Low power laser efficacy in the therapy of periodontitis

Background. Periodontitis is an inflammatory disease of periodontal tissues and is one of the most widespread diseases. It represents a huge problem with increasing importance. Modern therapy of periodontitis includes the classic treatment methods, surgery and the latest laser technology. Particularly important is that low level laser therapy is completely painless, non-invasive and without harmful effect. The aim of the study was to investigate the efficacy of low level laser therapy as an adjunct to the basic treatment of periodontitis. Material and Method. The study was conducted on 50 patients with periodontitis and clinical symptoms of gingival inflammation. During the first visit, periodontal indices were measured: plaque index (PI), gingival index (GI) periodontal Ramford index (PDI); dental plaque and tartar were removed and periodontal pockets were treated. Consequently, the right side of the jaws (group A) was treated with GaAlAs laser (Mils 94, 670 nm, 5 mW, 14 min). Laser therapy was left out on the left side the jaw of each patient (group B), in order to compare the effect of treatment with and without laser. After the first, third and fifth treatment, GI and PI were measured, and one month after finished therapy GI, Pi and PDI were measured again. Results. Comparing the mean values of indices in relation to the value before the therapy, the reduction was observed and was more pronounced on the lased side of the jaws. Comparing the mean indices values between groups, lower values were noticed on the lased compared to the non-lased side. Conclusion. Low-power lasers are effective in the elimination of gingival inflammation and improvement of periodontal health. They can be recommended as an adjunct to the basic periodontal therapy.

[1]  S. Socransky,et al.  Impact of periodontal therapy on the subgingival microbiota of severe periodontitis: comparison between good responders and individuals with refractory periodontitis using the human oral microbe identification microarray. , 2012, Journal of periodontology.

[2]  J. Tunér,et al.  Effect of adjunctive low level laser therapy (LLLT) on nonsurgical treatment of chronic periodontitis. , 2012, Photomedicine and laser surgery.

[3]  B. Heaton,et al.  Causal theory and the etiology of periodontal diseases. , 2012, Periodontology 2000.

[4]  A. Petrović,et al.  A histological evaluation of a low-level laser therapy as an adjunct to periodontal therapy in patients with diabetes mellitus , 2012, Lasers in Medical Science.

[5]  I. Kocadereli,et al.  Effect of low-level laser therapy (LLLT) on orthodontic tooth movement , 2012, Lasers in Medical Science.

[6]  M. Scanavini,et al.  Influence of low-level laser on the speed of orthodontic movement. , 2011, Photomedicine and laser surgery.

[7]  H. Issever,et al.  The effect of low-level laser therapy as an adjunct to non-surgical periodontal treatment. , 2011, Journal of periodontology.

[8]  I. Chapple,et al.  Biological approaches to the development of novel periodontal therapies--consensus of the Seventh European Workshop on Periodontology. , 2011, Journal of clinical periodontology.

[9]  Lijian Jin,et al.  Combined photodynamic and low-level laser therapies as an adjunct to nonsurgical treatment of chronic periodontitis. , 2011, Journal of periodontal research.

[10]  Vikas Deo,et al.  Pathogenesis of periodontitis: role of cytokines in host response. , 2010, Dentistry today.

[11]  L. Shapira,et al.  Genetic and environmental risk factors for chronic periodontitis and aggressive periodontitis. , 2010, Periodontology 2000.

[12]  R. Obradović,et al.  The effects of low level laser irradiation on gingival inflammation. , 2010, Photomedicine and laser surgery.

[13]  H. Abrahamse,et al.  Phototherapy — a treatment modality for wound healing and pain relief , 2010 .

[14]  S. Dunne,et al.  Effect of soft laser and bioactive glass on bone regeneration in the treatment of infra-bony defects (a clinical study) , 2009, Lasers in Medical Science.

[15]  R. Obradović,et al.  Influence of low-level laser therapy on biomaterial osseointegration: a mini-review , 2009, Lasers in Medical Science.

[16]  M. A. D. de Oliveira,et al.  Analgesic action of laser therapy (LLLT) in an animal model. , 2008, Medicina oral, patologia oral y cirugia bucal.

[17]  A. Aoki,et al.  Laser application in non-surgical periodontal therapy: a systematic review. , 2008, Journal of clinical periodontology.

[18]  B. Niemiec Periodontal disease. , 2008, Topics in companion animal medicine.

[19]  D. Uskoković,et al.  Comparative Efficacy Analysis of Biomaterials and Soft Lasers in Repair of Bone Defects , 2007 .

[20]  M. Ribeiro,et al.  Clinical study of the gingiva healing after gingivectomy and low-level laser therapy. , 2006, Photomedicine and laser surgery.

[21]  T. Qadri,et al.  The short-term effects of low-level lasers as adjunct therapy in the treatment of periodontal inflammation. , 2005, Journal of clinical periodontology.

[22]  L. Barnsley,et al.  Systematic review of the literature of low‐level laser therapy (LLLT) in the management of neck pain , 2005, Lasers in surgery and medicine.

[23]  A. Ritter,et al.  Periodontal Disease , 2005 .

[24]  Gary C Armitage,et al.  Periodontal diagnoses and classification of periodontal diseases. , 2004, Periodontology 2000.

[25]  L. Walsh,et al.  The current status of laser applications in dentistry. , 2003, Australian dental journal.

[26]  Henry H. Takei Perry R. Klokkevold Michael G. Newman Carranza's Clinical Periodontology , 2001 .

[27]  Y Abiko,et al.  Inhibitory effect of low-level laser irradiation on LPS-stimulated prostaglandin E2 production and cyclooxygenase-2 in human gingival fibroblasts. , 2000, European journal of oral sciences.

[28]  M. Reiser,et al.  Effects of 780 nm diode laser irradiation on blood microcirculation: preliminary findings on time-dependent T1-weighted contrast-enhanced magnetic resonance imaging (MRI). , 2000, Journal of photochemistry and photobiology. B, Biology.