IS SINGLE APPLICATION OF 810?nm LASER EFFECTIVE IN FASTER BONE FORMATION?: A RABBIT HISTOMORPHOMETRIC STUDY

Single application of diode laser of 810?nm at 2.7?J energy effectively showed faster deposition of bone in osteotomy site in 2 weeks.

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Effectiveness and Acceleration of Bone Repair in Critical-Sized Rat Calvarial Defects Using Low-Level Laser Therapy

The biomodulation of low-level laser therapy using 830nm wavelength light was effective in promoting bone healing in critical defects despite the unfavorable prognosis as well as it accelerated the maturation of bone tissue.

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Muscular Trauma Treated with a Ga-AI-As Diode Laser: In Vivo Experimental Study

Analysis of the results showed a better qualitative and quantitative healing process in traumatised muscles treated with Ga-AI-As diode laser therapy than in spontaneously healed ones. The results obtained with laser therapy were confirmed as haematic, histoenzymatic and histomorphometric values. According to these results, there is a positive relationship between the biostimulation properties of the laser and the healing of traumatised muscular tissue.

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Effect of 830-nm laser light on the repair of bone defects grafted with inorganic bovine bone and decalcified cortical osseous membrane.

It is concluded that LLLT had a positive effect on the repair of bone defect submitted the implantation of graft.

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Bone Healing Effects of Diode Laser (808 nm) on a Rat Tibial Fracture Model

The histopathological and radiological evaluations suggested that the laser group developed new bone formations much earlier than those of the control group. The maximum tolerance force of the laser group was significantly higher than that of the control group (p<0.05). These findings suggest positive effects of LLLT in accelerating the bone healing process, especially in the early stage of bone formation.

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Low-Level Laser Therapy on Tissue Repair of Partially Injured Achilles Tendon in Rats

LLLT stimulated collagen I proliferation, improving the injured Achilles tendons’ healing process.

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The Effectiveness of Therapeutic Class IV (10 W) Laser Treatment for Epicondylitis

These findings suggest that laser therapy using the 10 W class IV instrument is efficacious for the long-term relief of the symptoms associated with chronic epicondylitis. The potential for a rapidly administered, safe and effective treatment warrants further investigation.

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Therapeutic Outcomes of Low-Level Laser Therapy for Closed Bone Fracture in the Human Wrist and Hand

LLLT can relieve pain and improve the healing process of CBFs in the human wrist and hand.

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Histological effects of 820 mm laser irradiation on the healthy growth plate of the rat

The results show that irradiation with low level laser light of wavelength 820 nm and energy density 5 J cm super(?2) had no significant effect on the healthy growth plates of the rat knee joint.

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Use of Low-Level Laser Therapy (808 nm) to Muscle Fatigue Resistance: A Randomized Double-Blind Crossover Trial

These results suggest an increased muscle fatigue resistance when LLLT is applied during rest intervals, and after the last series of intense exercises.

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