sedimentary characteristics
Sedimentary characters play an important role in the ability of clinician to remove biofilm and stone. In several ways, it's different from the calculus under the gum. The sediments under the gum are denser, harder and more tenacious than the general calculus. The content and type of calcium can be eliminated. The newly formed odontolith tends to fall off and crack in the process of mechanical debridement. It takes more effort and effort to remove the surface or the polished stone.
The number of soft deposits is related to the individual characteristics of the patient's oral health care, diet and his or her stones. A lot of savings and increased difficulty are equivalent to longer treatment times.
Stroke width
Regardless of the type of ultrasonic insertion/technique (UITs) used, the stroke width is only 1 mm to 2 mm. A stroke created by an Inuit person is comparable to that of a hand instrument. When the working end of an instrument is adapted to the surface of the tooth, it touches the height of the contour and the contact point of the tangent, because the curvature of the tooth is either concave or convex. Many overlapping, grooved strokes and ultrasound machines are also necessary, like using hand inserts to remove stones. Both require slow and overlapping combinations of vertical, oblique, and horizontal strokes. Slowing stroke has enabled clinicians to be able to accurately adapt to the Inuit, and to better control calculus. Therefore, the surface of the tooth should be completely covered within a millimeter.
It is difficult to properly adjust the precise stroke width, and it is almost impossible to remove the unobserved sediment without the help of the dental supplies endoscope. Periodontal endoscope enables clinicians to improve their ability to remove sediment, retain root structures, and slow the progression of periodontal disease.
Although biofilm is a soft material, it still requires appropriate adaptation, low to moderate intensity, and proper removal of technology. Longer and faster strokes are enough to replace loose biofilms -- and under the gingivies adjacent to the newts. To disrupt the adhesion biofilm, the newts must be exposed to the surface of the tooth, using slow, short, vigilant stroke techniques. Only in direct contact with various aspects of the tooth surface will there be a physical interference and removal of adhesion biofilm due to repeated strokes of the Inuit.
