Functional endoscopic sinus surgery explained

Functional endoscopic sinus surgery
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Functional endoscopic sinus surgery (FESS) is a procedure that is used to treat sinusitis and other conditions that affect the sinuses. Sinusitis is an inflammation of the sinuses that can cause symptoms such as congestion, headaches, and difficulty breathing through the nose.

FESS is a minimally invasive procedure that is performed using an endoscope, a thin, rigid tube with a camera on the end. The endoscope is inserted through the nostrils, allowing the surgeon to visualize the inside of the nasal passages and sinuses. The surgeon can then remove any tissue or obstruction that is blocking the sinuses, such as swollen or infected tissue.

FESS is generally considered to be a safe and effective treatment for sinusitis and other conditions that affect the sinuses. It can help to alleviate symptoms and improve the overall functioning of the sinuses. However, as with any medical procedure, there are potential risks and complications that should be discussed with a healthcare provider.

History

The first recorded instance of endoscopy being used to visualize the nasal passage took place in Berlin in 1901.[1] Alfred Hirschmann, a designer and maker of medical instruments, modified a cystoscope for use in the nasal cavity. In October 1903, Hirschmann published "Endoscopy of the nose and its accessory sinuses."[2] In 1910, M. Reichart performed the first endoscopic sinus surgery using a 7 mm endoscope.

In 1925, Maxwell Maltz created the term "sinuscopy," referring to the endoscopic method of visualizing the sinuses. Maltz also encouraged the use of endoscopes as a diagnostic tool for nasal and sinus abnormalities.

In the 1960s, Harold Hopkins, then a PhD at the University of Reading, used his background in physics to develop an endoscope that provided more light and had drastically better resolution than previous endoscopes. Hopkins' rod optic system is widely credited with being a turning point for nasal endoscopy. Utilizing Hopkins' rod optic system, Walter Messenklinger visualized, recorded, and mapped the anatomy of the paranasal sinuses and the lateral nasal walls - specifically, the mucociliary routes - in cadavers.[3] In 1978, Messerklinger published the book titled "Endoscopy of the Nose" on his findings, and his proposed methods to utilize nasal endoscopy for diagnosis.[4]

Heinz Stammberger,[5] a head and neck surgeon who worked at the University of Graz with Messerklinger was captivated by the technique and the implications for pathophysiology and treatment of sinus disease. He adopted the technique and became identified with it. He traveled the world advocating and popularizing the technique and he carried out multiple courses both at University of Graz and around the world. He later met David Kennedy, a physician at Johns Hopkins University, and together, they worked with the surgical instrument maker Karl Storz to develop instruments for use in endoscopic sinus surgery, and coined the term Functional Endoscopic Sinus Surgery. Stammberger and Kennedy published multiple papers on FESS use and technique, and in 1985 the first North American course on FESS was taught at Johns Hopkins Hospital in Baltimore. Stammberger, the chair of otolaryngology at University of Graz, and Kennedy, refined the techniques and provided hands-on courses on the techniques throughout the world. Stammberger retired from his position as the chair of the department in Graz and moved to Dubai, where he worked with Muaaz Tarabichi, also known as "the father of endoscopic ear surgery", to establish the Tarabichi Stammberger Ear and Sinus Institute (TSESI), a center dedicated to the advancement of endoscopic ear and sinus surgery.[6] Stammberger died in 2018.[5] There was a rise in the overall number of endoscopic sinus surgery procedures performed between 2010 - 2019 in the UK which coincided with a reduction in the number of open procedures performed over the same period.[7]

Medical applications

Functional endoscopic sinus surgery is most commonly used to treat chronic rhinosinusitis (CRS),[8] only after all non-surgical treatment options such as antibiotics, topical nasal corticosteroids, and nasal lavage with saline solutions[9] have been exhausted. CRS is an inflammatory condition in which the nose and at least one sinus become swollen and interfere with mucus drainage. It can be caused by anatomical factors such as a deviated septum or nasal polyps (growths), as well as infection. Symptoms include difficulty breathing through the nose, swelling and pain around the nose and eyes, postnasal drainage down the throat, and difficulty sleeping.[10] CRS is a common condition in children and young adults.[11]

The purpose of FESS in treatment of CRS is to remove any anatomical obstructions that prevent proper mucosal drainage. A standard FESS includes removal of the uncinate process, and opening of the ethmoid air cells and Haller cells[12] as well as the maxillary ostium, if necessary. If any nasal polyps obstructing ventilation or drainage are present, they are also removed. In the case of paranasal sinus/nasal cavity tumors (benign or cancerous), an otolaryngologist can perform FESS to remove the growths, sometimes with the help of a neurosurgeon, depending on the extent of the tumor. In some cases, a graft of bone or skin is placed by FESS to repair damages by the tumor.[13]

In the thyroid disorder known as Graves' ophthalmopathy, inflammation and fat accumulation in the orbitonasal region cause severe proptosis.[14] In cases that have not responded to corticosteroid treatment, FESS can be used to decompress the orbital region by removing the ethmoid air cells and lamina papyracea. Bones of the orbital cavity or portions of the orbital floor may also be removed.

The endoscopic approach to FESS is a less invasive method than open sinus surgery, which allows patients to be more comfortable during and after the procedure. Entering the surgical field via the nose, rather than through an incision in the mouth as in the previous Caldwell-Luc method, decreases risk of damaging nerves which innervate the teeth. Because of its less-invasive nature, FESS is a common option for children with CRS or other sinonasal complications.

It has been suggested that one of the main objectives in FESS surgery is to allow for the introduction of local therapeutic agents (such as steroids) to the sinuses. Research has shown that a special modification of the nozzle of the nasal spray in patients who had FESS allows for better delivery of local therapeutic agents into the ethmoid sinuses.[15]

Outcomes and complications

Functional Endoscopic Sinus Surgery is considered a success if most of the symptoms, including nasal obstruction, sleep quality, olfaction and facial pain, are resolved after a 1-2 month postoperative healing period.[16] [17] Reviews of FESS as a method for treating chronic rhinosinusitis have shown that a majority of patients report increased quality of life after undergoing surgery.[18] The success rate of FESS in treating adults with CRS has been reported as 80-90%,[19] and the success rate in treating children with CRS has been reported as 86-97%.

The most common complication of FESS is cerebrospinal fluid leak (CSFL), which has been observed in about 0.2% of patients. Generally, CSFL arises during surgery and can be repaired with no additional related complications postoperatively. Other risks of surgery include infection, bleeding, double vision usually lasting a few hours, numbness of the front teeth, orbital hematoma, decreased sense of smell, and blindness.[20] [21] The medial rectus muscle may be damaged.[22] Blindness is the single most serious complication of FESS, and results from damage to the optic nerve during surgery. Serious complications such as blindness occur in only 0.44% of cases, as determined by a study performed in the United Kingdom.

A Cochrane review in 2006 based on three randomized control trials concluded that FESS has not been shown to provide significantly better results than medical treatment for chronic rhinosinusitis.[23] Another Cochrane review looked at postoperative care of patients after FESS using debridement (removal of blood clots, crusts, and secretions from the nasal and sinus cavities under local anaesthetic), but the evidence from the available clinical trials was uncertain. The debridement procedure after FESS may make little or no difference to health‐related quality of life or disease severity. There may be a lower risk of adhesions but whether this has any impact on long‐term outcomes is unknown.[24]

Functional sinus surgery had been grossly overutilized as a way of treating headache based on an assumption of a sinus etiology of the different types of primary headache. Many patients, primary care providers, and even specialists confuse any frontal migraine for sinus disease. Multiple attempts at further definition of primary headache and or sinus headache has been suggested by the International Headache Society and the American Academy of Otolaryngology-Head and Neck Surgery.[25] It has been suggested early on that such a confusion might be a cause of failure of functional endoscopic sinus surgery.[26]

Notes and References

  1. Tajudeen BA, Kennedy DW . Thirty years of endoscopic sinus surgery: What have we learned? . World Journal of Otorhinolaryngology - Head and Neck Surgery . 3 . 2 . 115–121 . June 2017 . 29204590 . 5683659 . 10.1016/j.wjorl.2016.12.001 .
  2. Hirschmann. Alfred . October 1903 . Endoscopy of the nose and its accessory sinuses . The Laryngoscope . 13. 10. 810. 10.1288/00005537-190310000-00015 . free .
  3. Kane. Kevin J. . 17 January 2018. The early history and development of endoscopic sinonasal surgery in Australia: 1985–2005 . Australian Journal of Otolaryngology . 1. 1. 7 . 10.21037/ajo.2018.01.08 . free .
  4. Book: Walter., Messerklinger . Endoscopy of the nose. 1978. Urban & Schwarzenberg . 0806712112 . Baltimore . 3447558 .
  5. Web site: Professor Heinz Stammberger (1946-2018): The Father of Endoscopic Sinus Surgery. 8 February 2021. ENT & Audiology News. en.
  6. Web site: Shifting paradigms – how a visionary can change a specialty. 8 February 2021. ENT & Audiology News. en.
  7. Gupta . Keshav Kumar . Jolly . Karan . Bhamra . Navdeep . Osborne . Max Sallis . Ahmed . Shahzada Khuram . July 2021 . The evolution of sinus surgery in England in the last decade - An observational study . World Journal of Otorhinolaryngology - Head and Neck Surgery . 7 . 3 . 240–246 . 10.1016/j.wjorl.2020.10.002 . 2589-1081 . 8356113 . 34430832.
  8. Slack R, Bates G . September 1998 . Functional endoscopic sinus surgery . American Family Physician . 58 . 3 . 707–18 . 9750539.
  9. Cazzavillan A, Castelnuovo P, Berlucchi M, Baiardini I, Franzetti A, Nicolai P, Gallo S, Passalacqua G . August 2012 . Management of chronic rhinosinusitis . Pediatric Allergy and Immunology . 23 . Suppl 22 . 32–44 . 10.1111/j.1399-3038.2012.01322.x . 22762852 . 8635561.
  10. News: Chronic sinusitis - Symptoms and causes. Mayo Clinic. 9 June 2018. en.
  11. Makary CA, Ramadan HH . The role of sinus surgery in children . The Laryngoscope . 123 . 6 . 1348–52 . June 2013 . 23361382 . 10.1002/lary.23961 . 7977026 .
  12. Levine CG, Casiano RR . Revision Functional Endoscopic Sinus Surgery . Otolaryngologic Clinics of North America . 50 . 1 . 143–164 . February 2017 . 27888911 . 10.1016/j.otc.2016.08.012 .
  13. Web site: Treatment of Sinus Tumors. care.american-rhinologic.org. 9 June 2018. 27 December 2018. https://web.archive.org/web/20181227211808/http://care.american-rhinologic.org/surgery_tumors. deviated.
  14. Cury SS, Oliveira M, Síbio MT, Clara S, Luvizotto RA, Conde S, Jorge EN, Nunes VD, Nogueira CR, Mazeto GM . Graves' ophthalmopathy: low-dose dexamethasone reduces retinoic acid receptor-alpha gene expression in orbital fibroblasts . Archives of Endocrinology and Metabolism . 62 . AHEAD . 366–369 . May 2018 . 29791662 . 10.20945/2359-3997000000044 . 10118777 . free .
  15. Kapadia. Mustafa. Grullo. Precious Eunice R.. Tarabichi. Muaaz. August 2019. Comparison of short nozzle and long nozzle spray in sinonasal drug delivery: a cadaveric study. Ear, Nose & Throat Journal. en. 98. 7. E97–E103. 10.1177/0145561319846830. 31064245 . 0145-5613. free.
  16. Prasad S, Fong E, Ooi EH . Systematic review of patient-reported outcomes after revision endoscopic sinus surgery . American Journal of Rhinology & Allergy . 31 . 4 . 248–255 . July 2017 . 28716176 . 10.2500/ajra.2017.31.4446 . 4972917 .
  17. Sukato DC, Abramowitz JM, Boruk M, Goldstein NA, Rosenfeld RM . February 2018 . Endoscopic Sinus Surgery Improves Sleep Quality in Chronic Rhinosinusitis: A Systematic Review and Meta-analysis . Otolaryngology–Head and Neck Surgery . 158 . 2 . 249–256 . 10.1177/0194599817737977 . 29065273 . 23002331.
  18. Soler ZM, Jones R, Le P, Rudmik L, Mattos JL, Nguyen SA, Schlosser RJ . Sino-Nasal outcome test-22 outcomes after sinus surgery: A systematic review and meta-analysis . The Laryngoscope . 128 . 3 . 581–592 . March 2018 . 29164622 . 5814358 . 10.1002/lary.27008 .
  19. Stammberger H, Posawetz W . Functional endoscopic sinus surgery. Concept, indications and results of the Messerklinger technique . European Archives of Oto-Rhino-Laryngology . 247 . 2 . 63–76 . 1990 . 2180446 . 10.1007/bf00183169. 33308615 .
  20. Web site: Functional Endoscopic Sinus Surgery . 9 June 2018 . UNC Otolaryngology/Head and Neck Surgery . 12 November 2020 . https://web.archive.org/web/20201112040700/https://www.med.unc.edu/ent/patient-care/clinical-services/sinus-and-allergy-1/functional-endoscopic-sinus-surgery/ . deviated .
  21. News: Functional Endoscopic Sinus Surgery - Otorhinolaryngology - Head & Neck Surgery. McGovern Medical School . 7 September 2012. Otorhinolaryngology - Head & Neck Surgery. 11 June 2018 .
  22. Huang. Christine M.. Meyer. Dale R.. Patrinely. James R.. Soparkar. Charles N. S.. Dailey. Roger A.. Maus. Marlon. Rubin. Peter A. D.. Yeatts. R. Patrick. Bersani. Thomas A.. Karesh. James W.. Harrison. Andrew R.. January 2003. Medial Rectus Muscle Injuries Associated With Functional Endoscopic Sinus Surgery: Characterization and Management. Ophthalmic Plastic & Reconstructive Surgery. en-US. 19. 1. 25–37. 10.1097/00002341-200301000-00004 . 12544790 . 43492945 . 0740-9303.
  23. Khalil HS, Nunez DA . Functional endoscopic sinus surgery for chronic rhinosinusitis . The Cochrane Database of Systematic Reviews . 3 . CD004458 . July 2006 . 16856048 . 10.1002/14651858.cd004458.pub2 . 27570565 .
  24. Tzelnick S, Alkan U, Leshno M, Hwang P, Soudry E . Sinonasal debridement versus no debridement for the postoperative care of patients undergoing endoscopic sinus surgery . The Cochrane Database of Systematic Reviews . 2018 . CD011988 . November 2018 . 11 . 30407624 . 6517168 . 10.1002/14651858.CD011988.pub2 . Cochrane ENT Group .
  25. Levine. H. Setzen. M. Cady. R. Dodick. D. Schreiber. C. Eross. E. Blumenthal. H. Lumry. W. Berman. G. Durham. P. March 2006. An Otolaryngology, Neurology, Allergy, and Primary Care Consensus on Diagnosis and Treatment of Sinus Headache. Otolaryngology–Head and Neck Surgery. en. 134. 3. 516–523. 10.1016/j.otohns.2005.11.024. 16500456. 30982315.
  26. Tarabichi. M. June 2000. Characteristics of sinus-related pain☆. Otolaryngology–Head and Neck Surgery. en. 122. 6. 842–847. 10.1016/S0194-5998(00)70011-8. 10828796.