FRENOTOMY USING DIODE LASER
Frenum is an anatomic structure formed by a fold of mucous membrane and connective tissue fibers that attach the lip and cheeks to the alveolar mucosa, the gingiva and the underlying periosteum. Placek et al. have classified frenum depending on the extension of attachment of fibers, (1) Mucosal: when the frenal fibers are attached up to mucogingival junction, (2) Gingival: when fibers are inserted within attached gingiva, (3) Papillary: when fibers are extending into interdental papilla, and (4) Papilla penetrating: when the frenal fibers cross the alveolar process and extend up to palatine papilla. Frenum with mucosal attachment is the usual and is considered to be the correct level of attachment but if the frenum that encroaches on the margin of the gingiva (Class 2 and above) may interfere with plaque removal, and the tension on the frenum may tend to open the sulcus eventually leading to gingival recession, midline diastema, root dentine hypersensitivity and unaesthetic looks. Nowadays aesthetic concerns have led to an increasing importance in seeking dental treatment, with the purpose of achieving perfect smile. Treatment Modalities The aberrant frena can be treated by frenectomy or by frenotomy procedures. Frenectomy is the complete removal of the frenum, including its attachment to the underlying bone, while frenotomy is the incision and the relocation of the frenal attachment. These can be accomplished either by the routine scalpel technique, electrosurgery or by using lasers. The conventional technique involves excision of the frenum by using a scalpel. However, it carries the routine risks of surgery like bleeding due to which visibility is impaired, risk of post-operative infection and edema. After evolution of LASERS, conventional techniques are replaced by LASER. or
PIOON Laser
980nm.
offers different wavelengths like 450nm/810nm
In this case before the frenotomy procedure tension test was
performed to detect the abnormal frena visually by applying tension over the frenum. This procedure was carried out under topical anesthesia by using wavelength of 980nm in contact mode and it started from ablating
