BioMed Research International

Review Article

Minimally Invasive Techniques to Accelerate the Orthodontic Tooth Movement: A Systematic Review of Animal Studies

Use of LLLT to accelerate orthodontic tooth movement in animals.


Author name	Sample	Laser type	Energy	Results	Movement in experimental group (mm)	Movement in control group (mm)

Shirazi et al. [39]	30 rats divided into 2 groups, 15 each	GaAlP diode 660 nm Continuous wave mode 25 mW 660 nm	7.5 J/session 5 min/session after every 48 hrs for a total of 6 sessions	2.3-fold acceleration in tooth movement in laser irradiated group	0.39 ± 0.07	0.11 ± 0.04

Altan et al. [40]	38 male Wistar rats divided into 4 groups: 3 experimental groups = 11 rats each, 1 control group = 5 rats	GaAlAs 820 nm Continuous mode 100 mW	One group received 54 J/session The other group received 15 J/session applied daily for 8 days	No statistically significant result	Not mentioned	Not mentioned

Kim et al. [42] (combination with corticision)	12 beagle dogs Maxillary 2nd premolars () divided into 4 groups () Split mouth design	GaAlAs 808 nm Pulsed mode 763 mW	75 mJ per pulse 41.7 J/cm²/point 333.6 J/cm²/session Applied every 3rd day for 8 weeks	LLLT accelerated tooth movement 3.75-fold Corticision accelerated tooth movement 3.76-fold No significant difference in tooth movement in LLLT + corticision group	4.62 ± 0.25 4.61 ± 0.30 0.88 ± 0.19	0.23 ± 0.18