Description

Orthodontic treatment is instrumental in aligning teeth and enhancing both aesthetic and functional aspects of smiles and bites. However, the duration of such treatment is typically protracted, averaging between 1.5 to 3 years. This extended timeframe can result in complications such as discomfort, root resorption, plaque accumulation, periodontal issues, and enamel demineralization. Both patients undergoing orthodontic treatment and their orthodontists seek methods to expedite the process without compromising safety. Orthodontic tooth movement is facilitated by the application of gentle forces through Standard Orthodontic treatment , which induce remodeling of the surrounding bone. This process involves bone resorption on one side and new bone formation on the other, mediated by osteoclasts and osteoblasts, as well as the involvement of blood vessels and nerves within the periodontal tissues. Over time, various strategies have been explored to accelerate tooth movement. Surgical interventions, such as corticotomy or piezocision, have demonstrated efficacy in hastening the process but are invasive and may cause apprehension among patients. Non-surgical approaches, including vibrational devices, magnetic fields, or hormonal injections, have been investigated, though some present adverse effects or limited efficacy. Low-level laser therapy (LLLT) emerges as a non-invasive alternative, utilizing low-energy light to enhance healing processes. LLLT has been shown to augment blood circulation, reduce inflammation, and enhance the function of bone cells. Empirical evidence suggests that LLLT may accelerate orthodontic tooth movement by modulating proteins and cellular activities involved in bone remodeling, such as increasing RANKL expression, which facilitates bone resorption, and alleviating orthodontic pain.

Vitamin D3, commonly referred to as the "sunshine vitamin," is essential for maintaining bone health. It is synthesized in the body through skin exposure to sunlight or obtained from dietary sources such as fish, eggs, or supplements. Vitamin D3 plays a crucial role in regulating calcium and phosphorus levels, which are vital for strong bones. In the field of orthodontics, vitamin D3 may facilitate bone remodeling during tooth movement. Animal studies have indicated that local injections of vitamin D3 near teeth can enhance movement; however, human studies have yielded mixed results, with some demonstrating accelerated movement with local vitamin D3 application, while others do not. Oral supplementation is considered safer and more convenient, yet there is a paucity of research examining its effects on orthodontic treatment. To date, no studies have investigated the combined use of low-level laser therapy (LLLT) and oral vitamin D3. It is hypothesized that these interventions may have a synergistic effect: vitamin D3 enhances bone metabolism, while LLLT reduces inflammation and promotes healing. This study aims to address this gap by evaluating whether the combination of LLLT and oral vitamin D3 accelerates the alignment of crowded lower anterior teeth more effectively than either treatment alone, while also monitoring potential side effects such as pain or root resorption.

This study is a randomized controlled trial comprising three groups to facilitate an equitable comparison of treatments. The participants are adults aged 18 to 40 years, exhibiting moderate dental crowding (4-8 mm) in the mandibular anterior region, necessitating orthodontic intervention. Eligibility criteria include normal vitamin D levels, overall good health, and a complete set of permanent teeth. Exclusion criteria encompass individuals with deficient vitamin D levels, specific medical conditions (such as thyroid or renal disorders), pregnancy, or inadequate oral hygiene. The target sample size is approximately 39 participants, distributed equally among the groups: Group A will receive orthodontic Standard Orthodontic treatment in conjunction with daily vitamin D3 supplementation, beginning with a high dose followed by maintenance dosing; Group B will receive Standard Orthodontic treatment , vitamin D3 supplementation, and low-level laser therapy (LLLT); the Control Group will receive Standard Orthodontic treatment only. Randomization is conducted using software to mitigate bias. The study adheres to ethical standards and the CONSORT guidelines to ensure transparent reporting.Procedures Initially, all participants undergo blood tests to assess vitamin D levels. Individuals with deficient levels are referred for treatment and are excluded from participation. Eligible participants provide informed consent and undergo standard orthodontic documentation, including photographs, X-rays, and study models. The orthodontic treatment commences with the application of 0.022" MBT-type Standard Orthodontic treatment on both the upper and lower dentition. The orthodontic wires are incrementally thickened to facilitate dental alignment, beginning with 0.014" flexible nickel-titanium, followed by 0.016", 0.016x0.022", and ultimately 0.017x0.025" steel wires. For the vitamin D3 cohort, a 50,000 IU dose is administered one week prior to the initiation of orthodontic treatment, followed by a daily intake of 1,000 IU until dental alignment is achieved. In the Low-Level Laser Therapy (LLLT) group, a diode laser (940 nm, 2.5 W power) equipped with a whitening handpiece is employed. The laser light is applied directly to the gingival tissue above the lower anterior teeth for 30 seconds at the commencement of treatment, on day 14, day 30, and subsequently every four weeks. Protective eyewear is mandatory during these sessions. Progress evaluations occur at four-week intervals, utilizing Little's Irregularity Index on study models to quantify dental crowding by summing the interproximal contact point discrepancies of the lower anterior teeth. Treatment concludes when the index reaches 0 mm, indicating complete alignment. Root resorption is assessed through comparative pre- and post-treatment X-rays of the lower anterior teeth, graded on a scale from 0 (no change) to 4 (severe resorption). Pain levels are documented daily for seven days following each wire adjustment or laser session, using a 10-cm visual analog scale (0 indicating no pain, 10 indicating the most severe pain). Participants also record any analgesic consumption. Data analysis involves statistical tests to compare the groups regarding treatment duration, root resorption, and pain levels. The findings have the potential to inform the development of more efficient and less painful orthodontic treatment protocols.