Evaluation of gingival melanin depigmentation by using Er:YAG laser: ex-vivo and clinical studies
Gingiva hyperpigmentation is more often a non-pathological problem, but clinically it is considered unaesthetic especially in cases of excessive gingival display during smiling. Many treatment methods are available to solve the problem such as chemical peeling, surgery and laser ablation. The las...
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Main Author: | |
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Format: | Thesis |
Language: | English |
Published: |
2018
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Subjects: | |
Online Access: | http://eprints.usm.my/56769/1/Dr.%20Yaseer%20Tharwat%20Stas-24%20pages.pdf |
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Summary: | Gingiva hyperpigmentation is more often a non-pathological problem, but
clinically it is considered unaesthetic especially in cases of excessive gingival display
during smiling. Many treatment methods are available to solve the problem such as
chemical peeling, surgery and laser ablation. The laser by its various wavelengths is
considered a standard treatment in gingival depigmentation. Er: YAG laser is one of the
most studied laser in soft tissues and hard tissues management. In this study, different
power settings of the same wavelength of Er: YAG laser were compared between each
other and the favorable of them were chosen for gingival depigmentation. The study was
conducted in two phases beginning with ex-vivo animal tissue experiment followed by
prospective human experiment phase. In the animal phase, 24 different power settings
were applied in the hyperpigmented gingiva mucosa of a recently slaughtered sheep’s
head. Altered zone, carbonization, speed and operator controllability parameters were
examined for the purpose of choosing 4 best power settings to be applied to the human
study. 2J/cm2 and 4J/cm2 fluences and SP and VLP pulse durations were chosen for the
human study. In the human study, a total of 40 adult female and nonsmoker patients
were recruited and were divided randomly into four groups of 10 patients each
(2J/cm2VLP, 2J/cm2SP, 4J/cm2VLP and 4J/cm2SP). One power setting was applied to
each group. Clinical and biological evaluation was performed. Pain, bleeding,
satisfaction, carbonization, speed of removal and histological investigation parameters were tested. Ablated tissue specimen was sent for histological analysis. The four power
settings proved safety, patient satisfaction and dentist controllability, and efficiency in
the removal of the pigmentations. There was no statistical difference between them
regarding histology, pain, satisfaction and bleeding (P>0.05). There was significant
difference between groups regarding ablation time (P<0.05). Histological analysis
showed a very shallow damage in the lamina propria with a depth of 10 to 60 microns.
In conclusion, fluence of 2J/cm2 and 4J/cm2 with pulse duration of SP (0.3ms) and VLP
(1ms) for each fluence were found to be safe, effective and efficient. Fluence <2J/cm2
might not be effective due to increase carbonization of the superficial gingiva of the
lased areas, thus obscuring the vision of the operator, and fluence >5J/cm2 is
uncontrollable. Peak power is less critical than the dose in aspect of ablation time. Based
on ex-vivo animal study and clinical trial, examining the technical, clinical and
biological aspects using Er: YAG laser in this study. The final optimum power settings
obtained are: 2J/cm2 VLP which is optimum for the beginner practitioner and 4J/cm2SP
which is optimum for the experienced practitioner. |
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