Periodontal pocket treatment with diode laser 940 nm

Sally S. Aboud; Hanan J. Taha; Balsam Mardan

doi:10.53730/ijhs.v6nS4.11914

Authors

Sally S. Aboud
sally.senan1202a@ilps.uobaghdad.edu.iq
Ministry of higher education, Institute of Laser for Postgraduate Studies, University of Baghdad
Hanan J. Taha Ministry of higher education, Institute of Laser for Postgraduate Studies, University of Baghdad
Balsam Mardan Ministry of Higher Education, College of Dentistry, University of Kirkuk, Iraq

Keywords:

diode laser 940 nm, bone regeneration, periodontitis, probing depth

Abstract

Introduction: Many adjunctive treatment have been introduced to enhance the therapeutic outcome of periodontal treatment. Diode laser 940 nm has the potential to act as antibacterial and enhances wound healing. Material and methods: 114 periodontal pockets of 5 chronic periodontitis patients having 3 mm≤IPD≤8 mm, who had been treated in the private clinic, Baghdad, Iraq were subjected to the current study. The treatment was done by using 940 nm wavelength diode lasers for three months with twice weekly recall. Results: There was a highly significant improvement in the pocket depth at the end of the 12^th week in which the depth of patient’s pockets was reduced to half their depth at the initial visit that run in parrelel with a significant increase in the lenghths of the alveolar bone that measured by OPG after six weeks of treatment which persist to increase significantly till the 12th week of treatment which is accompanied by bone biostimulation that improved after the exposure to the diode laser. Conclusion: diode laser 940nm can be considered as a promising periodontitis treatment as it causes a rapid reduction in probing depth with an increase in the bone bio-stimulation when it used in an appropriate protocol.

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References

Al Shbool, B.D., Habashneh,, R.A., Ta'ani, D.S., & Alzoubi, M.M. (2021). Clinical Effectiveness of Diode Laser as an Adjunct in the Treatment of Periodontitis. Int J Oral Dent Health, 7,137.

Ali, O.H. (2015). The effect of cigarette smoking on salivary IgA and periodontal disease. J Bagh Coll Dent., 27(3),116-9.

Al-Wardi, N.A., Al-Maliky, M.A., & Mahmood, A.S.(2018). Thermal Effects of 940 nm Diode Laser on Dental Socket Blood after Teeth Extraction for Diabetic Patients, Iraqi Journal of Laser, 17(B),27–33.

Armitage, G.C. (1994). Development of a classification system for periodontal diseases and conditions. Ann Periodontol, 4(1),1-6.

Bosshardt, D.D.(2018). The periodontal pocket: pathogenesis, histopathology and consequences. Periodontol 2000.,76(1),43-50. doi: 10.1111/prd.12153.

Crispino, A., Figliuzzi, M.M., Iovane, C., Del Giudice, T., Lomanno, S., Pacifico, D., Fortunato, L., & Del Giudice, R. (2015).Effectiveness of a diode laser in addition to non-surgical periodontal therapy: study of intervention. Ann Stomatol (Roma)., 6(1),15-20.

Desmoulière, A., Chaponnier, C., & Gabbiani, G. (2005). Tissue repair, contraction, and the myofibroblast. Wound Repair Regen., 13(1),7-12.

Drisko, C.L.(2014). Periodontal debridement: still the treatment of choice. J Evid Based Dent Pract., 14 Suppl, 33-41.e1.

Hendudari, F., Piryaei, A., Hassani, S.N., Darbandi, H., & Bayat, M.(2016). Combined effects of low-level laser therapy and human bone marrow mesenchymal stem cell conditioned medium on viability of human dermal fibroblasts cultured in a high-glucose medium. Lasers Med Sci., 31(4),749-57.

Illescas-Montes, R., Melguizo-Rodríguez, L., Manzano-Moreno, F.J., García-Martínez, O., Ruiz, C., & Ramos-Torrecillas, J. (2017). Cultured Human Fibroblast Biostimulation Using a 940 nm Diode Laser. Materials (Basel), 10(7),793.

Jawad, M.M., Husein, A., Azlina, A., Alam, M.K., Hassan, R., & Shaari, R. (2013). Effect of 940 nm low-level laser therapy on osteogenesis in vitro. J Biomed Opt.,18(12),128001.

Jepsen, K., & Jepsen, S. (2016). Antibiotics/antimicrobials: systemic and local administration in the therapy of mild to moderately advanced periodontitis. Periodontol 2000, 71(1),82-112.

Mahmood, A.S., & Hammoodi, N.H. (2015). Clinical Assessment of Tissue Healing of Extracted Sockets Irradiated with 940 Nm Diode Laser. Iraqi Dent J., 37(3),124-8.

Manzano-Moreno, F.J., Medina-Huertas, R., Ramos-Torrecillas, J., García-Martínez, O., & Ruiz, C. (2015) The effect of low-level diode laser therapy on early differentiation of osteoblast via BMP-2/TGF-β1 and its receptors. J Craniomaxillofac Surg.,43(9),1926-32.

Marques, M.M., Pereira, A.N., Fujihara, N.A., Nogueira, F.N., & Eduardo, C.P. (2004). Effect of low-power laser irradiation on protein synthesis and ultrastructure of human gingival fibroblasts. Lasers Surg Med.,34(3),260-5.

Mertens, B., Orti, V., Vialaret, J., Gibert, P., Relaño-Ginés, A., Lehmann, S., Deville de Périère, D., & Hirtz, C. (2018). Assessing a multiplex-targeted proteomics approach for the clinical diagnosis of periodontitis using saliva samples. Bioanalysis, 10(1),35-45.

Meseli, S.E., Kuru, B., & Kuru, L. (2017). Relationships between initial probing depth and changes in the clinical parameters following non-surgical periodontal treatment in chronic periodontitis. J Istanb Univ Fac Dent., 51(3),11-17.

Mirdan, B.M. (2012). A 980 nm Diode Laser Clot Formation of the Rabbit’s Dental Sockets after Teeth Extraction. Iraqi J Laser, 11:,37-42.

Muliarta, I. N. (2016). Medical waste and its management at wangaya hospital in Denpasar. International Research Journal of Management, IT and Social Sciences, 3(5), 94-102. Retrieved from https://sloap.org/journals/index.php/irjmis/article/view/371

Musaa, F.E., Awazli, L.G., & Alhamdani, F. (2019). Gingival Enlargement Management using Diode Laser 940 nm and Conventional Scalpel Technique (A Comparative Study)”, Iraqi Journal of Laser, 16(B)1–9.

Nammour, S., El Mobadder, M., Maalouf, E., Namour, M., Namour, A., Rey, G., Matamba, P., Matys, J., Zeinoun, T., & Grzech-Leśniak, K. (2021) . Clinical Evaluation of Diode (980 nm) Laser-Assisted Nonsurgical Periodontal Pocket Therapy: A Randomized Comparative Clinical Trial and Bacteriological Study. Photobiomodul Photomed Laser Surg., 39(1),10-22.

Silva, N., Abusleme, L., Bravo, D., Dutzan, N., Garcia-Sesnich, J., Vernal, R., Hernández, M., & Gamonal, J. (2015) . Host response mechanisms in periodontal diseases. J Appl Oral Sci., 23(3),329-55.

Stavropoulos, A., & Sculean, A. (2017). Current Status of Regenerative Periodontal Treatment. Curr Oral Health Rep., 4(1),34-43.

Wibawa, I. M. S., & Putra, I. K. (2021). Design and manufacture of air quality measurements based on arduino ATmega 2560 using dust ZH03A laser sensor. International Journal of Physical Sciences and Engineering, 5(1), 8–15. https://doi.org/10.29332/ijpse.v5n1.800

Widana, I.K., Sumetri, N.W., Sutapa, I.K., Suryasa, W. (2021). Anthropometric measures for better cardiovascular and musculoskeletal health. Computer Applications in Engineering Education, 29(3), 550–561. https://doi.org/10.1002/cae.22202

Yimam, M., Brownell, L., Do, S.G., Lee, Y.C., Kim, D.S., Seo, K., Jeong, M., Kim, S., & Jia, Q. (2019). Protective Effect of UP446 on Ligature-Induced Periodontitis in Beagle Dogs. Dent J (Basel), 7(2),33.