Nasal Saline Irrigations in a Pandemic (2024)

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    This Issue

    Viewpoint

    July 23, 2020

    Nyssa F.Farrell,MD1; CristineKlatt-Cromwell,MD2; John S.Schneider,MD, MA2

    Author Affiliations Article Information

    • 1Department of Otolaryngology–Head and Neck Surgery, Oregon Health and Science University, Portland

    • 2Department of Otolaryngology–Head and Neck Surgery, Washington University School of Medicine, St Louis, Missouri

    JAMA Otolaryngol Head Neck Surg. 2020;146(9):787-788. doi:10.1001/jamaoto.2020.1622

    COVID-19 Resource Center

    visual abstract icon Visual Abstract editorial comment icon Editorial Comment related articles icon Related Articles author interview icon Interviews multimedia icon Multimedia audio icon Listen to this article
    • ThomasRadulesco,MD, PhD, MS; Jerome R.Lechien,MD, PhD, MS; JustinMichel,MD, PhD, MS

      JAMA Otolaryngology–Head & Neck Surgery

    • Nyssa FoxFarrell,MD; CristineKlatt-Cromwell,MD; JohnSchneider,MD

      JAMA Otolaryngology–Head & Neck Surgery

    The coronavirus disease 2019 (COVID-19) pandemic has ignited interest in viral transmission and prevention owing to the significant morbidity and mortality associated with the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Investigations into SARS-CoV-2 pathophysiology suggest that, similar to other viral upper respiratory infections, infection occurs primarily in the nasal and nasopharyngeal mucosa with high viral loads early in disease.1 Within the otolaryngology–head and neck surgery community, recent reports of viral transmission through endoscopic endonasal surgical procedures have caused increased concern regarding how nasal biology affects viral transmission. Further questions have arisen on the possible therapeutic role of commonly used topical nasal therapies. Nasal irrigations may play a role in reducing viral severity and further transmission. However, it is not yet clear whether topical nasal saline irrigations provide viral mitigation effects or conversely have a potentiating effect on viral transmission. Additionally, there are concerns about the consequences of topical adjuncts, such as nasal corticosteroids, for viral nasal infections. In this Viewpoint, we have briefly reviewed the current evidence regarding the association of nasal saline irrigations and their adjuncts with viral upper respiratory illnesses.

    The nasal lining serves an important role in the innate immune system, providing a primary defense against inhaled viruses, bacteria, and other particulates. This lining, consisting of a superficial mucus layer atop an aqueous base, traps inhaled particulates that are then propelled by underlying cilia into the nasopharynx. They are ultimately driven into the gastrointestinal system, where they are destroyed.2 Topical nasal rinses take advantage of this secretory lining in multiple ways. First, nasal rinses physically disrupt the viscous surface layer, removing the mucus and its associated particulate matter. Additionally, the presence of nasal saline helps to increase hydration of the deeper aqueous layer, simultaneously improving the underlying ciliary beat frequency and reducing local inflammatory mediators. This can be particularly helpful during a viral respiratory infection, in which there is resultant mucociliary dysfunction and mucostasis that occurs secondary to the inflammatory response.2

    While the benefit of topical nasal saline has been well established, optimal saline tonicity has been debated within the literature. There is supportive evidence for both isotonic saline and hypertonic saline (HS) efficacy in vivo.2 Isotonic saline consists of a 0.9% wt/vol sodium chloride solution, which is close to the physiologic salt concentration of the body. Conversely, HS solutions are greater than 0.9% wt/vol. It has been theorized that HS, which has higher osmolarity, pulls water out of cells resulting in increased hydration of the aqueous portion of the mucus layer. This improves mucociliary clearance while also decreasing epithelial edema. Additionally, there is evidence that the presence of HS can result in calcium efflux from epithelial cells, stimulating ciliary function and improving mucociliary clearance. Although in vitro studies have demonstrated these effects, some in vivo studies raised the concern of local adverse symptoms, including nasal burning, paradoxical nasal blockage, and rhinorrhea, which would limit the use of HS. A recent meta-analysis evaluating both isotonic saline and HS rinses for all sinonasal diseases concluded that HS, with a concentration less than 5% sodium chloride, was more beneficial than isotonic saline for the management of sinonasal pathology.2 Additionally, a recent randomized clinical trial evaluating the utility of HS for mitigation of the common cold demonstrated HS reduced duration of illness, over-the-counter medication use, transmission to household members, and viral shedding.3

    Steroid compounds, such as budesonide or mometasone, are commonly added to saline irrigations for control of inflammatory mediators in chronic rhinosinusitis. In acute viral upper respiratory illnesses (URIs), corticosteroid use is less well understood. A Cochrane systematic review of 3 double-blind, randomized clinical trials of intranasal steroids (fluticasone or beclomethasone) for management of URIs found no evidence that intranasal steroid sprays improved URI symptom severity or duration.4 Their review did not identify significantly different rates of adverse events regardless of intranasal steroid use. So, while nasal steroids did not significantly alter URI symptom control, no significant harm was detected in this review. Although these trials did not look specifically at steroid use in an irrigation delivery, the effect can be extrapolated to steroid irrigations given the similar mechanism of action.

    Betadine and other iodine derivatives have also been proposed to reduce viral load in the nasal cavity. In a recent review by Parhar et al,5 the role in povidone-iodine, a common surgical preparation, was evaluated. While they did not find many clinical trials, there was significant evidence of povidone-iodine resulting in substantial coronavirus reduction in in vitro studies. They identified 3 different studies of prior coronavirus epidemics in which topical application of povidone-iodine resulted in significant viral titer reduction.5 Furthermore, a prospective trial of 0.08% diluted povidone-iodine rinses in 29 patients demonstrated safety and tolerance by patients.6 There is concern regarding ciliotoxicity of iodine-based rinses; however, in diluted form these effects may be negligible. While the use of povidone-iodine rinses certainly requires additional review in future randomized clinical trials, it may serve as a useful adjunct to decrease viral transmission.

    While there is evidence to support topical therapies for viral transmission mitigation, the potential risks must also be considered. Like other respiratory infections, SARS-CoV-2 is likely transmitted via physical contact with the virus through direct or indirect transfer to the upper aerodigestive tract mucosa or exposure to infected respiratory droplets.1 Transmission of the virus is high, especially because infected persons have shown evidence of viral shedding during the incubation period, asymptomatic infection, and even after evidence of recovery.1 As such, there is concern that performing irrigations of the nasal cavities may increase viral shedding, and thus transmission. Additionally, there is concern about viral contamination of the nasal rinse bottle itself, leading to increased transmission through contact-induced infections. Rhinovirus is detectable in nasal lavage, suggesting that viral contamination of surfaces may occur via rinsing.4,7 This surface contamination is important to recognize, because evidence has suggested that SARS-CoV-2 is stable on plastic and can be detected more than 72 hours after exposure.1 However, it is also important to note that there are many ways to inactivate viral particles on those surfaces, such as through the use of diethyl ether, 75% ethanol, chlorine, UV light, or heat (56 °C for 30 minutes).1

    SARS-CoV-2 is a highly virulent respiratory virus with significant presence in the nasal and nasopharyngeal mucosa. Hypertonic nasal saline, which facilitates mucociliary clearance, likely decreases viral burden through physical removal. Other additives, such as povidone-iodine, may aid in eliminating viral particles within the nasal cavity and nasopharynx prior to active infection. Given available evidence, saline irrigations with or without indicated additives may be safe to use in the presence of COVID-19. This is critical to communicate for patients who already use these therapies for rhinosinusitis management. Importantly, the lavage fluid, rinse bottle, and surrounding surfaces may become contaminated and serve as a source of infection in the future. Thus, patients should practice good hand hygiene and decontaminate the surrounding surfaces (eg, sink, counters) and plastic rinse bottle to prevent subsequent infection. Given the safety profile of these therapies, HS nasal irrigations should be encouraged for patients and health care workers especially. For our patients with chronic rhinosinusitis, continued use of steroid irrigations should be encouraged. Emerging research is expected to shed further light on saline irrigation’s protective and therapeutic effect on COVID-19.

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    Article Information

    Corresponding Author: John S. Schneider, MD, MA, Department of Otolaryngology–Head and Neck Surgery, Washington University School of Medicine, 660 S Euclid Ave, Campus Box 8115, St Louis, MO 63110 (jsschnei@wustl.edu).

    Published Online: July 23, 2020. doi:10.1001/jamaoto.2020.1622

    Conflict of Interest Disclosures: Dr Klatt-Cromwell reported being a consultant for Medtronic outside the submitted work. Dr Schneider reported receiving personal fees from Optinose outside the submitted work. No other disclosures were reported.

    References

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    Jin Y, Yang H, Ji W, et al. Virology, epidemiology, pathogenesis, and control of COVID-19. Viruses. 2020;12(4):E372. doi:10.3390/v12040372 PubMedGoogle Scholar

    2.

    Kanjanawasee D, Seresirikachorn K, Chitsuthipakorn W, Snidvongs K. Hypertonic saline versus isotonic saline nasal irrigation: systematic review and meta-analysis. Am J Rhinol Allergy. 2018;32(4):269-279. doi:10.1177/1945892418773566 PubMedGoogle ScholarCrossref

    3.

    Ramalingam S, Graham C, Dove J, Morrice L, Sheikh A. A pilot, open labelled, randomised controlled trial of hypertonic saline nasal irrigation and gargling for the common cold. Sci Rep. 2019;9(1):1015. doi:10.1038/s41598-018-37703-3 PubMedGoogle ScholarCrossref

    4.

    Hayward G, Thompson MJ, Perera R, Del Mar CB, Glasziou PP, Heneghan CJ. Corticosteroids for the common cold. Cochrane Database Syst Rev. 2015;(10):CD008116.PubMedGoogle Scholar

    5.

    Parhar HS, Tasche K, Brody RM, et al. Topical preparations to reduce SARS-CoV-2 aerosolization in head and neck mucosal surgery. Head Neck. 2020;42(6):1268-1272. doi:10.1002/hed.26200 PubMedGoogle ScholarCrossref

    6.

    Panchmatia R, Payandeh J, Al-Salman R, et al. The efficacy of diluted topical povidone-iodine rinses in the management of recalcitrant chronic rhinosinusitis: a prospective cohort study. Eur Arch Otorhinolaryngol. 2019;276(12):3373-3381. doi:10.1007/s00405-019-05628-w PubMedGoogle ScholarCrossref

    7.

    Lee SB, Yi JS, Lee BJ, et al. Human rhinovirus serotypes in the nasal washes and mucosa of patients with chronic rhinosinusitis. Int Forum Allergy Rhinol. 2015;5(3):197-203. doi:10.1002/alr.21472 PubMedGoogle ScholarCrossref

    2 Comments for this article

    EXPAND ALL

    August 14, 2020

    Risk of Splash with Nasal Irrigation

    Amy Baxter, MD | Augusta University

    If we're pretty convinced that ACE2 and TMPRSS2 genes being activated is a necessary condition for infection, (1) and if the nose and perhaps a bit of the trachea are the only initial places active for infection,(2) with activation of the lung ACE2 receptors either secondarily through aspiration (3) or genetic activation second to the immune response to nasal attack, it seems fomites are unlikely to be a significant source of transmission (unless one picks ones nose).

    Do we then need to be worried about contamination from splash of irrigation as a source of infection? Seems it would

    pretty much be an insufficient viral load, if the required risk comes from 100,000 viral RNA copies? (4)

    1 Hoffman et al Volume 181, Issue 2, 16 April 2020, Pages 271-280.e8
    2 Li et al Nature Medicine volume 26, pages681–687(2020)
    3 Hou et al Cell 182, ISSUE 2, P429-446.E14, JULY 23, 2020
    4 https://www.medrxiv.org/content/10.1101/2020.08.07.20169920v2.article-info

    CONFLICT OF INTEREST: I am investigating nasal irrigation for reducing COVID severity

    READ MORE

    September 18, 2020

    0.5% Povidone Iodine gargles and Nasal drops prior to Ear, Nose, Throat examination

    Dr Mubarak M Khan, MBBS, DLO, DNB(ENT) | Sushrut ENT Hospital & Dr Khan’s Research Centre, Talegaon Dabhade, pune

    Thank you very much for your viewpoint on “ Benefits and Safety of Nasal Saline Irrigations in a Pandemic”. Since the start of Lockdown in india from March 2020, we have reviewed the literature extensively about diluted Povidone iodine and its use in reducing viral load. We extrapolated it’s use and repurposed the 0.5% Povidone iodine as gargles and nasal washes and drops for reducing Possible viral load who are visiting our Ear nose, Throat out patient department (OPD)
    1. We prepared 0.5% dilute gargles and nose drops from 10% Povidone iodine
    2. Every patient visiting our OPD, does gargles
    and put nasal drops prior to examinations
    3. Similarly we followed the same protocol before every planned surgeries before taking patient to operation theatre
    4. We are using 0.5% pvp-I irrigation during all ENT surgeries
    5. Since March 2020 we have used 0.5% Povidone iodine as gargles and nasal drops in more than 5000+ patients till now and we are continuing it.
    6. 0.5% pvp-I as gargles and nose drops and irrigations are well tolerated and feasible in OPD prior examining patients
    7. We have published our feasibility and tolerability of 0.5 % PVP-I as gargles and nose drops and irrigations in AJOHNS

    A simple repurposing of well known antiseptic PVP-I and extrapolating it’s virucidal action for Sars Cov -2 has potential effect in this current pandemic

    Sincere Regards
    Dr Mubarak Muhamed Khan
    Dr Sapna Ramkrishna Parab

    References:
    1. 0.5% povidone iodine irrigation in otorhinolaryngology surgical practice during COVID 19 pandemic.
    Khan, Mubarak Muhamed; Parab, Sapna Ramkrishna.
    Am J Otolaryngol ; 41(6): 102687, 2020 Aug 19.
    Article in English | MEDLINE | ID: covidwho-720408

    2. Repurposing 0.5% povidone iodine solution in otorhinolaryngology practice in Covid 19 pandemic.
    Khan, Mubarak Muhamed; Parab, Sapna Ramkrishna; Paranjape, Mandar.
    Am J Otolaryngol ; 41(5): 102618, 2020.
    Article in English | MEDLINE | ID: mdl-32574894

    CONFLICT OF INTEREST: None Reported

    READ MORE

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    Farrell NF, Klatt-Cromwell C, Schneider JS. Benefits and Safety of Nasal Saline Irrigations in a Pandemic—Washing COVID-19 Away. JAMA Otolaryngol Head Neck Surg. 2020;146(9):787–788. doi:10.1001/jamaoto.2020.1622

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