View clinical trials related to Soft Tissue Healing.
Filter by:Background: Dental lasers and electrosurgical devices have been introduced a long time ago. However, limited studies are available concerning their use in the second stage of implant surgery, with the conventional surgical technique being the standard of care. Aim of this study: To evaluate clinically and radiographically soft and hard tissue healing associated with the use of electrosurgical and laser devices and compare them with conventional surgical techniques during second-stage implant surgery. Plan of the study: A randomized controlled clinical trial. The sample size will include patients who have an implant already placed and ready for second stage surgery recruited from the patient pool at the outpatient clinics. Materials and Methods: Patients will be randomly allocated into the three groups. In Group (A) implant will be exposed using the conventional surgical exposure techniques with a tissue punch, the cover screw will be removed, and the healing abutment placed. In group (B) implant will be uncovered using a diode laser (940nm) in contact type with a continuous mode at a power of 1.5 watts, the laser tip will be used in a circular motion to create a small opening which will be increased till large enough to expose and remove the cover screw and place the healing abutments. In group (C) the monopolar electrosurgical device will be used in the same way as the laser tip with additional care avoiding contacting the implants during exposure. The outcome: will be soft tissue healing and crestal marginal bone loss around implants. Soft tissue healing will be assessed on the operative day, 2 weeks, and 4 weeks using Landry index. Crestal bone loss will be assessed using a standardized periapical x-ray at baseline and after 1 month with periapical x-ray.
Objective of the present study was to assess the peri-implant soft tissue profiles between argon plasma pre-treated (PT) and non-treated (NPT) abutments by comparing clinical and histological parameters 2 months after abutment placement.
The main aim of this study was to evaluate clinically the effect of laser photocoagulation in comparison to the non-resorbable dense polytetrafluroethylene (dPTFE) membrane on the soft tissue healing during socket preservation with bovine bone xenograft.
PRP will enhance ATFL tears healing by time and quality.