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Clinical Trial Summary

The free gingival graft (FGG) procedure is a harvesting technique that creates an open wound that heals by secondary intention. Retarded wound healing, excessive bleeding, and postoperative pain have been reported after FGG procedures. Hemostatic agents include ferric sub-sulfate solution, absorbable synthetic collagen, absorbable gelatin sponge, or oxidized regenerated cellulose. The agents are often combined with a surgical stent designed to cover the donor site, providing protection and pressure hemostasis. Diode laser also exhibits excellent thermal effects with deep tissue penetrative properties, to enhance coagulation. Laser Bandage (LB) could also enhance wound healing and reduce subjective postoperative complications in the palatal donor area after harvesting FGG similarly.


Clinical Trial Description

NEED FOR THE STUDY Autogenous soft tissue grafts are widely used to increase the width of keratinized tissue.1 The free gingival graft (FGG) procedure is a harvesting technique that creates an open wound that heals by secondary intention. Retarded wound healing, excessive bleeding, and postoperative pain have been reported after FGG procedures. To overcome these problems, several techniques and products have been developed. Hemostatic agents such as ferric sub-sulfate solution, absorbable synthetic collagen, absorbable gelatin sponge, or oxidized regenerated cellulose. The agents are often combined with a surgical stent designed to cover the donor site, providing protection and pressure hemostasis. However, these materials may cause adverse effects such as allergies or foreign body reactions or retarded healing of the wound. An optimal method to reduce patient morbidity and enhance early wound healing in the palatal donor site has not yet been defined. Therefore, obtaining new materials that provide better wound care by decreasing bacterial contamination and enhancing wound healing has been considered an essential demand. Recently, Lasers are also considered a good choice for wound coverage of the donor site due to effective tissue ablation, and hemostatic and bactericidal effects. Laser exhibits hemostatic effects due to its 'hot-tip' effect caused by heat accumulation at the end of the fibre. This produces a thick coagulation layer called a laser bandage or biological bandage. It is also referred to as the 'char layer' or 'eschar on the treated surface. Coleton placed a biological bandage in the donor site using C02 Laser, set at 5W continuous wave in ablative mode. Low and Convissar used erbium laser settings of low wattage with no water, some air and few pulses per second to create laser bandage to achieve coagulation. Since Diode laser also exhibits excellent thermal effects with deep tissue penetrative properties, it enhances coagulation. the investigator proposes Laser Bandage (LB) could also enhance wound healing and reduces subjective postoperative complications in the palatal donor area after harvesting FGG in a similar way. To date, no studies have evaluated and compared if the diode laser bandage method is more effective than other palatal wound protection methods. Hence, the current study which is first of a kind is undertaken with the objectives of evaluating the effectiveness of Diode LB in achieving donor site hemostasis and comparing wound healing with a standardized palatal haemostatic agent in gel form with the surgical stent in a randomized controlled fashion. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05841641
Study type Interventional
Source Krishnadevaraya College of Dental Sciences & Hospital
Contact
Status Completed
Phase N/A
Start date June 12, 2021
Completion date December 1, 2022

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