Otolaryngology
Canadian Society of Otolaryngology–Head & Neck Surgery
Pediatric Otolaryngology Subspecialty Interest Group
Last updated: May 2024
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Nasal fractures are one of the most common facial fractures in the pediatric population. The decision to perform a closed reduction procedure in the operating room is based on factors such as breathing difficulty and external deformity, which are not assessed effectively by x-ray. Plain film x-rays are unable to accurately evaluate nasal fractures given its low sensitivity and specificity, at 72% and 73% respectively. Physical examination is often sufficient to make a diagnosis for children with displaced nasal fractures. Overall, x-rays do not add value to the diagnosis or treatment plan for children with nasal fractures and should not be ordered to avoid their associated costs and radiation exposure.
Sources:
Desrosiers AE 3rd, Thaller SR. Pediatric nasal fractures: evaluation and management. J Craniofac Surg. 2011;22(4):1327‐9. PMID: 21772190.
Mohammadi A, Ghasemi-Rad M. Nasal bone fracture–ultrasonography or computed tomography? Med Ultrason. 2011;13(4):292‐5. PMID: 22132401.
Nigam A, Goni A, Benjamin A, Dasgupta AR. The value of radiographs in the management of the fractured nose. Arch Emerg Med. 1993;10(4):293‐7. PMID: 8110318.
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Acute bacterial sinusitis (ABS) is a diagnosis that is made based on clinical criteria and has a low prevalence amongst children presenting with respiratory symptoms. Although a normal radiograph, CT, or MRI can help to rule out ABS, an abnormal result does not confirm the diagnosis. Given that many children will have abnormal imaging due to a viral upper respiratory infection during certain times of the year, combined with the potential for exposure to radiation, routine imaging is not recommended. Instances in which imaging would be warranted include if the child is immunocompromised, or if orbital, central nervous system, or other suppurative complications are present.
The American Academy of Pediatrics recommends diagnosing pediatric ABS when (1) cough, nasal discharge or both are persistent for >10 days without improvement; (2) there is worsening or new onset of cough, nasal discharge, or fever; or (3) there is a severe onset, with a fever greater ≥39℃, concurrently with purulent nasal discharge for at least 3 consecutive days.
Sources:
Aitken M, Taylor JA. Prevalence of clinical sinusitis in young children followed up by primary care pediatricians. Arch Pediatr Adolesc Med. 1998;152(3):244‐8. PMID: 9529461.
Gwaltney JM Jr, Phillips CD, Miller RD, Riker DK. Computed tomographic study of the common cold. N Engl J Med. 1994;330(1):25‐30. PMID: 8259141.
Kristo A, Uhari M, Luotonen J, Koivunen P, Ilkko E, Tapiainen T, et al. Paranasal sinus findings in children during respiratory infection evaluated with magnetic resonance imaging. Pediatrics. 2003;111(5 Pt 1):e586‐9. PMID: 12728114.
Wald ER, Applegate KE, Bordley C, Darrow DH, Glode MP, Marcy SM, et al. Clinical practice guideline for the diagnosis and management of acute bacterial sinusitis in children aged 1 to 18 years. Pediatrics. 2013;132(1):e262-80. PMID: 23796742.
Wald ER, Nash D, Eickhoff J. Effectiveness of amoxicillin/clavulanate potassium in the treatment of acute bacterial sinusitis in children. Pediatrics. 2009;124(1):9‐15. PMID: 19564277.
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Although tympanostomy tube insertion can be associated with short-term quality of life improvements, the natural history of otitis media with effusion (OME) is sufficiently favorable and most OME in children will spontaneously resolve within 3 months. Cases of OME which last longer than 3 months are typically chronic in nature, and less likely to resolve without intervention. Limited data exists regarding the efficacy of tympanostomy tube insertion in children with OME for less than 3 months. By delaying the consideration for tympanostomy tube insertion, potentially unnecessary procedures are avoided, along with the associated risks, tube related side effects, and costs. Children excluded from this recommendation include those who have risk factors for developmental difficulties such as trisomy 21, Autism-spectrum disorder, blindness, and permanent hearing loss independent of OME.
Sources:
Hellstrom S, Groth A, Jorgensen F. Ventilation tube treatment: a systematic review of the literature. Otolaryngol Head Neck Surg. 2011;145(3):383-95. PMID: 21632976.
Lous J, Burton MJ, Felding JU, Ovesen T, Rovers MM, Williamson I. Grommets (ventilation tubes) for hearing loss associated with otitis media with effusion in children. Cochrane Database Syst Rev. 2005;(1):CD001801. PMID: 15674886.
Rosenfeld RM, Kay D. Natural history of untreated otitis media. Laryngoscope. 2003;113(10):1645-57. PMID: 14520089.
Rosenfeld RM, Schwartz SR, Pynnonen MA, Tunkel DE, Hussey HM, Fichera JS, et al. Clinical practice guideline: tympanostomy tubes in children. Otolaryngol Head Neck Surg. 2013;149(1):S1-35. PMID: 23818543.
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In most cases, medical treatment using antihistamines, decongestants, systemic antibiotics and steroids have shown little to no effect on the long-term outcomes of uncomplicated otitis media with effusion (OME) in children. Because of this, and the costs and potential side effects, it is not recommended to prescribe these medical treatments for children with uncomplicated OME. The exception to this would be for children with coexisting conditions in which these medications are indicated for primary management.
Sources:
Griffin, G, Flynn, CA. Antihistamines and/or decongestants for otitis media with effusion (OME) in children. Cochrane Database Syst Rev. 2011;9:CD003423. PMID: 21901683.
Rosenfeld RM, Shin JJ, Schwartz SR, Coggins R, Gagnon L, Hackell JM, et al. Clinical practice guideline: otitis media with effusion (update). Otolaryngol Head Neck Surg. 2016;154(1 Suppl):S1‐S41. PMID: 26832942.
Simpson SA, Lewis R, van der Voort J, Butler CC. Oral or topical nasal steroids for hearing loss associated with otitis media with effusion in children. Cochrane Database Syst Rev. 2011;(5):CD001935. PMID: 21563132.
Venekamp RP, Burton MJ, van Dongen TM, van der Heijden GJ, van Zon A, Schilder AG. Antibiotics for otitis media with effusion in children. Cochrane Database Syst Rev. 2016;(6):CD009163. PMID: 27290722.
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The use of oral antibiotics where they are not necessary can promote antibiotic resistance and increase the risk of opportunistic infections. Topical antibiotics achieve higher concentrations in the ear canal, demonstrate improved patient satisfaction, are associated with fewer adverse events, and are shown to have equal efficacy for treatment of acute tympanostomy tube otorrhea (TTO) and acute otitis externa (AOE) when compared to oral antibiotics. For these reasons, topical antibiotics rather than oral antibiotics should be prescribed as first line treatment for acute uncomplicated TTO and uncomplicated AOE.
Sources:
Goldblatt EL, Dohar J, Nozza RJ, Nielsen RW, Goldberg T, Sidman JD, et al. Topical ofloxacin versus systemic amoxicillin/clavulanate in purulent otorrhea in children with tympanostomy tubes. Int J Pediatr Otorhinolaryngol. 1998;46(1-2):91-101. PMID: 10190709.
Kaushik V, Malik T, Saeed SR. Interventions for acute otitis externa. Cochrane Database of Syst Rev. 2010;6(2):444–560. PMID: 20091565.
Rosenfeld RM, Schwartz SR, Pynnonen MA, Tunkel DE, Hussey HM, Fichera JS, et al. Clinical practice guideline: tympanostomy tubes in children. Otolaryngol Head Neck Surg. 2013;149(1 Suppl):S1-35. PMID: 23818543.
Rosenfeld RM, Schwartz SR, Cannon CR, Roland PS, Simon GR, Kumar KA, et al. Clinical practice guideline: acute otitis externa. Otolaryngol Head Neck Surg. 2014;150(1):S1-S24. PMID: 24491310.
Rosenfeld RM, Singer M, Wasserman JM, Stinnett SS. Systematic review of topical antimicrobial therapy for acute otitis externa. Otolaryngol Head Neck Surg. 2006;134:S24-48. PMID: 16638474.
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Codeine has been associated with a high rate of adverse drug reactions in children. This includes life-threatening respiratory depression. Appropriate dosing of codeine is challenging due to the genetic heterogeneity amongst patients for the CYP2D6 enzyme, which is responsible for codeine metabolism. Genetic screening of CYP2D6 is not routinely performed and can not reliably identify variations in codeine metabolism rates amongst patients. As such, children who are ultra-fast metabolizers of codeine are placed at increased risk of severe adverse drug reactions. Alternative analgesia should be used post-tonsillectomy/adenoidectomy.
Sources:
Crews KR, Gaedigk A, Dunnenberger HM, et al. Clinical pharmacogenetics implementation consortium guidelines for cytochrome P450 2D6 genotype and codeine therapy: 2014 update. Clin Pharmacol Ther. 2014;95(4):376‐82. PMID: 24458010.
Kelly LE, Rieder M, van den Anker J, Malkin B, Ross C, Neely MN, et al. More codeine fatalities after tonsillectomy in North American children. Pediatrics. 2012;129(5):e1343‐7. PMID: 22492761.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1 Suppl):S1–42. PMID: 30921525.
Prows CA, Zhang X, Huth MM, Zhang K, Saldaña SN, Daraiseh NM, et al. Codeine-related adverse drug reactions in children following tonsillectomy: a prospective study. Laryngoscope. 2014;124(5):1242–50. PMID: 24122716.
Tobias JD, Green TP, Coté CJ. Codeine: time to say no. Pediatrics. 2016;138(4):e20162396. PMID: 27647717.
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Administration of perioperative antibiotics for children undergoing tonsillectomy shows no significant benefits in regard to common post-tonsillectomy morbidities. Overuse of systemic antibiotics increases bacterial resistance and the risk of adverse drug events unnecessarily. These concerns outweigh the reduction in postoperative fever which is the only potential benefit of perioperative antibiotic administration for elective tonsillectomy. Therefore, perioperative antibiotics are not indicated for children undergoing elective tonsillectomy, unless specific indications are present (e.g., cardiac conditions or those with a peritonsillar abscess or acute infection).
Sources:
Dhiwakar M, Clement WA, Supriya M, McKerrow WS. Antibiotics to reduce post-tonsillectomy morbidity. Cochrane Database Syst Rev. 2012;(2):CD005607. PMID: 23235625.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1 Suppl):S1–42. PMID: 30921525.
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For children who have a lower number of recurrent throat infections, tonsillectomy has significantly less benefits when compared to those with more frequent infections, and many children with recurrent throat infections naturally improve without intervention. Therefore, where safely possible, avoidance of tonsillectomy for children with lower numbers of acute infections is recommended. This avoids unnecessary tonsillectomy and the costs and complications associated with the procedure (i.e., bleeding, pain, infection). If tonsillectomy is not indicated, children should be closely monitored and reconsidered for tonsillectomy if the infection frequency increases, as they would be less likely to naturally improve, and more likely to benefit from tonsillectomy. Families should be counselled on the limited benefits and potential harms of performing tonsillectomy for children and adolescents with low rates of recurrent throat infections. Shared decision making is of importance when considering tonsillectomy as individual patient and family factors can impact the decision.
Sources:
Burton MJ, Glasziou PP, Chong LY, Venekamp RP. Tonsillectomy or adenotonsillectomy versus non-surgical treatment for chronic/recurrent acute tonsillitis. Cochrane Database Syst Rev. 2014;(11):CD001802. PMID: 25407135.
Francis DO, Chinnadurai S, Sathe NA, Morad A, Jordan AK, Krishnaswami S et al. Tonsillectomy for obstructive sleep-disordered breathing or recurrent throat infection in children. Rockville (MD): Agency for Healthcare Research and Quality (US); 2017;Report No.:16(17)-EHC042-EF. PMID: 28182365.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1):S1–42. PMID: 30921525.
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While endoscopic sinus surgery (ESS) has been found to be an effective therapy in children with chronic rhinosinusitis, comparable outcomes can be achieved with medical therapy and adenoidectomy. A stepwise approach of medical therapy, progressing to adenoidectomy, then to ESS allows children to be treated with a less invasive and more cost-effective interventions as initial therapy, while saving ESS for those who are refractory to primary interventions. Maximal medical therapy should be exhausted prior to surgical intervention for uncomplicated patients. In cases with complications such as orbital or skull base involvement, ESS can be employed more readily.
Sources:
Brietzke SE, Shin JJ, Choi S, Lee JT, Parikh SR, Pena M et al. Clinical Consensus Statement: Pediatric Chronic Rhinosinusitis. Otolaryngol Head Neck Surg. 2014;151(4):542-53. PMID: 25274375.
Desrosiers M, Evans G, Keith P, Wright E, Kaplan A, Bouchard J, et al. Canadian clinical practice guidelines for acute and chronic rhinosinusitis. Journal of Otolaryngology – Head & Neck Surgery. 2011;40(2):S99-193. PMID: 21310056.
Shetty KR, Soh HH, Kahn C, Wang R, Shetty A, Brook C et al. Review and Analysis of Research Trends in Surgical Treatment of Pediatric Chronic Sinusitis. Am J Rhinol Allergy. 2020;34(3):428-35. PMID: 31910642.
Rosenfeld RM. Pilot Study of Outcomes in Pediatric Rhinosinusitis. Arch Otolaryngol Head Neck Surg. 1995;121(7):729-36. Web. PMID: 7598848.
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Waste in procedures from reusable surgical instruments and disposable surgical supplies can be reduced through tray optimization. Tray optimization aims to only include surgical instruments and supplies that are necessary and remove instruments and supplies that are rarely or never used. At one hospital, optimizing tonsillectomy/adenotonsillectomy trays was projected to decrease annual waste by 1.48 tons and save $830 in waste disposal costs annually (Penn et al.). In a 2023 UK study, which looked at five of the most common surgeries, the three highest carbon footprint contributing products for tonsillectomy included the single-use instrument table drape, single-use suction tubing, and reusable tonsillectomy set container (Rizan et al.) Most studies in the Otolaryngology-Head and Neck surgery literature on surgical instrument tray optimization have focussed on tray size reduction, improved OR efficiency metrics, reduced OR and turnover time, reduced tray processing and rebuilding times, and cost reduction/savings. Carbon footprint savings can be extrapolated from these results although it may not be explicitly stated in the present studies.
Sources:
Chin CJ, Sowerby LJ, John-Baptiste A, Rotenberg BW. Reducing otolaryngology surgical inefficiency via assessment of tray redundancy. J Otolaryngol Head Neck Surg. 2014;43:46. PMID: 25466550.
Crosby L, Lortie E, Rotenberg B, Sowerby L. Surgical instrument optimization to reduce instrument processing and operating room setup time. Otolaryngol Head Neck Surg. 2020;162(2):215–219. PMID: 31638858.
Penn E, Yasso SF, Wei JL. Reducing Disposable Equipment Waste for Tonsillectomy and Adenotonsillectomy Cases. Otolaryngol Neck Surg 2012;147(4):615-8. PMID: 22675005.
Rizan C, Lillywhite R, Reed M, Bhutta MF. The carbon footprint of products used in five common surgical operations: identifying contributing products and processes. J R Soc Med. 2023 Jun;116(6):199-213. doi:10.1177/01410768231166135. Epub 2023 Apr 13. PMID: 37054734.
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This list was created by the Pediatric Otolaryngology Subspecialty Interest Group of the Canadian Society of Otolaryngology–Head & Neck Surgery. A list of 25 recommendations regarding unnecessary tests and interventions along with evidence supporting them were compiled. These unnecessary tests and interventions are often invasive and incur risk to patients and unwarranted costs to our public health care system. The members of the Subspecialty Interest Group were asked to provide feedback on the recommendations and to rate them regarding five factors: potential to affect clinical practice; cost-benefit ratio; evidence supporting recommendation; pervasiveness of test/intervention; and potential to cause harm. The final list was then selected and edited based on the group members ratings and feedback.
Sources:
Desrosiers AE 3rd, Thaller SR. Pediatric nasal fractures: evaluation and management. J Craniofac Surg. 2011;22(4):1327‐9. PMID: 21772190.
Mohammadi A, Ghasemi-Rad M. Nasal bone fracture–ultrasonography or computed tomography? Med Ultrason. 2011;13(4):292‐5. PMID: 22132401.
Nigam A, Goni A, Benjamin A, Dasgupta AR. The value of radiographs in the management of the fractured nose. Arch Emerg Med. 1993;10(4):293‐7. PMID: 8110318.
Aitken M, Taylor JA. Prevalence of clinical sinusitis in young children followed up by primary care pediatricians. Arch Pediatr Adolesc Med. 1998;152(3):244‐8. PMID: 9529461.
Gwaltney JM Jr, Phillips CD, Miller RD, Riker DK. Computed tomographic study of the common cold. N Engl J Med. 1994;330(1):25‐30. PMID: 8259141.
Kristo A, Uhari M, Luotonen J, Koivunen P, Ilkko E, Tapiainen T, et al. Paranasal sinus findings in children during respiratory infection evaluated with magnetic resonance imaging. Pediatrics. 2003;111(5 Pt 1):e586‐9. PMID: 12728114.
Wald ER, Applegate KE, Bordley C, Darrow DH, Glode MP, Marcy SM, et al. Clinical practice guideline for the diagnosis and management of acute bacterial sinusitis in children aged 1 to 18 years. Pediatrics. 2013;132(1):e262-80. PMID: 23796742.
Wald ER, Nash D, Eickhoff J. Effectiveness of amoxicillin/clavulanate potassium in the treatment of acute bacterial sinusitis in children. Pediatrics. 2009;124(1):9‐15. PMID: 19564277.
Hellstrom S, Groth A, Jorgensen F. Ventilation tube treatment: a systematic review of the literature. Otolaryngol Head Neck Surg. 2011;145(3):383-95. PMID: 21632976.
Lous J, Burton MJ, Felding JU, Ovesen T, Rovers MM, Williamson I. Grommets (ventilation tubes) for hearing loss associated with otitis media with effusion in children. Cochrane Database Syst Rev. 2005;(1):CD001801. PMID: 15674886.
Rosenfeld RM, Kay D. Natural history of untreated otitis media. Laryngoscope. 2003;113(10):1645-57. PMID: 14520089.
Rosenfeld RM, Schwartz SR, Pynnonen MA, Tunkel DE, Hussey HM, Fichera JS, et al. Clinical practice guideline: tympanostomy tubes in children. Otolaryngol Head Neck Surg. 2013;149(1):S1-35. PMID: 23818543.
Griffin, G, Flynn, CA. Antihistamines and/or decongestants for otitis media with effusion (OME) in children. Cochrane Database Syst Rev. 2011;9:CD003423. PMID: 21901683.
Rosenfeld RM, Shin JJ, Schwartz SR, Coggins R, Gagnon L, Hackell JM, et al. Clinical practice guideline: otitis media with effusion (update). Otolaryngol Head Neck Surg. 2016;154(1 Suppl):S1‐S41. PMID: 26832942.
Simpson SA, Lewis R, van der Voort J, Butler CC. Oral or topical nasal steroids for hearing loss associated with otitis media with effusion in children. Cochrane Database Syst Rev. 2011;(5):CD001935. PMID: 21563132.
Venekamp RP, Burton MJ, van Dongen TM, van der Heijden GJ, van Zon A, Schilder AG. Antibiotics for otitis media with effusion in children. Cochrane Database Syst Rev. 2016;(6):CD009163. PMID: 27290722.
Goldblatt EL, Dohar J, Nozza RJ, Nielsen RW, Goldberg T, Sidman JD, et al. Topical ofloxacin versus systemic amoxicillin/clavulanate in purulent otorrhea in children with tympanostomy tubes. Int J Pediatr Otorhinolaryngol. 1998;46(1-2):91-101. PMID: 10190709.
Kaushik V, Malik T, Saeed SR. Interventions for acute otitis externa. Cochrane Database of Syst Rev. 2010;6(2):444–560. PMID: 20091565.
Rosenfeld RM, Schwartz SR, Pynnonen MA, Tunkel DE, Hussey HM, Fichera JS, et al. Clinical practice guideline: tympanostomy tubes in children. Otolaryngol Head Neck Surg. 2013;149(1 Suppl):S1-35. PMID: 23818543.
Rosenfeld RM, Schwartz SR, Cannon CR, Roland PS, Simon GR, Kumar KA, et al. Clinical practice guideline: acute otitis externa. Otolaryngol Head Neck Surg. 2014;150(1):S1-S24. PMID: 24491310.
Rosenfeld RM, Singer M, Wasserman JM, Stinnett SS. Systematic review of topical antimicrobial therapy for acute otitis externa. Otolaryngol Head Neck Surg. 2006;134:S24-48. PMID: 16638474.
Crews KR, Gaedigk A, Dunnenberger HM, et al. Clinical pharmacogenetics implementation consortium guidelines for cytochrome P450 2D6 genotype and codeine therapy: 2014 update. Clin Pharmacol Ther. 2014;95(4):376‐82. PMID: 24458010.
Kelly LE, Rieder M, van den Anker J, Malkin B, Ross C, Neely MN, et al. More codeine fatalities after tonsillectomy in North American children. Pediatrics. 2012;129(5):e1343‐7. PMID: 22492761.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1 Suppl):S1–42. PMID: 30921525.
Prows CA, Zhang X, Huth MM, Zhang K, Saldaña SN, Daraiseh NM, et al. Codeine-related adverse drug reactions in children following tonsillectomy: a prospective study. Laryngoscope. 2014;124(5):1242–50. PMID: 24122716.
Tobias JD, Green TP, Coté CJ. Codeine: time to say no. Pediatrics. 2016;138(4):e20162396. PMID: 27647717.
Dhiwakar M, Clement WA, Supriya M, McKerrow WS. Antibiotics to reduce post-tonsillectomy morbidity. Cochrane Database Syst Rev. 2012;(2):CD005607. PMID: 23235625.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1 Suppl):S1–42. PMID: 30921525.
Burton MJ, Glasziou PP, Chong LY, Venekamp RP. Tonsillectomy or adenotonsillectomy versus non-surgical treatment for chronic/recurrent acute tonsillitis. Cochrane Database Syst Rev. 2014;(11):CD001802. PMID: 25407135.
Francis DO, Chinnadurai S, Sathe NA, Morad A, Jordan AK, Krishnaswami S et al. Tonsillectomy for obstructive sleep-disordered breathing or recurrent throat infection in children. Rockville (MD): Agency for Healthcare Research and Quality (US); 2017;Report No.:16(17)-EHC042-EF. PMID: 28182365.
Mitchell RB, Archer SM, Ishman SL, Rosenfeld RM, Coles S, Finestone SA, et al. Clinical practice guideline: tonsillectomy in children (update). Otolaryngol Head Neck Surg. 2019;160(1):S1–42. PMID: 30921525.
Brietzke SE, Shin JJ, Choi S, Lee JT, Parikh SR, Pena M et al. Clinical Consensus Statement: Pediatric Chronic Rhinosinusitis. Otolaryngol Head Neck Surg. 2014;151(4):542-53. PMID: 25274375.
Desrosiers M, Evans G, Keith P, Wright E, Kaplan A, Bouchard J, et al. Canadian clinical practice guidelines for acute and chronic rhinosinusitis. Journal of Otolaryngology – Head & Neck Surgery. 2011;40(2):S99-193. PMID: 21310056.
Shetty KR, Soh HH, Kahn C, Wang R, Shetty A, Brook C et al. Review and Analysis of Research Trends in Surgical Treatment of Pediatric Chronic Sinusitis. Am J Rhinol Allergy. 2020;34(3):428-35. PMID: 31910642.
Rosenfeld RM. Pilot Study of Outcomes in Pediatric Rhinosinusitis. Arch Otolaryngol Head Neck Surg. 1995;121(7):729-36. Web. PMID: 7598848.
Chin CJ, Sowerby LJ, John-Baptiste A, Rotenberg BW. Reducing otolaryngology surgical inefficiency via assessment of tray redundancy. J Otolaryngol Head Neck Surg. 2014;43:46. PMID: 25466550.
Crosby L, Lortie E, Rotenberg B, Sowerby L. Surgical instrument optimization to reduce instrument processing and operating room setup time. Otolaryngol Head Neck Surg. 2020;162(2):215–219. PMID: 31638858.
Penn E, Yasso SF, Wei JL. Reducing Disposable Equipment Waste for Tonsillectomy and Adenotonsillectomy Cases. Otolaryngol Neck Surg 2012;147(4):615-8. PMID: 22675005.
Rizan C, Lillywhite R, Reed M, Bhutta MF. The carbon footprint of products used in five common surgical operations: identifying contributing products and processes. J R Soc Med. 2023 Jun;116(6):199-213. doi:10.1177/01410768231166135. Epub 2023 Apr 13. PMID: 37054734.
About Choosing Wisely Canada
Choosing Wisely Canada is the national voice for reducing unnecessary tests and treatments in health care. One of its important functions is to help clinicians and patients engage in conversations that lead to smart and effective care choices.
Web: choosingwiselycanada.org
Email: info@choosingwiselycanada.org
Twitter: @ChooseWiselyCA
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Canadian Society of Otolaryngology - Head & Neck Surgery
Rhinology Subspecialty Group
Last updated: January 2022
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The prevalence of a bacterial infection during acute rhinosinusitis is estimated to be 2%–10%, whereas viral causes account for 90%–98%. Management of viral rhinosinusitis is primarily focused on symptomatic relief, which may include use of intranasal corticosteroids, analgesics, nasal saline rinses, oral or topical decongestants, and mucolytics. Antibiotics are ineffective for viral illness and do not provide direct symptom relief. Despite this, 82% of Canadian patients diagnosed with acute sinusitis received a prescription for antibiotics. Differentiating viral rhinosinusitis from acute bacterial rhinosinusitis (ABRS) is challenging because the symptoms are overlapping, but is critical to avoid inappropriate antibiotic prescriptions.
The “PODS” clinical criteria suggest ABRS with two or more of facial Pain/pressure/fullness, nasal Obstruction, nasal purulence/discoloured postnasal Discharge, decreased/absent Smell that persist for more than 7-10 days (Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis for full details). A bacterial infection is so unlikely prior to this timeframe that antibiotics generally should be avoided unless symptoms have persisted for at least 7 days.
In patients who meet the criteria for ABRS with mild or moderate symptoms, intranasal corticosteroids alone are often sufficient. Antibiotics can be considered for patients with severe symptoms or those who fail a 72 hour trial of intranasal corticosteroids after the diagnosis of ABRS* has been made.
*This table outlines how ABRS diagnosis requires the presence of at least 2 persistent or worsening symptoms.
Sources:
Gwaltney JM Jr., et al. Acute Community‐Acquired Bacterial Sinusitis: The Value of Antimicrobial Treatment and the Natural History. Clin Infect Dis. 2004 Jan 15;38(2):227-33. Epub 2003 Dec 19. PMID: 14699455.
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngol Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Finley R, et al. Human Antimicrobial Use Report [Internet]. Updated 2015 Nov 17 [cited 2018 July].
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
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Radiographic imaging for patients presenting with uncomplicated acute rhinosinusitis to distinguish acute bacterial rhinosinusitis (ABRS) from viral rhinosinusitis is not recommended, unless a complication or alternative diagnosis is suspected. A sinus CT scan is a highly sensitive test for rhinosinusitis, and a normal study confidently rules out active sinusitis of any etiology. However, abnormal sinus CT imaging findings, including air-fluid levels, mucosal thickening, and complete sinus opacification, are nonspecific and can be seen with both bacterial and viral sinusitis, as well as in up to 42% of asymptomatic healthy individuals. In a prospective study of healthy young adults experiencing a new cold, CT scans showed that 87% of the subjects had significant abnormalities of their maxillary sinuses. Therefore, in acute rhinosinusitis, a CT scan has minimal utility because its findings are not specific to a diagnosis of acute rhinosinusitis, and does not help guide the need for antibiotics since it cannot reliably distinguish viral from bacterial rhinosinusitis. Consider CT imaging of the sinuses when a complication of ABRS is suspected based on severe headache, altered mental status, facial swelling, cranial nerve palsies, proptosis of the eye, or other clinical findings.
Sources:
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngology Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
Gwaltney JM, et al. Computed Tomographic Study of the Common Cold. N Engl J Med. 1994;330(1):25-30. PMID: 8259141.
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
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Plain film x-rays of the sinuses should not be ordered in the work-up of sinusitis. Plain films have poor sensitivity and specificity and they cannot be relied upon to confirm or reject the diagnosis of either acute or chronic sinusitis. Findings such as air-fluid levels and complete sinus opacification are not reliably present in rhinosinusitis, and cannot differentiate between viral and bacterial etiologies. The complicated anatomy of the ethmoid sinuses and critical sinus drainage pathways are not delineated effectively with plain films, and are inadequate for operative planning. Given that the findings of a sinus x-ray cannot be relied upon to diagnose rhinosinusitis, guide antibiotic prescribing, or plan surgery, they do not provide value in patient care and should be avoided.
Sources:
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngol Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
Kirsch CFE, Bykowski J, Aulino JM, et al. ACR Appropriateness Criteria®Sinonasal Disease. J Am Coll Radiol. 2017 Nov;14(11S):S550-S559. PMID: 29101992.
Aaløkken TM, et al. Conventional sinus radiography compared with CT in the diagnosis of acute sinusitis. Dentomaxillofac Radiol. 2003 Jan;32(1):60-2. PMID: 12820855.
Okuyemi KS, et al. Radiologic imaging in the management of sinusitis. Am Fam Physician. 2002;66(10):1882-1886. PMID: 12469962.
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
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Acute bacterial rhinosinusitis is a clinical diagnosis that does not require proof of a culture-identified pathogen. When patients meet criteria for uncomplicated ABRS, empiric antibiotic selection should be based on typical causative pathogens (i.e. Streptococcus pneumoniae, Hemophilus influenza, Moraxella catarrhalis, and Staphylococcus aureus), local bacterial resistance patterns, and patient factors. Nasal swabs are contaminated by normal nasal flora and results correlate poorly with causative pathogens in rhinosinusitis. In many hospitals, a nasal swab will only be processed to report on the presence or absence of S. aureus, rather than a full culture for speciation. In situations where cultures are required, such as intraorbital or intracranial complications, endoscopically-guided culture of the middle meatus or a maxillary sinus aspirate are the preferred methods for obtaining samples of the causative pathogen.
Sources:
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
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Plain film x-rays should not be ordered as part of the management of nasal fractures. The decision to reduce a nasal fracture depends on numerous factors including patient preference, external deformity, and breathing difficulty, none of which are effectively assessed by an x-ray. They have a very low sensitivity and specificity, with 63.3% and 55.7% respectively. As such, plain x-rays are unable to accurately diagnose occult fractures. Despite being commonly ordered for medicolegal documentation of nasal fractures, the poor sensitivity and specificity brings into question their value in medicolegal proceedings. In studied cohorts, no unsuspected facial fractures were identified solely on nasal x-rays, and no negative effects on management occurred when an institution instituted a “no nasal x-ray policy”. Overall, nasal x-rays do not contribute to diagnosis, documentation, or management decisions, and should not be ordered.
Sources:
Nigam A, et al. The value of radiographs in the management of the fractured nose. Arch Emerg Med. 1993;10(4):293-297. PMID: 8110318.
Jaberoo MC, et al. Medico-legal and ethical aspects of nasal fractures secondary to assault: Do we owe a duty of care to advise patients to have a facial x-ray? J Med Ethics. 2013;39(2):125-126. PMID: 23172899.
Illum P. Legal aspects in nasal fractures. Rhinology. 1991;29(4):263—266. PMID: 1780626.
Logan M, O’Driscoll K, Masterson J. The utility of nasal bone radiographs in nasal trauma. Clin Radiol. 1994;49(3):192-194. PMID: 8143411.
Sharp JF, et al. Routine X-rays in nasal trauma: the influence of audit on clinical practice. J R Soc Med. 1994;87(3):153-154. PMID: 8158594.
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This list was created by the Rhinology Specialty Group of the Canadian Society of Otolaryngology – Head & Neck Surgery. Members of the group, representing the national leaders within their respective subspecialties, were asked to create a list of recommendations for unnecessary tests that were seen to be commonly ordered or unnecessary interventions that were commonly performed. These unnecessary tests and interventions incur risk to patients and unwarranted costs to our public health care system. The evidence was then reviewed to further refine the recommendations. The final version of the list was then circulated and approved by the members of the group. Choosing Wisely Canada groups across multiple specialties reviewed and refined the consensus recommendations.
Sources:
Gwaltney JM Jr., et al. Acute Community‐Acquired Bacterial Sinusitis: The Value of Antimicrobial Treatment and the Natural History. Clin Infect Dis. 2004 Jan 15;38(2):227-33. Epub 2003 Dec 19. PMID: 14699455.
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngol Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Finley R, et al. Human Antimicrobial Use Report [Internet]. Updated 2015 Nov 17 [cited 2018 July].
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngology Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
Gwaltney JM, et al. Computed Tomographic Study of the Common Cold. N Engl J Med. 1994;330(1):25-30. PMID: 8259141.
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Rosenfeld RM, et al. Clinical practice guideline (update): Adult Sinusitis Executive Summary. Otolaryngol Head Neck Surg. 2015 Apr;152(4):598-609. PMID: 25833927.
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
Kirsch CFE, Bykowski J, Aulino JM, et al. ACR Appropriateness Criteria®Sinonasal Disease. J Am Coll Radiol. 2017 Nov;14(11S):S550-S559. PMID: 29101992.
Aaløkken TM, et al. Conventional sinus radiography compared with CT in the diagnosis of acute sinusitis. Dentomaxillofac Radiol. 2003 Jan;32(1):60-2. PMID: 12820855.
Okuyemi KS, et al. Radiologic imaging in the management of sinusitis. Am Fam Physician. 2002;66(10):1882-1886. PMID: 12469962.
Fokkens W.J., Lund V.J., Hopkins C., Hellings P.W., Kern R., Reltsma S., et al. European Position Paper on Rhinosinusitis and Nasal Polyps 2020. Rhinology 2020 Suppl. 29: 1-464.
Orlandi, Kingdom, T. T., Smith, T. L., Bleier, B., DeConde, A., Luong, A. U., Poetker, D. M., Soler, Z., Welch, K. C., Wise, S. K., Adappa, N., Alt, J. A., Anselmo-Lima, W. T., Bachert, C., Baroody, F. M., Batra, P. S., Bernal-Sprekelsen, M., Beswick, D., Bhattacharyya, N., … Chowdhury, N. (2021). International consensus statement on allergy and rhinology: rhinosinusitis 2021. International Forum of Allergy & Rhinology, 11(3), 213–739. PMID: 33236525.
Desrosiers M, et al. Canadian Clinical Practice Guidelines for Acute and Chronic Rhinosinusitis. [Internet]. 2011 February [cited 2018 July].
Chow AW, et al. IDSA Clinical Practice Guideline for Acute Bacterial Rhinosinusitis in Children and Adults. Clin Infect Dis. 2012;54(8):e72-e112. PMID: 22438350.
Nigam A, et al. The value of radiographs in the management of the fractured nose. Arch Emerg Med. 1993;10(4):293-297. PMID: 8110318.
Jaberoo MC, et al. Medico-legal and ethical aspects of nasal fractures secondary to assault: Do we owe a duty of care to advise patients to have a facial x-ray? J Med Ethics. 2013;39(2):125-126. PMID: 23172899.
Illum P. Legal aspects in nasal fractures. Rhinology. 1991;29(4):263—266. PMID: 1780626.
Logan M, O’Driscoll K, Masterson J. The utility of nasal bone radiographs in nasal trauma. Clin Radiol. 1994;49(3):192-194. PMID: 8143411.
Sharp JF, et al. Routine X-rays in nasal trauma: the influence of audit on clinical practice. J R Soc Med. 1994;87(3):153-154. PMID: 8158594.
About Choosing Wisely Canada
Choosing Wisely Canada is the national voice for reducing unnecessary tests and treatments in health care. One of its important functions is to help clinicians and patients engage in conversations that lead to smart and effective care choices.
Web: choosingwiselycanada.org
Email: info@choosingwiselycanada.org
Twitter: @ChooseWiselyCA
Facebook: /ChoosingWiselyCanada
Canadian Society of Otolaryngology - Head & Neck Surgery
Canadian Association of Head and Neck Surgical Oncologists
Last updated: August 2023
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Many patients presenting with hoarseness do not have an underlying head and neck malignancy. Hence, ordering imaging initially does not help to make a diagnosis. Persistent hoarseness, lasting greater than 6 weeks, can be one of the first signs of malignancy of the larynx or voice box. This is particularly true in current or ex-smokers and individuals with a current or previous history of alcohol abuse. Laryngoscopy as part of a thorough physical examination is the best initial investigation of persistent hoarseness. If the laryngoscopy demonstrates a vocal cord paralysis or a mass/lesion of the larynx, imaging to further evaluate is evidence-based.
Sources:
Hoare TJ, et al. Detection of laryngeal cancer–the case for early specialist assessment. J R Soc Med. 1993 Jul;86(7):390-2. PMID: 8053995.
Schwartz SR, et al. Clinical practice guideline: hoarseness (dysphonia). Otolaryngol Head Neck Surg. 2009 Sep;141(3 Suppl 2):S1-S31. PMID: 19729111.
Syed I, et al. Hoarse voice in adults: an evidence-based approach to the 12 minute consultation. Clin Otolaryngol. 2009 Feb;34(1):54-8. PMID: 19260886.
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A fine needle aspiration biopsy (FNA) is the gold standard for initial work up for a neck mass and has numerous advantages over an open neck biopsy. FNA holds less risk and avoids the chance of seeding cancer cells in the neck and making subsequent treatment of a confirmed malignancy more challenging. It is also inexpensive, quickly obtained without a general anaesthetic, and can be performed with or without the use of imaging to assist with the placement of the needle depending on the location of the neck mass, particularly if it is partially cystic or near vital structures. Open neck biopsies should only be considered for a neck mass if the result of a FNA biopsy is non-diagnostic and no primary carcinoma is identified upon a complete head and neck examination. If there is a strong suspicion of lymphoma (previous history of lymphoma, night sweats, weight loss, wide spread lymphadenopathy) an open or core biopsy can be considered in lieu of a FNA.
Sources:
Choosing Wisely Canada. Canadian Hematology Society: Five Things Physicians and Patients Should Question [Internet]. 2014 Oct 29 [cited 2017 Jun 13].
Haynes J, et al. Evaluation of neck masses in adults. Am Fam Physician. 2015 May 15;91(10):698-706. PMID: 25978199.
Layfield LJ. Fine-needle aspiration of the head and neck. Pathology (Phila). 1996;4(2):409-38. PMID: 9238365.
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Odynophagia and globus sensation are common symptoms and the differential diagnosis can be extensive, including inflammatory, infectious, neoplastic, autoimmune and traumatic causes. Odynophagia and globus sensation are infrequently due to an underlying neck mass, and if so, the underlying lesion is usually quite apparent on physical examination. Neck or thyroid ultrasonography ordered to investigate patients with odynophagia and globus sensation are more likely to detect other entities such as benign thyroid nodules, rather than confirming a diagnosis that explains the patient’s symptoms and can lead to a cascade of other unnecessary tests that can be harmful to patients. Unfortunately, using tests to exclude conditions, can sometimes identify other diseases such as thyroid nodules, leading to further testing such as a FNA or repeat ultrasounds and in some cases treatment in the form of a thyroidectomy that may be unnecessary or harmful to patients.
Sources:
Hall SF, et al. Access, excess, and overdiagnosis: the case for thyroid cancer. Cancer Med. 2014 Feb;3(1):154-61. PMID: 24408145.
Hall SF, et al. Increasing detection and increasing incidence in thyroid cancer. World J Surg. 2009 Dec;33(12):2567-71. PMID: 19789911.
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This list was created by the Canadian Association of Head and Neck Surgical Oncologists of the Canadian Society of Otolaryngology – Head & Neck Surgery. Members of each group, representing the national leaders within their respective subspecialties, were asked to create a list of recommendations for unnecessary tests that were seen to be commonly ordered or unnecessary interventions that were commonly performed. These unnecessary tests and interventions are often invasive and incur risk to patients and unwarranted costs to our public health care system. The evidence was then reviewed to further refine the recommendations. The final version of the list was then circulated and approved by the members of the groups.
Sources:
About Choosing Wisely Canada
Choosing Wisely Canada is the national voice for reducing unnecessary tests and treatments in health care. One of its important functions is to help clinicians and patients engage in conversations that lead to smart and effective care choices.
Web: choosingwiselycanada.org
Email: info@choosingwiselycanada.org
Twitter: @ChooseWiselyCA
Facebook: /ChoosingWiselyCanada
Canadian Society of Otolaryngology - Head & Neck Surgery
Last updated: July 2022
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The diagnosis of the dizzy patient should be guided by the presenting symptoms and office examination. Tests such as ABR (auditory brainstem response), ECOG (electrocochleography), ENG/VNG (electronystagmography/ videonystagmography), VEMP (vestibular evoked myogenic potential), vHIT (video head impulse test), CDP (computerized dynamic posturography) and RCT (rotational chair testing) should only be ordered if clinically indicated. In general, advanced balance tests should be ordered and interpreted by otolaryngologists with specialized training in the diagnosis and treatment of vestibular disorders (otologists/neurotologists). Clinical indications for testing can include: side localization and stage of progression for Meniere’s disease, assessment of central compensation for acute vestibular loss and confirmation of superior semicircular canal dehiscence syndrome. Specialized tests are rarely indicated in the management of benign paroxysmal positional vertigo.
Sources:
Furman JM, et al. Vestibular disorders. 3rd ed. New York: Oxford University Press; 2010. Chapter 4, Vestibular laboratory testing; p. 30-40.
Johnson JT, et al. Bailey’s head and neck surgery: otolaryngology. 5th ed. Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins; 2013. Chapter 165, Clinical evaluation of the patient with vertigo; p. 2673-700.
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Blood work which typically would consist of a CBC, differential and electrolytes along with an autoimmune panel are often normal and would not change initial clinical management if abnormal. The CT scan which is done to rule out central causes is not sensitive enough to pick up most cases of retrocochlear pathology. MRI scans should be considered instead. If verified to be sensorineural with audiometric testing, urgent treatment with steroid therapy can be initiated. There is no role for antiviral treatment, thrombolytics or vasoactive substances.
Sources:
Stachler RJ, et al. Clinical practice guideline: sudden hearing loss. Otolaryngol Head Neck Surg. 2012 Mar;146(3 Suppl):S1-35. PMID: 22383545.
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If there is no obvious cause of the asymmetry such as unilateral trauma or unilateral noise exposure like gun blasts, a MRI should be ordered. MRI scans are superior in sensitivity for detecting retrocochlear pathologies such as vestibular schwannoma when compared to ABR testing.
Sources:
Bozorg Grayeli A, et al. Diagnostic value of auditory brainstem responses in cerebellopontine angle tumours. Acta Otolaryngol. 2008 Oct;128(10):1096-100. PMID: 18607985.
Fortnum H, et al. The role of magnetic resonance imaging in the identification of suspected acoustic neuroma: a systematic review of clinical and cost effectiveness and natural history. Health Technol Assess. 2009 Mar;13(18):iii-iv, ix-xi, 1-154. PMID: 19358774.
Koors PD, et al. ABR in the diagnosis of vestibular schwannomas: a meta-analysis. Am J Otolaryngol. 2013 May-Jun;34(3):195-204. PMID: 23332407.
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First line therapy constitutes a short course of topical antibiotic/steroid drops. The potential ototoxicity of any topical medication entering the middle ear space should be considered in selecting an appropriate agent. Where available, fluoroquinolone combination preparations (e.g., ciprofloxacin and dexamethasone) should be used as a first choice and caution should be exercised in using topical aminoglycosides. Microdebridement and further assessment should be considered in the following circumstances: (a) failure to respond after a 7 day course, or (b) where follow up does not permit a clear view of a normal tympanic membrane allowing the exclusion of more sinister middle ear disease such as cholesteatoma.
Sources:
Dohar J, et al. Topical ciprofloxacin/dexamethasone superior to oral amoxicillin/clavulanic acid in acute otitis media with otorrhea through tympanostomy tubes. Pediatrics. 2006 Sep;118(3):e561-9. Epub 2006 Jul 31. PMID: 16880248.
Hannley MT, et al. Use of ototopical antibiotics in treating 3 common ear diseases. Otolaryngol Head Neck Surg. 2000 Jun;122(6):934-40. PMID: 10828818.
Roland PS, et al. Consensus panel on role of potentially ototoxic antibiotics for topical middle ear use: Introduction, methodology, and recommendations. Otolaryngol Head Neck Surg. 2004 Mar;130(3 Suppl):S51-6. PMID: 15054363.
World Health Organization. Chronic suppurative otitis media Burden of illness and management options. Geneva, Switzerland: WHO; 2004.
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Posterior semicircular canal benign paroxysmal positional vertigo should be diagnosed and confirmed with a positive Dix-Hallpike test, and only then should a particle repositioning maneuver be performed. If a patient with positional vertigo has a Dix-Hallpike test that is repeatedly negative or results in atypical nystagmus, less common BPPV variants or central positional vertigo should be considered.
Sources:
Hilton MP, et al. The Epley (canalith repositioning) manoeuvre for benign paroxysmal positional vertigo. Cochrane Database Syst Rev. 2014 Dec 8;12:CD003162. PMID: 25485940.
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This list was created by the Otology & Neurotology subspecialty group of the Canadian Society of Otolaryngology – Head & Neck Surgery. Members of the group, representing the national leaders within the subspecialty were asked to create a list of recommendations for unnecessary tests that were seen to be commonly ordered or unnecessary interventions that were commonly performed. These unnecessary tests and interventions are often invasive and incur risk to patients and unwarranted costs to our public health care system. The evidence was then reviewed to further refine the recommendations. The final version of the list was then circulated and approved by the members of the group.
Sources:
Furman JM, et al. Vestibular disorders. 3rd ed. New York: Oxford University Press; 2010. Chapter 4, Vestibular laboratory testing; p. 30-40.
Johnson JT, et al. Bailey’s head and neck surgery: otolaryngology. 5th ed. Philadelphia: Wolters Kluwer Health/Lippincott Williams & Wilkins; 2013. Chapter 165, Clinical evaluation of the patient with vertigo; p. 2673-700.
Stachler RJ, et al. Clinical practice guideline: sudden hearing loss. Otolaryngol Head Neck Surg. 2012 Mar;146(3 Suppl):S1-35. PMID: 22383545.
Bozorg Grayeli A, et al. Diagnostic value of auditory brainstem responses in cerebellopontine angle tumours. Acta Otolaryngol. 2008 Oct;128(10):1096-100. PMID: 18607985.
Fortnum H, et al. The role of magnetic resonance imaging in the identification of suspected acoustic neuroma: a systematic review of clinical and cost effectiveness and natural history. Health Technol Assess. 2009 Mar;13(18):iii-iv, ix-xi, 1-154. PMID: 19358774.
Koors PD, et al. ABR in the diagnosis of vestibular schwannomas: a meta-analysis. Am J Otolaryngol. 2013 May-Jun;34(3):195-204. PMID: 23332407.
Dohar J, et al. Topical ciprofloxacin/dexamethasone superior to oral amoxicillin/clavulanic acid in acute otitis media with otorrhea through tympanostomy tubes. Pediatrics. 2006 Sep;118(3):e561-9. Epub 2006 Jul 31. PMID: 16880248.
Hannley MT, et al. Use of ototopical antibiotics in treating 3 common ear diseases. Otolaryngol Head Neck Surg. 2000 Jun;122(6):934-40. PMID: 10828818.
Roland PS, et al. Consensus panel on role of potentially ototoxic antibiotics for topical middle ear use: Introduction, methodology, and recommendations. Otolaryngol Head Neck Surg. 2004 Mar;130(3 Suppl):S51-6. PMID: 15054363.
World Health Organization. Chronic suppurative otitis media Burden of illness and management options. Geneva, Switzerland: WHO; 2004.
Hilton MP, et al. The Epley (canalith repositioning) manoeuvre for benign paroxysmal positional vertigo. Cochrane Database Syst Rev. 2014 Dec 8;12:CD003162. PMID: 25485940.
About Choosing Wisely Canada
Choosing Wisely Canada is the national voice for reducing unnecessary tests and treatments in health care. One of its important functions is to help clinicians and patients engage in conversations that lead to smart and effective care choices.
Web: choosingwiselycanada.org
Email: info@choosingwiselycanada.org
Twitter: @ChooseWiselyCA
Facebook: /ChoosingWiselyCanada
Using Antibiotics Wisely in Primary Care
A campaign to help primary care clinicians use antibiotics wisely in practice.
Using Blood Wisely
A national campaign that aims to reduce unnecessary red blood cell transfusions in hospital settings.