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2 results

  • Routine saliva testing for the identification of silent coronavirus disease 2019 (COVID-19) in healthcare workers

  • Part of
  • Kevin Zhang, Affan Shoukat, William Crystal, Joanne M. Langley, Alison P. Galvani, Seyed M. Moghadas
  • Journal:
    Infection Control & Hospital Epidemiology / Volume 42 / Issue 10 / October 2021
    Published online by Cambridge University Press:
    11 January 2021, pp. 1189-1193
    Print publication:
    October 2021
    • Article
      • You have access
      • Open access
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  • Objective:

    Current COVID-19 guidelines recommend symptom-based screening and regular nasopharyngeal (NP) testing for healthcare personnel in high-risk settings. We sought to estimate case detection percentages with various routine NP and saliva testing frequencies.

    Design:

    Simulation modeling study.

    Methods:

    We constructed a sensitivity function based on the average infectiousness profile of symptomatic coronavirus disease 2019 (COVID-19) cases to determine the probability of being identified at the time of testing. This function was fitted to reported data on the percent positivity of symptomatic COVID-19 patients using NP testing. We then simulated a routine testing program with different NP and saliva testing frequencies to determine case detection percentages during the infectious period, as well as the presymptomatic stage.

    Results:

    Routine biweekly NP testing, once every 2 weeks, identified an average of 90.7% (SD, 0.18) of cases during the infectious period and 19.7% (SD, 0.98) during the presymptomatic stage. With a weekly NP testing frequency, the corresponding case detection percentages were 95.9% (SD, 0.18) and 32.9% (SD, 1.23), respectively. A 5-day saliva testing schedule had a similar case detection percentage as weekly NP testing during the infectious period, but identified ~10% more cases (mean, 42.5%; SD, 1.10) during the presymptomatic stage.

    Conclusion:

    Our findings highlight the utility of routine noninvasive saliva testing for frontline healthcare workers to protect vulnerable patient populations. A 5-day saliva testing schedule should be considered to help identify silent infections and prevent outbreaks in nursing homes and healthcare facilities.

  • Dynamics of Tuberculosis: The effect of Direct ObservationTherapy Strategy (DOTS) in Nigeria

  • D. Okuonghae, A. Korobeinikov
  • Journal:
    Mathematical Modelling of Natural Phenomena / Volume 2 / Issue 1 / 2007
    Published online by Cambridge University Press:
    15 June 2008, pp. 113-128
    Print publication:
    2007

  • This paper presents mathematical models for tuberculosis and its dynamics under theimplementation of the direct observation therapy strategy (DOTS) in Nigeria. The models establishconditions for the eradication of tuberculosis in Nigeria based on the fraction of detectedinfectious individuals placed under DOTS for treatment. Both numerical and qualitative analysisof the models were carried out and the effect of the fraction of detected cases of active TB on thevarious epidemiological classes is investigated. The results showed that, provided that the fractionof detected infectious individuals exceeded a critical value, there exists a globally stable diseasefree equilibrium. However, if this critical detection level is not reached, the disease-free equilibriumwill be unstable even with the very high probability successful treatment under DOTS. Theresults showed that DOTS expansion in Nigeria must include significant increase in the detectionrate of infectious individuals; otherwise the effect in reducing the incidence in Nigeria will notbe achieved disregarding the tremendous efforts in any other direction, and the huge number ofundetected cases will make DOTS insignificant with respect to tuberculosis control.