In the treatment of non-surgical periodontal disease, the combination of hand and power dental equipment is the most ideal. A standard direct ultrasound insertion/tip (Inuit) is the most commonly used for initial moderate to heavy deposition. However, as the probe depth increased, the ability to reach the bottom of the pocket was affected by the Inuit design restrictions.
In the case of attachment loss, deep posterior periodontal bags or shallow pouches require a leaner newt to effectively remove the light and use the oral biofilm for medium or residual calculi deposition. Standard or single straight UITs are best applied to front teeth, with supragingival calculus and depth or changing pocket topography; However, the proximal surface of the posterior tooth is more difficult to enter. Right-and-left curved UITs can improve access to these areas because they can be adapted to the root structures of the posterior teeth, such as deep periodontal pockets, furs, holes and depressions.
Current research shows that by using specific UITs to improve NSPT results, the NSPT results can be improved by using standard or thin UITs. The specific UITs are thin, thin, thin, or thin, and they provide a probea design that ends with a slim job. They come in three types: straight, right, or left. The fine, straight UITs are thinner than their right and left bent. Despite the right and left bending treatment effect is very good, but only a small part of the oral health project provides the specific sites of instruments and clinical experience, leading to their underutilized. Understand the correct design type and the correct application, and increase its use and effectiveness in NSPT.
The right and left bent UITs provide an effective and effective complement to the NSPT. The misconception is that ultrasound machines will reduce the time and precision required to perform the operation under gingiva. This view suggests that the edge of the tip is positive and quickly removes a lot of pollutants, which is misleading. In fact, when it touches the root, the ultrasound is 1 millimeter -- not 2 millimeters to 3 millimeters.
Although an Inuit appears to have touched the entire surface, the trajectory of the stroke shows the opposite. It is necessary to combine stroke and adaptation in a methodical, strategic manner, completely removing the surface. Precise and deliberate root coverage requires as much time and precision as a handheld device. Successful dental instruments require the right amount of power, Inuit selection (size and metal quality), different fullerks, and multiple strokes.