Frenectomy Explained

Frenectomy
Synonym:frenulectomy or frenotomy)

A frenectomy is the removal of a frenulum, a small fold of tissue that prevents an organ in the body from moving too far. It can refer to frenula in several places on the human body. It is related to frenuloplasty, a surgical alteration in a frenulum. Done mostly for orthodontic purposes, a frenectomy is either performed inside the middle of the upper lip, which is called labial frenectomy, or under the tongue, called lingual frenectomy. Frenectomy is a very common dental procedure that is performed on infants, children, and adults. A similar procedure frenulotomy is where a tight frenulum may be relieved by making an incision in the tight tissue.

Types

There are several frenula that are associated with types of frenectomy:

Pediatric and infant frenectomies

In the past, the frenectomy procedure was perhaps the most popular of soft tissue operations in younger patients. Many labial and lingual frenum (tongue- and lip-ties) were snipped by a midwife, family doctor or dental surgeon.[1] The overall awareness and treatment of tongue- and lip-ties especially in breastfeeding infants has increased over recent years.[2] Frenectomies are routinely performed on infants to improve breastfeeding outcomes.[3]

In 2020, medical professionals raised the concern that a recent rise in unnecessary frenectomies on infants may be encouraged in part by information shared in online parenting groups. While public healthcare options (e.g. NHS) may not cover frenulectomies, in part due to these concerns, private clinic surgeries remain viable options for concerned parents.[4]

Traditionally tongue-ties are diagnosed by appearance alone; newer research advocates for a functional assessment to determine any deleterious effect on breastfeeding. Before any surgical intervention for difficulties related to breastfeeding, preoperative consultation with a certified lactation consultant is recommended.[5]

Laser frenectomy with CO2 surgical lasers

Frenectomies can be safely and efficiently released with the soft tissue 10,600 nm CO2 laser with predictable and repeatable tissue response, fast ablation and instant hemostasis.[6] The extremely precise cutting, minimal collateral damage, clear and bloodless operating field, make the CO2 laser a good choice for frenectomy procedures.[7] [8] CO2 laser oral surgery also features less wound contraction and reduced scarring or fibrosis in comparison with scalpel incisions.[9]

Further reading

Notes and References

  1. Book: Archer, WH. Oral and Maxillofacial Surgery. W.B. Saunders Co. 1952. 407.
  2. Book: Tongue-Tied: How a Tiny String Under the Tongue Impacts Nursing, Speech, Feeding, and More. Baxter. Richard. Musso. Megan. Hughes. Lauren. Lahey. Lisa. Fabbie. Paula. Lovvorn. Marty. Emanuel. Michelle. Agarwal. Rajeev. Alabama Tongue-Tie Center. 2018. 978-1-7325082-0-0. United States. 19–34.
  3. Ghaheri. Bobak A.. Cole. Melissa. Fausel. Sarah C.. Chuop. Maria. Mace. Jess C.. 2017. Breastfeeding improvement following tongue-tie and lip-tie release: A prospective cohort study. The Laryngoscope. en. 127. 5. 1217–1223. 10.1002/lary.26306. 27641715. 1531-4995. 5516187.
  4. Web site: Posterior tongue tie: the internet phenomenon driving a lucrative private industry . Fraser . Lyndsay . Benzie . Stuart . Montgomery . Jenny . 2 October 2020 . BMJ Opinion . . 12 June 2020 .
  5. Merkel-Walsh. Robyn. Gatto. Kristie. 2021. The Team Approach in Treating Oral Sensory-Motor Dysfunction in Newborns, Infants and Babies with a Diagnosis of Tethered Oral Tissue. Journal of the American Laser Study Club. 4. 1. 28–45. 2576-7852.
  6. Riek. C. Vitruk. P. Spring 2018. Incision and Coagulation/Hemostasis Depth Control During a CO2 Laser Lingual Frenectomy. Dental Sleep Practice. MedMark. 32–38.
  7. Chiniforush. Nasim. Ghadimi. Sara. Yarahmadi. Nazli. Kamali. Abbas. 2013. Treatment of Ankyloglossia with Carbon Dioxide (CO2) Laser in a Pediatric Patient. Journal of Lasers in Medical Sciences. 4. 1. 53–55. 2008-9783. 4281972. 25606307.
  8. Book: Fiorotti. Renata C.. Bellini. Bruno S.. Cassitas. Nilceu P.. Baldin. Diva H. Z.. Nicola. Ester M. D.. John D. B. Featherstone. Peter. Rechmann. Daniel. Fried. 2000. Use of CO2 laser in lingual and labial frenectomy. 3910. 117–123. 10.1117/12.380818. Use of CO 2 laser in lingual and labial frenectomy. Lasers in Dentistry VI. 71245438.
  9. Zeinoun. T.. Nammour. S.. Dourov. N.. Aftimos. G.. Luomanen. M.. 2001. Myofibroblasts in healing laser excision wounds. Lasers in Surgery and Medicine. 28. 1. 74–79. 10.1002/1096-9101(2001)28:1<74::aid-lsm1019>3.3.co;2-2. 0196-8092. 11430446.