Treatment of the Contaminated Implant Surface Using the Er,Cr:YSGG LaserMiller, Robert J. DDS, FACD*Implant Dentistry: June 2004 - Volume 13 - Issue 2 - p 165-170 doi: 10.1097/01.ID.0000127521.06443.0B BASIC AND CLINICAL RESEARCH Buy Abstract Author InformationAuthors Article MetricsMetrics Treatment of the contaminated implant surface by mechanical and chemotherapeutic means has met with mixed success. Incomplete surface debridement or alteration of the implant surface could compromise attempts at grafting and reintegration of the implant body. Development of a laser system operating at 2780 nm and using an ablative hydrokinetic process offers the possibility for more efficient decontamination and debridement. The Er,Cr: YSGG laser is evaluated and compared with the most commonly used chemotherapeutic modality for treatment of the implant surface. A scanning electron microscope study is presented comparing YSGG ablation to citric acid treatment of the titanium plasma sprayed and HA-coated implant surface. We can conclude that laser ablation using the YSGG laser is highly efficient at removing potential contaminants on the roughened implant surface while demonstrating no effects on the titanium substrate. *Chairman, Department of Oral Implantology at the Atlantic Coast Dental Research Clinic, Palm Beach, Florida, and Private Practice, Delray Beach, Florida. Reprint requests and correspondence to: Robert J. Miller, DDS, FACD, Center for Advanced Aesthetic and Implant, Dentistry, 16244 South Military Trail, Suite 260, Delray Beach, FL 33484-6505, Phone: (561) 499-5665, Fax: (561) 381-7775, E-mail: firstname.lastname@example.org, Website: www.implantguide.com © 2004 Lippincott Williams & Wilkins, Inc.