Introduction-The rate-limiting step in orthodontic treatment is often the rapidity with which teeth move. Using biological agents to modify the rate of tooth movement has been shown to be effective in animals. Relaxin is a hormone present in both males and females. Its main action is to increase the turnover of fibrous connective tissues. Thus, relaxin might increase the amount and rate of tooth movement through its effect on the periodontal ligament (PDL). The purpose of this study was to measure the effect of relaxin on orthodontic tooth movement and PDL structures.
A single orthodontic activation lasting one hour can initiate tooth movement. The purpose of this study is to examine tooth movement, osteoclasts, and root resorption in rats following several one-hour activations. Rats (n = 144) were randomly assigned to intermittent (multiple activations of 1 hr/day), continuous, and sham appliances. Twelve rats were killed at 3, 5, 7, and 14 days. Tooth movement, osteoclasts, osteoclast %, and root resorption % were quantified. Continuous force moved molars mesially at days 3 and 14 (p < 0.05), but intermittent and sham did not. Intermittent and continuous force increased osteoclast numbers at days 3, 5, and 7 (p < 0.05). Continuous force increased osteoclast surface on days 3 and 14 (p < 0.05). Continuous force increased root resorption at days 5, 7, and 14 (p < 0.05). These results demonstrate that orthodontic force for one hour in 24 stimulates osteoclasts at compression sites but does not stimulate tooth movement or root resorption.
Human relaxin was administered to young rats through either minipumps (group P) or subcutaneous injections (group I). Control rats received pump implants containing placebo (group C). Day 0 was the day of orthodontic appliance placement and activation to pull bilateral upper first molars forward, and day 14 was the end time point. Cephalometric radiographs (three repeated exposures) were taken at 0, 3, 5, 7, 10, and 14 days. The total length of three maxillary molar segments and the space between the first and second molars were measured under a dissecting microscope postmortem. Both groups P and I showed rapid tooth movement at day 3. Movement slowed, but it still increased gradually in group P while decreasing in group I after that. Concurrent tooth lateral drifts to the buccal side were smaller in both groups P and I. The length and space were larger in both groups P and I. Thus, administration of human relaxin may accelerate the early stages of orthodontic tooth movement in rats.
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