Mandibular Biological Drilling at Different Speeds for Dental Implant Placement

Overview

This randomized controlled clinical trial aims to evaluate the effect of different biological drilling speeds (50, 150, and 300 rpm) during implant osteotomy preparation in the mandible on marginal bone level changes and implant stability. Thirty-nine patients requiring a single dental implant in the mandible will be randomly allocated into three groups according to drilling speed. All implants will be placed using a biological drilling protocol without irrigation. Implant stability will be measured using resonance frequency analysis at implant placement and follow-up visits. Marginal bone levels will be evaluated radiographically using standardized periapical radiographs during the follow-up period up to 12 months. The study aims to determine whether different low-speed drilling protocols influence peri-implant bone remodeling and implant stability.

This randomized parallel-group clinical trial will investigate the influence of different biological drilling speeds on radiographic marginal bone level changes and implant stability in mandibular dental implant placement. Thirty-nine partially edentulous adult patients requiring a single implant in the mandible will be recruited from the outpatient clinic of the Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, Cairo University. Eligible participants will be randomly assigned to one of three groups according to drilling speed used during osteotomy preparation: 50 rpm, 150 rpm, or 300 rpm. Implant site preparation will be performed using the same sequential drilling protocol and implant system in all groups. Biological drilling will be performed without irrigation, with careful control of drilling pressure and intermittent drilling to minimize thermal trauma. Implant stability will be measured using resonance frequency analysis (RFA) at implant placement and during follow-up visits. Radiographic assessment of marginal bone levels will be conducted using standardized periapical radiographs obtained using the paralleling technique. Radiographic measurements will be performed at baseline and during follow-up visits up to 12 months. The primary outcome of the study will be marginal bone level changes measured radiographically in millimeters. The secondary outcome will be implant stability expressed as Implant Stability Quotient (ISQ) values. The results of this study may help identify the optimal biological drilling speed that preserves bone vitality while maintaining adequate implant stability and favorable peri-implant bone remodeling.