key: cord-1004025-jya4bew6
authors: Singh, Harpreet; Sharma, Poonam; Kapoor, Pranav; Maurya, Raj Kumar
title: Authors’ response
date: 2022-02-17
journal: Am J Orthod Dentofacial Orthop
DOI: 10.1016/j.ajodo.2021.08.018
sha: 06ee94e441b77c20b3be415f9718eb5cd7c59388
doc_id: 1004025
cord_uid: jya4bew6

nan

T he viewpoint of Barenghi et al on chlorhexidine (CHX) based mouthwash during the coronavirus disease 2019 (COVID-19) pandemic raises an interesting hypothetical question. The recent articles by Becker et al 1 and Hong 2 do not consider the available scientific evidence supporting the virucidal effects of either CHX or povidone iodine (PVP-1) against severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and thus were somewhat inconclusive. We respectfully maintain that when we wrote our Letter to the Editor, emerging robust scientific data concerning the virucidal effects of CHX and PVP-1 were taken into consideration. In reference to the other queries put forth by Berenghi et al, we wish to supplement evidence-based literature regarding the use and composition of preprocedural mouthrinses as has been recently updated in scientific literature.

We acknowledge that in the early stages of a pandemic, health authorities such as the Centers for Disease Control and Prevention 3 recommended preprocedural mouthrinses for dental treatment even without robust clinical evidence. However, we would like to highlight the fact that despite relatively fewer in vitro studies being published during the first wave of the pandemic, the Guidance for Dental Settings by the Centers for Disease Control (last updated on December 9, 2020) did not reflect the emerging evidence supporting virucidal effectiveness of PVP-1 against SARS-CoV-2.

Regarding the European Centre for Disease Prevention and Control 4 guidance, there is no mention regarding the use of prophylactic preprocedural mouth rinse (PPMR). In addition, the Cochrane review by Burton et al 5 could identify only ongoing studies, including 14 randomized controlled trials (RCTs) but found no completed studies worth including. Given the unprecedented dynamic nature of COVID-19 infection and being a translational research field, it is not surprising that Cochrane reviews are likely to conclude as low certainty or unclear evidence because of a lack of RCTs. However, we firmly believe that the absence of evidence may not necessarily reflect evidence of absence. 6 On further exploration, we found that at the time of publishing of the review commentary by Kelly et al, 7 only insufficient direct in vitro evidence of the efficacy of specific compounds in PPMR against SARS-CoV-2 was available. The majority of the evidence was extrapolated from other viruses, including influenza, HIV, and herpes simplex.

A critical analysis of the studies by Jain et al 8 and Yoon et al 9 revealed that cell toxicity effects were not considered while assessing virucidal effects of CHX against SARS-CoV-2. In contrast, after the use of a suspension assay on the basis of EN14476 methodology, no cytotoxic effects have been reported with the use of 1% PVP-1 mouthwash at a concentration of 0.63 mg/mL or a 1:16 or lower dilution of the product. 10 Moreover, in early periods of the outbreak, a first report on the in vitro efficacy of PVP-1 (1.0%, 1.5%, and 3% concentration) also demonstrated complete inactivation of SARS-CoV-2 without any cytotoxic effects. 11 In accordance with EN 14476 standards, a recent in vitro study 12 indicated limited efficacy of the 2 tested CHX formulations against SARS-CoV-2. Octenidine dihydrochloridebased formulation exhibited good virucidal efficacy in the presence of low organic soiling, which further needs to be substantiated with clinical trials data, as has also been pointed by the authors of the study. 12 Although the study Yoon et al 9 (May 2020) was among the earliest attempts to support the role of CHX as PPMR in the prevention of COVID-19, our team found that relatively stronger and low bias studies in the latter half of the pandemic favored the role of PVP-1; and that the clinical study by Mart ınez Lamas et al 13 demonstrated the same increased real-time sample size. Moreover, similar to the limitations of the study by Mart ınez Lamas et al, 13 absence of placebo controls (gargling with saline) for comparison were limitations acknowledged by Yoon et al 9 in their study demonstrating the analogous benefit of CHX. In addition, the absence of a viral culture test made it impossible to determine the survival of the virus over time. However, although using Vero E6 cells, Meister et al 14 observed that formulation containing 1% PVP-1 drastically reduced viral infectivity to background levels by up to 3 orders of magnitude. CHX based mouth rinse was found to exhibit weak virucidal efficacy. 14 As for the findings of the cited preprint, the significant reductions in viral burden were found to be at 20 minutes for PVP-I and 90 minutes with CHX. 15 A recent editorial 16 in the Journal of the American Medical Association stresses the need for exercising caution and scrutiny, specifically when the results of the studies pertain to the treatment of patients as the posted findings are not peer-reviewed. Accordingly, we respectfully disagree with the suggestion offered by the authors regarding the suitability of CHX in orthodontic care as it is not substantiated with strong underpinning evidence.

It has been rightly pointed out that the RCT by Elzein et al 17 found no significant difference between the Delta Ct of patients using 0.2% CHX and 1% PVP-1 solutions (P 5 0.24). However, the antiviral effects of CHX mouthwash were found to be transitory. This is in accordance with the findings of Yoon et al, 9 who also observed transient salivary viral suppression for up to 2 hours, but beyond the 2 hours, an increase in viral load was observed. In contrast, Seneviratne et al 18 reported 6hourly sustained virucidal effects after rinsing with 0.5% PVP-1 for 30 seconds.

Although the recent computational drug modeling study 19 showed promising results regarding the increased binding affinity of CHX with SARS-CoV-2 proteins, in silico-based compound-protein physical interactions might not yield the same results in realtime clinical settings.

We agree with the point regarding the influence of mouthwashes with different pH on dental demineralization, frequently observed in orthodontic patients. Brownish teeth, darkening of the dorsum of the tongue, and taste disturbances are some of the side effects of CHX. 20 In contrast, PVP-1, exhibiting favorable gradual iodine release and oxidative virucidal effect, has been shown to be tolerable at doses up to 2.5% for up to 5 months, with no tooth or tongue discoloration or taste abnormalities. 21 Regarding the probable risk of tooth demineralization because of its low pH (2-7), PVP-1 should be used with caution and under supervision.

To conclude, considering the conflicting findings related to the effectiveness of CHX among studies, 22 further population-based interventions and clinical trials with robust and standardized methodologies are warranted for validating its therapeutic use against SARS-CoV-2. In contrast, considering the widely-and timetested antiseptic and remarkable virucidal (99.99%) properties of PVP-1 along with robust prevailing evidence from 6 in vitro studies, 10,11,14,23-25 2 RCTs, 17,18 1 comprehensive literature review 26 and 2 recent systematic reviews 22,27 demonstrating effectiveness of PVP-I against SARS-CoV-2, extrapolation to real-time orthodontic settings may be considered therapeutically feasible.

Pranav Kapoor Raj Kumar Maurya Delhi, India

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A study on using mouthwash before providing dental treatment to patients in dental clinics during the COVID-19 pandemic

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COVID-19 infection prevention and control measures for primary care, including general practitioner practices, dental clinics and pharmacy settings: first update

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Absence of evidence is not evidence of absence

Can oral rinses play a role in preventing transmission of COVID 19 infection?

Chlorhexidine: an effective antiCovid mouth rinse

Clinical significance of a high SARS-CoV-2 viral load in the saliva

In vitro virucidal activity of povidone iodine gargle and mouthwash against SARS-CoV-2: implications for dental practice

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Povidone iodine, hydrogen peroxide and chlorhexidine mouthwashes reduce SARS-CoV2 burden in whole mouth fluid and respiratory droplets

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Dental workers in frontline of Covid-19: an in silico evaluation targeting their prevention

Chlorhexidine gel use in the oral district: a systematic review

Povidone-iodine use in sinonasal and oral cavities: a review of safety in the COVID-19 era

In vitro studies evaluating the efficacy of mouth rinses on Sars-Cov-2: a systematic review

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Rapid in-vitro inactivation of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) using povidone-iodine oral antiseptic rinse

Povidone-iodine demonstrates rapid in vitro virucidal activity against SARS-CoV-2, the virus causing COVID-19 disease

Can povidone iodine gargle/mouthrinse inactivate SARS-CoV-2 and decrease the risk of nosocomial and community transmission during the COVID-19 pandemic? An evidence-based update

Aerosol generating procedural risks and concomitant mitigation strategies in orthodontics amid COVID-19 pandemic -an updated evidencebased review