Antibiotic prophylaxis in otolaryngologic surgery

Ana Carolina Xavier Ottoline; Shiro Tomita; Marise da Penha Costa Marques; Felippe Felix; Priscila Novaes Ferraiolo; Roberta Silveira Santos Laurindo

doi:10.7162/S1809-97772013000100015

. 2013 Jan;17(1):85–91. doi: 10.7162/S1809-97772013000100015

Antibiotic prophylaxis in otolaryngologic surgery

Ana Carolina Xavier Ottoline ^1,^✉, Shiro Tomita ², Marise da Penha Costa Marques ³, Felippe Felix ³, Priscila Novaes Ferraiolo ⁴, Roberta Silveira Santos Laurindo ⁴

PMCID: PMC4399606 PMID: 25991999

Summary

Aim: Antibiotic prophylaxis aims to prevent infection of surgical sites before contamination or infection occurs. Prolonged antibiotic prophylaxis does not enhance the prevention of surgical infection and is associated with higher rates of antibiotic-resistant microorganisms. This review of the literature concerning antibiotic prophylaxis, with an emphasis on otolaryngologic surgery, aims to develop a guide for the use of antibiotic prophylaxis in otolaryngologic surgery in order to reduce the numbers of complications stemming from the indiscriminate use of antibiotics.

Keywords: Antibiotic Prophylaxis, Otorhinolaryngologic Surgical Procedures, Infection

Introduction

Surgical antibiotic prophylaxis is defined as the administration of an antimicrobial agent prior to contamination of previously sterile spaces and fluids¹. The purpose of this procedure is to eradicate transient organisms with the potential to colonize and slow the growth of resident microbes, thus preventing surgical infection¹. Antibiotic prophylaxis should be performed in conjunction with any surgery associated with a high risk for infection or when the consequences of infection would be disastrous (even if the risk for infection is low)².

According to the classification scheme of the American National Academy of Science and the National Research, surgical wounds are classified as clean injuries (no violation of septic technique, no manipulation of the gastrointestinal tract or genitourinary, or respiratory system, and no sign of inflammation), clean-contaminated injuries (manipulation of the digestive or respiratory tract and/or minimal violation of sterile technique), contaminated injuries (active inflammation and/or violation of sterile technique), or dirty injuries (purulent inflammation)³.

The choice of antibiotic is influenced by the need for the drug to be administered intravenously to be effective against agents that might colonize the surgical site and to be bactericidal, achieve adequate tissue levels, cause minimal side effects, be relatively cost-effective (half-life), and have a minimal impact on the local colonizers of the patient and the hospital⁴. Cefazolin meets all of these requirements and is thus the first choice for surgical prophylaxis for clean-contaminated head and neck surgeries according to the recommendations of the Antimicrobial Agents Committee of the Surgical Infections Society and American Society of Health-System Pharmacists of 1999. Clindamycin should be used in patients allergic to beta-lactams. Amoxicillin-clavulanate is the first choice for surgeries with risk for contamination by anaerobes⁴.

Antibiotic prophylaxis should be initiated during anesthesia. The dose should be repeated only if the surgical time exceeds the half-life of the antibiotic or if major bleeding (10–20% of the blood volume) occurs. Prolonged antibiotic prophylaxis does not enhance the prevention of surgical infection and is associated with higher levels of bacterial resistance⁵. Furthermore, the indiscriminate use of antibiotics can lead to serious complications such as toxic reactions, reduces the stimulus to antibody formation, and is financially burdensome⁶.

This article will discuss the main aspects of antibiotic prophylaxis, with an emphasis on otolaryngologic surgeries, and its main objective is to develop a guide for the use of antibiotic prophylaxis in otolaryngologic surgeries in order to reduce the complications of the indiscriminate use of antibiotics.

Review

Pharyngeal surgeries

The most common pharyngeal colonizers are Gram- positive cocci, mainly Peptostreptococcus and Peptococcus spp., and anaerobic bacteria⁴ ⁷. In the oropharynx, anaerobes are 10 times more numerous than aerobes⁷. Gram-negative bacteria are rare in the secretions of healthy individuals; nevertheless, organisms such as Klebsiella, Pseudomonas, Proteus, and some Bacteroides species (other than B. fragilis) are common colonizers of the aerodigestive tracts of oncology patients⁸.

Adenotonsillectomy

Adenotonsillectomy has high immediate postoperative morbidity, including sore throat, dysphagia, fever, halitosis, weight loss, and reluctance to take food orally^9.10.

Colonization of the open tonsillar fossa by the oropharyngeal flora has been suggested to produce a local inflammatory response that exacerbates postoperative pain⁹. This idea inspired several studies of the relationship between the perioperative use of antibiotics and postoperative morbidity¹¹.

According to OBESO S et al. in 2010¹², the administration of antibiotics in pediatric patients significantly reduced the early return to normal diet (level of evidence A), did not reduce pain or the risk for bleeding (level A) and did not provide major benefits over the postoperative application of topical antibiotics (level A), while topical antibiotics were more effective than systemic antibiotics at reducing pain (level B).

Although the findings of individual studies vary, there is no evidence to support a consistent, clinically important, beneficial effect of antibiotics on the major morbid outcomes of tonsillectomy. The limited benefit of antibiotics observed may have resulted from a positive bias introduced by several important methodological shortcomings in the included trials. Therefore, based on existing evidence, we would advocate against the routine prescription of antibiotics to patients undergoing tonsillectomy¹³.

The only established reason for antibiotic prophylaxis in tonsillectomy is to prevent endocarditis and sepsis in patients with orthopedic implants or prosthetic valves or a history of previous endocarditis, congenital heart disease, or transplant with valvulopathy¹¹.

Uvulopalatopharyngoplasty

There are no controlled studies showing a benefit or necessity of perioperative antibiotic administration. As the procedure involves an incision in the pharyngeal mucosa, with the consequent risk for infection by anaerobes, we recommend the use of prophylactic antibiotics in this surgery¹⁴.

Rhinologic surgeries

Even healthy individuals have potentially pathogenic species such as S. aureus, Klebsiella spp., and Escherichia coli in their nostrils in 77% of cases. Between 18% and 50% of patients are colonized by S. aureus ¹⁵.

Septoplasty

There are few studies demonstrating the necessity or effectiveness of antibiotic prophylaxis in nasal surgery. Many authors therefore consider it unnecessary⁶.

Surgical procedures on the aerodigestive tract are considered potentially contaminated and may be associated with postoperative infectious complications such as toxic shock syndrome, osteomyelitis, meningitis, and cavernous sinus thrombosis⁶. Bacteremia can lead to endocarditis in at-risk patients, such as patients with valvular prostheses, cardiac transplants, or histories of endocarditis. An antibiotic is recommended in such cases¹⁶ ¹⁷.

Staphylococcal toxic shock syndrome is extremely rare, with an estimated incidence of 0.0002%, but there is evidence that it can be prevented by the prophylactic use of antibiotics. There are no studies showing the incidence of bacteremia when nasal packing antibiotics are used¹².

Scientific evidence shows that systemic administration of antibiotics does not reduce morbidity or infection after septoplasty (level A), antibiotics do not protect against S. aureus colonization and do contribute to decreased levels of normal flora¹⁸, antibiotics do not seem to confer beneficial flora changes¹⁸, and topical antibiotics decrease colonization of nasal septoplasty sites (level A)¹².

No studies showed a benefit of the perioperative use of systemic antibiotics in septoplasty⁶. Therefore, septal surgery does not require routine antibiotic prophylaxis because of the low risk for infection¹⁹.

Rhinoplasty and other nasal surgeries

Antibiotic prophylaxis is not necessary in primary rhinoplasty without grafting or septoplasty.

In complex nasal surgeries, such as secondary septorhinoplasty, nasal graft surgery, or the repair of septal defects, the infection rate reaches 27%²⁰. These patients might benefit from the use of antibiotics, but there are no studies comparing the perioperative use of antibiotics versus placebo²⁰. Although the benefits of prophylactic antibiotics for this type of indication remain uncertain, most authors recommend their use in such cases²⁰.

Laryngeal surgeries

Isolates of bacteria from infected clean-contaminated head and neck surgery wounds commonly have polymicrobial characteristics. Gram-positive bacteria are most frequently isolated, followed by Gram-negative species and anaerobes²¹.

Laryngeal microsurgery

The infection rate is low, and there are no clinical trials showing a benefit of antibiotic use in these surgeries.

Other laryngeal surgeries

Antibiotic therapy is necessary in complex laryngeal surgeries such as total laryngectomy. The presence of potentially pathogenic bacteria, the duration of the procedure, and the use of flaps lead to a high rate of infection in the absence of antibiotic²².

Endoscopic sinus surgery

There are potentially pathogenic species such as S. aureus, Klebsiella spp., and/or Escherichia coli in the nostrils in 77% of cases²³. In patients diagnosed with chronic rhinosinusitis, repeated antibiotic therapy has selected for resistant pathogenic species. Up to 90% of patients undergoing endoscopic sinonasal surgery produce positive cultures; most of the species isolated are resistant to penicillin, and 65% are resistant to cephalosporins²⁴.

Endoscopic sinus surgery for chronic rhinosinusitis

We suggest amoxicillin-clavulanate and prednisolone for 14 days, beginning 7 days before surgery, for the treatment of chronic infectious processes and reduction of intraoperative complications²⁵ and to improve the postoperative results. Antibiotic prophylaxis is recommended during anesthesia.

Endoscopic surgery for closure of cerebrospinal fluid fistulae

Perioperative systemic administration of antibiotics reduces the incidence of postoperative infection¹².

Endoscopic sphenopalatine artery ligation

Antibiotics are not recommended for this procedure because it is considered a clean surgery³.

Dacryocystorhinostomy

Infection occurs after 8% of surgeries that open the lacrimal sac. Antibiotic administration can reduce this rate by up to 5-fold²⁶, justifying the use of antibiotic prophylaxis.

Resection of nasal tumors by an external approach

Antibiotics are recommended because of the high rate of infectious complications²⁷.

Otologic surgeries

Postoperative infection in otology manifests as loss of the neotympanic graft, labyrinthitis, surgical wound infection, or the occurrence of otitis media or external otitis.

Verschuur et al.²⁸ have proposed the following classification scheme: clean surgery: myringoplasty, stapedectomy, ossicular reconstruction, and dry ears; clean-contaminated or dirty surgery: ears with preoperative suppuration (chronic otitis media with or without cholesteatoma).

The Pseudomonas species isolated from the ear are highly sensitive to polymyxin B, ciprofloxacin, and gentamicin, while the Staphylococcus species are sensitive to cloxacillin, gentamicin, and ciprofloxacin. Most isolates obtained during episodes of otorrhea are polymicrobial. The microbiological profile of otitis media with cholesteatoma is similar to that of simple chronic otitis media except that anaerobes, mainly Bacteroides and Peptococcus, are more frequent; anaerobes have been isolated in up to two-thirds of cases of otorrhea with cholesteatoma. Although otitis media with effusion is assumed not to present with active infection, microorganisms, most frequently Haemophilus influenza, Moraxella catarrhalis, and Streptococcus pneumoniae, are isolated in up to 50% of cases.

The incidence of postoperative infection has been estimated at less than 5% after clean surgery but between 7 and 14% after clean-contaminated surgery²⁹. The most common infectious agents encountered after clean otologic surgery are species of S. aureus and other Gram-positive bacteria³⁰. The bacteria most frequently isolated from cases of chronic otitis media without cholesteatoma are Pseudomonas aeruginosa and Staphylococcus species, mainly S. aureus. The other Gram-negative organisms encountered are, in order of frequency, Klebsiella, Proteus, and Haemophilus; the remaining Gram-positive bacteria are predominantly Streptococci, and the isolation of anaerobes is uncommon³¹.

Chronic otitis media with cholesteatoma differs from that without in that anaerobes, especially Bacteroides and Peptococcus, are the most common isolates; otherwise, the bacteriological profile is similar²⁸.

Although serous otitis media involves no active infection, microorganisms, most frequently Haemophilus influenzae, M. catarrhalis, and Streptococcus pneumoniae, are isolated in 50% of cases³¹.

According to Obeso et al. in 2010¹², systemic administration of antibiotics does not reduce the incidence of infection after clean (level A) or clean-contaminated (level B) surgery and provides no benefit over topical antibiotic treatment in clean-contaminated surgery (level B); perioperative systemic administration of antibiotics did reduce infection in cases of clean-contaminated surgery with positive preoperative cultures (level B).

Tympanoplasty

There is no evidence that perioperative systemic administration of antibiotics decreases the incidence of infection¹².

Mastoidectomy

Antibiotic use is always recommended. In cases with perioperative otorrhea, antibiotics should be administered post-operatively¹².

Stapedotomy

There is no evidence to recommend the perioperative use of systemic antibiotics in patients undergoing clean otologic surgery²⁸. However, antibiotic prophylaxis is recommended in cases in which a surgical infection could evolve with serious consequences, such as deafness or labyrinthitis.

Cochlear Implants

Cochlear implant surgery is considered a clean surgery, and there are no randomized studies comparing the incidence of local infection between patients with and without antibiotic treatment¹¹. Perioperative systemic administration of antibiotics has been suggested to reduce the incidence of meningitis¹².

Ossicular Reconstruction

Ossicular reconstruction is considered a clean surgery²⁸. Perioperative systemic administration of antibiotics is not recommended because the incidence of infection is low¹².

Otoplasty

Otoplasty is considered a clean surgery. Careful asepsis and antisepsis are essential for preventing infection. Infection of either the skin or subcutaneous tissue or perichondritis is unusual after otoplasty²⁶.

Insertion of transtympanic drainage tubes

According to Verschuur et al., ears without effusion are considered clean, those with seromucous effusion clean-contaminated, and those with purulent effusion dirty²⁸. Several well-designed studies have shown no significant difference in the incidence of otorrhea between patients treated postoperatively with oral or topical antibiotics. As the efficacy of intraoperative irrigation with saline solution was confirmed in another randomized clinical trial, there is a level of evidence of “A” to recommend washing the ear with this solution¹².

Surgery on the salivary glands

Some surgeries, such as parotidectomy and resection of the submandibular glands, are considered clean³. Antibiotic prophylaxis is not routinely recommended in such cases³².

Discussion

Most otolaryngologic surgeries are considered potentially contaminated, and prophylaxis is recommended in some cases. In consideration of the principles of antibiotic prophylaxis and the particularities of each surgical procedure, we make the following recommendations.

General Recommendations

Indications: Antibiotic prophylaxis is indicated in surgeries in which complications are frequent or severe and studies show the effectiveness of this use and also in procedures considered high risk but for which there are insufficient data to prove the effectiveness of prophylaxis.
Best time for antibiotic prophylaxis: About 30 minutes before the incision, usually coinciding with the induction of anesthesia in order to ensure adequate serum and tissue drug concentrations at the time of tissue damage.
Recommended doses: The recommended initial dose is the maximum indicated for each drug. Protective plasma levels must be maintained throughout the surgery. The dose should be repeated during surgery according to the half-life of the chosen antibiotic.
Duration of prophylaxis: There is no advantage to prolonging prophylaxis beyond the surgical time in the majority of patients.
Patients already receiving antibiotics: When the patient has an infection that requires antibiotic treatment and also requires surgical intervention, we recommend a dose adjustment to ensure that the next administration time is during the surgery and that the tissue drug concentration is maintained throughout the procedure. The antibiotic can be continued postoperatively for a variable period according to the details of the individual case.
Prolonged antibiotic prophylaxis is not indicated for accidental contamination of the surgical site.
With the exception of patients with an infection (i.e., those for whom the prescription of antibiotics has a therapeutic purpose), oral antibiotics should not be prescribed after discharge. (Table 1 and 2)

Table 1. Suggestions for antibiotic prophylaxis in otolaryngologic surgery.

Antibiotic	Initial dose (induction)	Additional doses during surgery	Dose in children	Dose in patients over 90 kg
Cefazolin	2 g	1 g every 3 h	50 mg/kg for induction Half of the initial dose every 3 h	3 g for induction 1.5 g every 3 h
Amoxicillin + sulbactam or Amoxicillin-clavulanate	1.5 g	1 g every 3 h	40 mg/kg for induction Half of the initial dose every 3 h	2 g for induction 1.5 g every 3 h
Clindamycin	600 mg	None necessary	30 mg/kg up to 600 mg for induction The minimum dose must be 300 mg regardless of body weight	900 mg for induction

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Note: 1 - Clindamycin should be reserved for patients allergic to beta-lactams.

2 - Amoxicillin-clavulanate is recommended for chronic otitis media.

Table 2. Antibiotic prophylaxis in otolaryngologic surgery.

When should it be used?	When should it not be used?
Endoscopic sinus surgery for chronic rhinosinusitis	Adenotonsillectomy
Nasal graft surgery	Insertion of transtympanic drainage tubes
Dacryocystorhinostomy	Endoscopic sphenopalatine artery ligation
Stapedotomy	Lymphadenectomy
Endoscopic surgery for closure of cerebrospinal fluid fistulae	Laryngeal microsurgery
Cochlear implants	Otoplasty
Total laryngectomy	Parotidectomy
Mastoidectomy	Ossicular reconstruction
Repair of septal defects	Primary septorhinoplasty
Resection of nasal tumors by an external approach	Septoplasty
Review septorhinoplasty	Resection of the submandibular glands
Uvulopalatopharyngoplasty	Tympanoplasty

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Final Comments

Antibiotic prophylaxis in otolaryngologic surgery remains a controversial topic that requires further study. Based on this discussion, we propose a guide for uniform procedures in order to reduce the damage caused by the misuse of antibiotics.

References

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[JR170115-1] 1.Fennessy B G, Harney M, O'Sullivan M J, Timon G. Antimicrobial prophylaxis in otorhinolaryngology/head and neck surgery. Clin Otolaryngol. 2007;32:204–7. doi: 10.1111/j.1365-2273.2007.01440.x. [DOI] [PubMed] [Google Scholar]

[BR170115-2] 2.Fairbanks D N et al. Head and Neck Otolaryngology. Third edition Philadelphia, Lippincott: Williams& Wilkins; 2001. p.47–54 [Google Scholar]

[JR170115-3] 3.Tandon J T, Jonson J T. Wound infection in head and neck surgery: prophylaxis, etiology and management. J Otolaryngol. 1990;19:197–200. [PubMed] [Google Scholar]

[JR170115-4] 4.American Society of Health-System Pharmacists. ASHP therapeutic guidelines on antimicrobial prophylaxis in surgery. Am J Health Syst Pharm. 1999;56:1839–88. doi: 10.1093/ajhp/56.18.1839. [DOI] [PubMed] [Google Scholar]

[JR170115-5] 5.Strong M T. Wound infection in otolaryngologic surgery and the inexpediency of antibiotic prophylaxis. Laryngoscope. 1963;73(2):165–84. doi: 10.1288/00005537-196302000-00003. [DOI] [PubMed] [Google Scholar]

[JR170115-6] 6.Caniello M, Passerotti G H, Goto E Y, Voegels R L, Butugan O. Antibiotics in septoplasty: is it necessary? Rev Bras Otorrinolaringol. 2005;71(6):734–8. doi: 10.1016/S1808-8694(15)31241-6. [DOI] [PMC free article] [PubMed] [Google Scholar]

[JR170115-7] 7.Weber R S, Callender D L. Antibiotic prophylaxis in cleancontaminated head and neck oncologic surgery. Ann Otol Rhinol Laryngol Suppl. 1992;155:16–20. doi: 10.1177/00034894921010s104. [DOI] [PubMed] [Google Scholar]

[JR170115-8] 8.Bartlett G, Gorbach S L. Anaerobic infections of the head and neck. Otolaryngol Clin North Am. 1976;9:655–78. [PubMed] [Google Scholar]

[JR170115-9] 9.Mann E R, Blair E A, Levy A J, Chang A. Effect of topical antibiotic therapy on recovery after tonsillectomy in adults. Otolaryngology- Head and Neck Surgery. 1999;121(3):277–82. doi: 10.1016/S0194-5998(99)70185-3. [DOI] [PubMed] [Google Scholar]

[JR170115-10] 10.Grandis J. et al. The efficacy of perioperative antibiotic therapy on recovery following tonsillectomy in adults: Randomized doubleblind placebo controlled trial. Otolaryngology - Head and Neck Surgery. 1992;106(2):137–42. doi: 10.1177/019459989210600203. [DOI] [PubMed] [Google Scholar]

[JR170115-11] 11.Piltcher O B, Scarton F B. Antibiotics in tonsillectomies: therapeutic or prophylactic? Necessary or outrageous? Rev Bras Otorrinolaringol. 2005;71(5):686–90. doi: 10.1016/S1808-8694(15)31275-1. [DOI] [PMC free article] [PubMed] [Google Scholar]

[JR170115-12] 12.Obeso S. et al. Antibiotic prophylaxis in otolaryngologic surgery. Acta Otorrinolaringol Esp. 2010;61(1):54–68. doi: 10.1016/j.otorri.2008.12.006. [DOI] [PubMed] [Google Scholar]

[JR170115-13] 13.Dhiwakar M Clement W A Supriya McKerrow W Antibiotics to reduce post-tonsillectomy morbity Cochrane Database Syst Rev 2010. Jul 7;(7CD005607. [DOI] [PubMed] [Google Scholar]

[JR170115-14] 14.Antimicrobial prophylaxis for surgery. Treat Guidel Med Lett. 2009;7:47. [PubMed] [Google Scholar]

[JR170115-15] 15.Gluck U, Gebbers J O. The nose as bacterial reservoir: important differences between the vestibule and cavity. Laryngoscope. 2000;110:426–8. doi: 10.1097/00005537-200003000-00019. [DOI] [PubMed] [Google Scholar]

[JR170115-16] 16.Kaygusuz I, Kizirgil A, Karlidag T, Yalcin S, Keles E, Yakupogullri Y. et al. Bacteriemia in septoplasty and septorhinoplasty surgery. Rhinology. 2003;41:76–9. [PubMed] [Google Scholar]

[JR170115-17] 17.Jayawardena S, Eisdorfer J, Indulkar S, Zarkaria M. Infective endocarditis of native valve after anterior nasal packing. Am J Ther. 2006;13:460–2. doi: 10.1097/01.mjt.0000209683.99205.4f. [DOI] [PubMed] [Google Scholar]

[JR170115-18] 18.Karaman E, Alimoglu Y, Aygun G, Kilic E, Yagiz C. Effect of septoplasty and per-operative antibiotic prophylaxis on nasal flora. B-ENT. 2012;8(1):13–9. [PubMed] [Google Scholar]

[JR170115-19] 19.Ricci G D'Ascanio L Antibiotics in septoplasty: evidence or habit? Am J Rhinol Allergy 2012. May-Jun; 263194–6. [DOI] [PubMed] [Google Scholar]

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PERMALINK

Antibiotic prophylaxis in otolaryngologic surgery

Ana Carolina Xavier Ottoline

Shiro Tomita

Marise da Penha Costa Marques

Felippe Felix

Priscila Novaes Ferraiolo

Roberta Silveira Santos Laurindo

Summary

Introduction

Review

Pharyngeal surgeries

Adenotonsillectomy

Uvulopalatopharyngoplasty

Rhinologic surgeries

Septoplasty

Rhinoplasty and other nasal surgeries

Laryngeal surgeries

Laryngeal microsurgery

Other laryngeal surgeries

Endoscopic sinus surgery

Endoscopic sinus surgery for chronic rhinosinusitis

Endoscopic surgery for closure of cerebrospinal fluid fistulae

Endoscopic sphenopalatine artery ligation

Dacryocystorhinostomy

Resection of nasal tumors by an external approach

Otologic surgeries

Tympanoplasty

Mastoidectomy

Stapedotomy

Cochlear Implants

Ossicular Reconstruction

Otoplasty

Insertion of transtympanic drainage tubes

Surgery on the salivary glands

Discussion

General Recommendations

Table 1. Suggestions for antibiotic prophylaxis in otolaryngologic surgery.

Table 2. Antibiotic prophylaxis in otolaryngologic surgery.

Final Comments

References

ACTIONS

PERMALINK

RESOURCES

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