A Systematic Review of Droplet and Aerosol Generation in Dentistry

  1. N. Innes
  2. I.G. Johnson
  3. W. Al-Yaseen
  4. R. Harris
  5. R. Jones
  6. S. Kc
  7. S. McGregor
  8. M. Robertson
  9. W.G. Wade
  10. J.E. Gallagher
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Abstract

Objectives

Against the COVID-19 pandemic backdrop and potential disease transmission risk by dental procedures that can generate aerosol and droplets, this review aimed to identify which clinical dental procedures do generate droplets and aerosols with subsequent contamination, and for these, characterise their pattern, spread and settle.

Data Sources

Six databases were searched and citation chasing undertaken (to 11/08/20).

Study selection

Screening stages were undertaken in duplicate, independently, by two researchers. Data extraction was performed by one reviewer and verified by another.

Results

Eighty-three studies met the inclusion criteria and covered: Ultrasonic scaling (USS, n=44), highspeed air-rotor (HSAR, n=31); oral surgery (n=11), slow-speed handpiece (n=4); air-water (triple) syringe (n=4), air-polishing (n=4), prophylaxis (n=2) and hand-scaling (n=2). Although no studies investigated respiratory viruses, those on bacteria, blood splatter and aerosol showed activities using powered devices produced the greatest contamination. Contamination was found for all activities, and at the furthest points studied. The operator’s torso operator’s arm, and patient’s body were especially affected. Heterogeneity precluded significant inter-study comparisons but intra-study comparisons allowed construction of a proposed hierarchy of procedure contamination risk: higher risk (USS, HSAR, air-water syringe [air only or air/water together], air polishing, extractions using motorised handpieces); moderate (slow-speed handpieces, prophylaxis with pumice, extractions) and lower (air-water syringe [water only] and hand scaling.

Conclusion

Significant gaps in the evidence, low sensitivity of measures and variable quality limit firm conclusions around contamination for different procedures. However, a hierarchy of contamination from procedures can be proposed for challenge/verification by future research which should consider standardised methodologies to facilitate research synthesis.

Clinical significance

This manuscript addresses uncertainty around aerosol generating procedures (AGPs) in dentistry. Findings indicate a continuum of procedure-related aerosol generation rather than the current binary AGP or non-AGP perspective. This informs discussion around AGPs and direct future research to help support knowledge and decision making around COVID-19 and dental procedures.

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