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Lasers in Medical Science
Erschienen in: Lasers in Medical Science 1/2013

01.01.2013 | Original Article

The effect of He-Ne and Ga-Al-As laser light on the healing of hard palate mucosa of mice

verfasst von: Farahnaz Fahimipour, Mina Mahdian, Behzad Houshmand, Mohammad Asnaashari, Alireza Naser Sadrabadi, Seid Emadadin Najafi Farashah, Seid Mohsen Mousavifard, Arash Khojasteh

Erschienen in: Lasers in Medical Science | Ausgabe 1/2013

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Abstract

Low-level laser therapy (LLLT) has been used to accelerate wound healing, yet questions remain concerning its therapeutic applications. This study aimed to compare the healing efficacy of helium-neon (He-Ne) red light (laser) and gallium aluminum arsenide (Ga-Al-As) infrared lasers at two different doses on hard palate wounds. In a randomized controlled study, 75 adult male mice were divided into five groups of 15 each, after undergoing identical surgical procedures; a control group, with no laser irradiation; HD1 and HD2 groups, treated with He-Ne laser (wavelengths 632.8 nm, power 5 mW, and spot size 0.02 cm2) at doses of 4 J/cm2 and 7.5 J/cm2 respectively; and GD1 and GD2 groups, treated with Ga-Al-As laser (wavelengths 830 nm, peak power 25 mW, and spot size 0.10 cm2) at the doses of 4 J/cm2 and 7.5 J/cm2, respectively. Five animals from each group were killed on the third, seventh, and 14 days after surgery, and biopsies were made for histological analysis. On the 3rd and 7th day after the surgery, the number of polymorphonuclear cells (PMN) in HD1, HD2, GD1, and GD2 groups was significantly lower than that of the control group. On the 7th and 14th day, the fibroblasts and new blood vessels counts and collagen density fibers in HD1, HD2, GD1, and GD2 groups were also significantly higher than that of the control groups, and the fibroblast counts and collagen density fibers in HD1 and HD2 groups were higher than that of the GD1 and GD2 groups. LLLT with He-Ne laser compared to Ga-Al-As laser has a positive healing effect on hard palate gingival wounds in mice regardless of the radiation dose.
Literatur
1.
Bryant KJ, Moore K, McAnulty JF (2003) Angularis oris axial pattern buccal flap for reconstruction of recurrent fistulae of the palate. Vet Surg 32:113–119PubMedCrossRef
2.
Luskin IR (2000) Reconstruction of oral defects using mucogingival pedicle flaps. J Clin Tech Small Anim Pract 15:251–259CrossRef
3.
Mester E (1969) Experimentation on the interaction between infrared laser and wound healing. J Z Exper Chirurgie 2:94
4.
Mester E (1980) Laser application in promoting wound healing. In: Koebner NK (ed) Lasers in medicine. Wiley, New York, pp 190–213
5.
Neiburger EJ (1997) Accelerated healing of gingival incisions by the helium-neon diode laser: a preliminary study. Gen Dent 45:166–170PubMed
6.
Amorim JC, de Sousa GR, de Barros SL, Prates RA, Pinotti M, Riberio MS (2006) Clinical study of the gingiva healing after gingivectomy and low-level laser therapy. Photomed Laser Surg 24:588–594PubMedCrossRef
7.
Aykol G, Baser U, Maden I, Kazak Z, Onan U, Tanrikulu-Kucuk S, Ademoglu E, Issever H, Yalcin F (2011) The effect of low-level laser therapy as an adjunct to non-surgical periodontal treatment. J Periodontol 82(3):481–488PubMedCrossRef
8.
Hopkins JT, McLoda TA, Seegmiller JG, Baxter GD (2004) Low-level laser therapy facilitates superficial wound healing in humans: a triple-blind, sham-controlled study. J Athl Training 39(3):223–229
9.
Damante CA, Greghi SL, Sant’Ana AC, Passanezi E, Taga R (2004) Histomorphometric study of the healing of human oral mucosa after gingivoplasty and low-level laser therapy. Lasers Surg Med 35(5):377–384PubMedCrossRef
10.
Lopes NN, Plapler H, Lalla RV, Chavantes MC, Yoshimura EM, Silva MA, Alves MT (2010) Effects of low-level laser therapy on collagen expression and neutrophil infiltrate in 5-fluorouracil-induced oral mucositis in hamsters. Lasers Surg Med 42(6):546–552PubMedCrossRef
11.
Reddy GK (2003) Comparison of the photostimulatory effects of visible He-Ne and infrared Ga-As lasers on healing impaired diabetic rat wounds. Lasers Surg Med 33(5):344–351PubMedCrossRef
12.
Yasukawa A, Hrui H, Koyama Y, Nagai M, Takakuda K (2007) The effect of low reactive-level laser therapy (LLLT) with helium-neon laser on operative wound healing in a rat model. J Vet Med Sci 69(8):799–806PubMedCrossRef
13.
Maiman TH (1960) Stimulated optical radiation in ruby. Nature 187:493–494CrossRef
14.
Basford JR (1995) Low-intensity laser therapy: still not an established clinical tool. Lasers Surg Med 16(4):331–342PubMedCrossRef
15.
Simunovic Z, Ivankovich A, Depolo A (2000) Wound healing of animal and human body sport and traffic accident injuries using low-level laser therapy treatment: a randomized clinical study of seventy-four patients with control group. J Clin Laser Med Surg 18(2):67–73PubMed
16.
Safavi SM, Kazemi B, Esmaeili M, Fallah A, Modarresi A, Mir M (2008) Effects of low-level He-Ne laser irradiation on the gene expression of IL-1beta, TNF-alpha, IFN-gamma, TGF-beta, b FGF, and PDGF in rat’s gingival. J Lasers Med Sci 23(3):331–335CrossRef
17.
Nomura K, Yamaguchi M, Abiko Y (2001) Inhibition of interleukine-1beta production and gene expression in human gingival fibroblasts by low-energy laser irradiation. J Lasers Med Sci 16(3):218–223CrossRef
18.
D’Arcangelo C, Di Nardo Di Maio F, Prosperi GD, Conte E, Baldi M, Caputi S (2007) A preliminary study of healing of diode laser versus scalpel incisions in rat oral tissue: a comparison of clinical, histological, and immunohistochemical results. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 103(6):764–773PubMedCrossRef
19.
Vasilenko T, Slezak M, Kovac I, Bottkova Z, Jakubco J, Kostelnikova M, Tomori Z, Gal P (2010) The effect of equal daily dose achieved by different power densities of low-level laser therapy at 635 and 670 nm on wound tensile strength in rats: a short report. Photomed Laser Surg 28(2):281–283PubMedCrossRef
20.
Altavilla D, Saitta A, Cucinotta D, Galeano M, Deodato B, Colonna M, Torre V, Russo G, Sardella A, Urna G, Campo GM, Cavallari V, Squadrito G, Squadrito F (2001) Inhibition of lipid peroxidation restores impaired vascular endothelial growth factor expression and stimulates wound healing and angiogenesis in the genetically diabetic mouse. Diabetes 50(3):667–674PubMedCrossRef
21.
Talas DU, Nayci A, Atis S, Polat A, Comelekoglu U, Bagdatoglu C, Renda N (2002) The effects of corticosteroids on the healing of tracheal anastomoses in a rat model. Pharmacol Res 45(4):299–304PubMedCrossRef
22.
Fernando S, Hill CM, Walker R (1993) A randomized double blind comparative study of low-level laser therapy following surgical extraction of lower third molar teeth. Brit J Oral Maxillofac Surg 31:170–172CrossRef
23.
Busnardo VL, Biondo-Simoes ML (2010) Effects of low-level helium-neon laser on induced wound healing in rats. Rev Bras Fisioter 14(1):45–51PubMedCrossRef
24.
Velnar T, Bailey T, Smrkolj V (2009) The wound healing process: an overview of the cellular and molecular mechanisms. J Int Med Res 37(5):1528–1542PubMed
25.
Reddy GK (2004) Photobiological basis and clinical role of low-intensity lasers in biology and medicine. J Clin Laser Med Surg 22(2):141–150PubMedCrossRef
26.
Smith KC (1991) The photobiological basis of low-level laser radiation therapy. Laser Ther 3:19–24
27.
Evans DH, Abrahamse H (2008) Efficacy of three different laser wavelengths for in vitro wound healing. J Photodermatol Photoimmunol Photomed 24:199–210CrossRef
28.
Pete M, Tisha DR, Russell GH, Eric WH, Michael DL (2005) Effect of wavelength on low-intensity laser irradiation-stimulated cell proliferation in vitro. Lasers Surg Med 36:8–12CrossRef
29.
Karu TI, Kolyakov SF (2005) Exact action spectra for cellular responses relevant to phototherapy. Photomed Laser Surg 23:355–361PubMedCrossRef
30.
Carrinho PM, Renno AC, Koeke P, Salate AC, Parizotto NA, Vidal BC (2006) Comparative study using 685-nm and 830-nm lasers in the tissue repair of tenotomized tendons in the mouse. Photomed Laser Surg 24(6):754–758PubMedCrossRef
31.
Nagashima T, Kidokoro H, Isigaki H (1982) Intra-arterial infusion of PGE1 in peripheral arterial disease. J Gendai Iryou 14:1000–1013
32.
Kami T (1990) Improvement of flap survival by application of hypobaric oxygen training. Keio J Med 39:6–13PubMedCrossRef
33.
Qadri T, Miranda L, Tuner J, Gustafsson A (2005) The short-term effects of low-level lasers as adjunct therapy in the treatment of periodontal inflammation. J Clin Periodontol 32(7):714–719PubMedCrossRef
34.
Schindl A, Merwald H, Schindl L, Kaun C, Wojta J (2003) Direct stimulatory effect of low-intensity 670-nm laser irradiation on human endothelial cell proliferation. Br J Dermatol 148(2):334–336PubMedCrossRef
35.
Dyson M, Young S (1986) Effect of laser therapy on wound contraction and cellularity in mice. Lasers Med Sci 1(2):125–130CrossRef
36.
Saygun I, Karacay S, Serdar M, Ural AU, Sencimen M, Kurtis B (2008) Effects of laser irradiation on the release of basic fibroblast growth factor (bFGF), insulin-like growth factor-1 (IGF-1), and receptor of IGF-1 (IGFBP3) from gingival fibroblasts. Lasers Med Sci 23:211–215PubMedCrossRef
37.
Jackson DS, Bentley JP (1960) On the significance of the extractable collagen. J Biophys Biochem Cytol 7(1):37–42PubMedCrossRef
38.
Reis SR, Medrado AP, Marchionni AM, Figueira C, Fracassi LD, Knop LA (2008) Effect of 670-nm laser therapy and dexamethasone on tissue repair: a histological and ultra structural study. Photomed Laser Surg 26(4):307–313PubMedCrossRef
39.
Gavish L, Perez L, Gertz SD (2006) Low-level laser irradiation modulates matrix metalloproteinase activity and gene expression in porcine aortic smooth muscle cells. Lasers Surg Med 38:779–786PubMedCrossRef
Metadaten
Titel
The effect of He-Ne and Ga-Al-As laser light on the healing of hard palate mucosa of mice
verfasst von
Farahnaz Fahimipour
Mina Mahdian
Behzad Houshmand
Mohammad Asnaashari
Alireza Naser Sadrabadi
Seid Emadadin Najafi Farashah
Seid Mohsen Mousavifard
Arash Khojasteh
Publikationsdatum
01.01.2013
Verlag
Springer-Verlag
Erschienen in
Lasers in Medical Science / Ausgabe 1/2013
Print ISSN: 0268-8921
Elektronische ISSN: 1435-604X
DOI
https://doi.org/10.1007/s10103-012-1060-0

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