This thin tip is longer and more powerful than other thin tips, because its tip has a wider amplitude. This removes the effective calculus from the root in the deeper pockets.
Thin piezoelectric technique. Piezoelectric dental equipment technology can use a thinner method without breakage. These highly adaptive thin piezoelectric techniques can effectively remove stones from the root surface at high power and effectively remove burrs. The best design of the piezoelectric technique is very long and can easily enter the deep pockets and furcations in the back of the mouth. Week slender (PS) pointed, long and thin, edge flat, provides excellent near and gingivial contact.
Fine diamond coating technique. The diamond-coated tip has only some piezoelectric elements. The thinnest diamond coating technique is designed for fine scaling and planing on narrow fur. These unique techniques are only used in low-power situations, and even close tissue can provide an unprecedented depth of periodontal pocket. They are as thin as ODU 11/12 explorer. These tips are not designed for the removal of sediment, but are effective for removing small residual polish deposits.
In recent years, in periodontal surgery, there are two kinds of new coated piezoelectric ultrasound applied directly to the root surface. These tips can also be used with the help of dental endoscopy.
Fork ball technique. It can be used for the ball - head forked tube for magnetostriction and piezoelectric elements. A. The 8 mm tip conforms to the internal contours of the furcations. In low-power situations, these tips can be very smooth and smooth at the fork. If used in high power, they can better remove calculus, but also create grooves on the root surface. These tips should be used to remove residual stones and make the root surface smooth.
Plastic or carbon composite implant technique. A blue plastic magnetostrictive tip can be used to implant. A set of low-voltage carbon composite techniques designed for implants can also be used to polish the root surface and repair edges while using the instrument. Another new piezoelectric device has a stainless steel core and an outer coating made of plastic material.
Summed up
The near-water mirror will continue to influence the design of the instrument. Tips will become smaller to fit the root system. The new technology will enable more effective calculus removal, thinner methods, higher power and enhanced wear and diamond coatings. The miniaturization of ultrasonic cues will allow dental endoscopes to be used simultaneously. These innovations will improve the standard of education and practice dental supplies, and improve the success rate of non-surgical treatment and maintenance.
Anna Matsuishi Pattison,RDH, MS, is an associate professor of oral health at the university of southern California dental school and an editor in chief of oral hygiene. Stacy a. Matsuda,RDH, BS, is a clinical instructor, dental health department, Oregon health and science university dental, Portland. Gordon l. Pattison (DDS) is a private dental clinic in Brentwood, California, and Pattisons is a member of DentalView's scientific advisory board.
