The duration of orthodontic treatment is an important factor for both orthodontists and their patients. Shorter treatment time may reduce the risk of caries, root resorption, and periodontal breakdown, and most patients desire shorter treatment times simply because of the inconvenience and esthetics of orthodontic appliances. For all these reasons, both patients and orthodontists would prefer the shortest treatment time possible. Different methods have been tried to accelerate tooth movement, such as low-energy laser irradiation, magnetic fields, and pharmacologic intervention using prostaglandin E2 and vitamin D. However, these methods were sometimes associated with undesirable side effects, such as severe root resorption and local pain. Corticotomy-facilitated orthodontics has also been proposed as a method to enhance tooth movement, but it is associated with potential morbidity related to the surgery, high cost, and limited clinical evidence.

The rate of tooth movement is a primary factor in determining treatment time, and this mainly depends on the rate of alveolar bone remodeling. Two hypotheses of alveolar bone remodeling are piezoelectricity generated in the alveolar bone and pressure-tension in the periodontal ligament. In piezoelectricity, applied forces generate an electrical charge that induces the osteogenic response. Since the piezoelectric charges are created only when stress is applied and released, Shapiro et al suggested that orthodontic forces applied to enhance the rate of tooth movement should not be continuous. Therefore, vibrational devices may be suitable for initiating stress-induced charges by rapidly applying an intermittent force. It has also been suggested that vibrational devices enhance tooth movement by reducing frictional resistance to sliding (stick-slip phenomena) between brackets and archwires. Another advantage of using vibrational devices that has been proposed is pain reduction after orthodontic adjustment.

For the above-mentioned advantages, 2 devices that have been or are available commercially provide cyclic forces directly to the teeth during orthodontic treatment: AcceleDent (OrthoAccel Technologies, Bellaire, Tex) and Tooth Masseuse (no longer available). AcceleDent is a small, rechargeable device consisting of an activator and a removable mouthpiece, and it provides a vibrational force of 0.2 N at 30 Hz. The Tooth Masseuse provided a 111-Hz vibrational frequency and 0.06 N of force. For both devices, patients are (or were) instructed to use them for 20 minutes per day by gently biting on the vibrating plastic wafer. Additional vibration devices have been introduced to the market recently, with similar forces and vibrational frequencies.

Orthodontic tooth movement and vibrational devices were studied in animal models with promising results in some reports. A study on Wistar rats with a resonance vibration for 8 minutes per day found 15% more tooth movement in the intervention group compared with the control group. Another study found that application of vibrational forces to Macaca fuscata monkeys for 1.5 hours per day over 3 weeks increased tooth movement 1.3 to 1.4 times more than a static loading force. However, recent animal studies have not found faster tooth movement with vibrational devices. Kalajizic et al studied the effect of cyclic forces (.04 N and 30 Hz) applied twice a week for 10 minutes on the rate of tooth movement on 26 female Sprague-Dawley rats. They noticed that tooth movement was inhibited after application of the cyclical forces. Another study was performed on 64 mice that were divided into 2 groups, control and experimental. The experimental group received low-frequency mechanical vibration at 5, 10, or 20 Hz for 2 weeks, and no difference was observed in tooth movement compared with the control group. A recent review article mentioned the conflicting findings in animal studies and suggested that the rationale for vibration to increase the rate of tooth movement seems contradictory if the primary effects are anabolic. A Cochrane review on nonsurgical adjunctive interventions to accelerate tooth movement was published in 2015; at that time, only 2 randomized controlled trials (RCTs) were identified. Both studies were judged to have a high risk for bias and showed no conclusive positive effect of vibrational devices on tooth movement. Another systematic review, published late in 2017, included both RCTs and controlled clinical trials. The authors reported that there may be weak evidence that vibration could be effective for accelerating canine retraction, but not for accelerating alignment. Since that time, several additional studies on vibration have been published, leading us to undertake this systematic review.