Overview

Effectiveness of Topical Application of Melatonin On Bone Density and Implant Stability In Immediate Implantation

Status:
NOT_YET_RECRUITING
Trial end date:
2026-05-01
Target enrollment:
Participant gender:
Summary
Dental implants have revolutionized the replacement of missing teeth, offering predictable and long-lasting rehabilitation for both fully and partially edentulous patients. Since Brnemark's landmark work in 1969, which defined osseointegration as "a direct structural and functional connection between ordered living bone and the surface of a load-bearing implant" (Brnemark et al., 1969), implantology has become an integral part of restorative dentistry. Traditionally, implant therapy followed a delayed protocol requiring a healing period of up to six months after extraction to allow complete soft and hard tissue regeneration before implant placement (Adell et al., 1981). This approach was based on the belief that mature bone is essential for achieving osseointegration. However, subsequent research demonstrated that immediate placement of implants into fresh extraction sockets can also lead to successful osseointegration without compromising outcomes (Araujo et al., 2005). Immediate implant placement, defined as placing an implant at the time of tooth extraction, has gained popularity due to its clinical benefits. These include a reduction in surgical sessions, shortened overall treatment time, preservation of the alveolar ridge, especially the buccal plate, and superior soft tissue esthetics (Van Der Weijden et al., 2009). However, these advantages are contingent upon achieving primary implant stability and proper case selection. A biological challenge that often arises in such cases is the presence of a "jumping gap" - a void between the implant surface and the socket wall - which may require the use of bone grafts or regenerative materials to facilitate bone fill and stability. In recent years, research has explored various biologically active molecules and growth factors to enhance bone healing and implant integration, especially in immediate placement protocols. These include bone morphogenetic proteins (BMPs), platelet-rich plasma (PRP), and platelet-derived growth factors. Among these, melatonin has emerged as a promising agent due to its multifaceted biological activity (Zechner et al., 2003). Melatonin (N-acetyl-5-methoxytryptamine) is an endogenously produced neurohormone primarily secreted by the pineal gland. While best known for regulating circadian rhythms, melatonin also possesses strong antioxidant, anti-inflammatory, and bone-promoting properties. It enhances osteoblast proliferation, stimulates collagen matrix formation, and inhibits osteoclast-mediated bone resorption. These effects make melatonin a potential therapeutic agent for improving bone density and implant stability. Topical application of melatonin at implant sites has shown encouraging results in experimental models, demonstrating improved bone-to-implant contact, accelerated bone regeneration, and enhanced mechanical stability. These findings suggest a potential role for melatonin in immediate implant protocols, where rapid healing and early osseointegration are critical for clinical success. Given the biological potential of melatonin, the present study aims to evaluate the effectiveness of topical application of melatonin on bone density and implant stability in immediate implantation cases through a randomized controlled clinical trial.
Phase:
PHASE1
Details
Lead Sponsor:
University of Baghdad