Table 1.
Characteristics of eligible studies.
| Study | Year | Country | Virus | Mask type | Type of Study | Population | Main findings & comments | |
|---|---|---|---|---|---|---|---|---|
| 1 | Yin et al. | 2004 | China | SARSa | Paper mask, cotton mask | Case-control study | Healthcare workers | Wearing a mask is effective for medical personnel in preventing SARS hospital infections. |
| 2 | Wu et al. | 2004 | China | SARSa | Mask | Case-control study | Population | The mask use lowered the risk for disease supports the community's use of this strategy |
| 3 | Ma et al. | 2004 | China | SARSa | Mask | Case-control study | Healthcare workers | Wearing masks is of great significance to prevent respiratory infections. There are many types of masks used clinically. |
| 4 | Loeb et al. | 2004 | Canada | SARS | Medical Mask, N95 | Case-control study | Healthcare workers | Consistently wearing a mask (either surgical or particulate respirator type N95) while caring for a SARS patient was protective for the nurses. |
| 5 | Teleman et al. | 2004 | Singapore | SARSa | N95 | Case-control study | Healthcare workers | Both hand washing and wearing of N95 masks remained strongly protective but gowns and gloves did not affect. |
| 6 | Nishiura et al. | 2005 | Vietnam | SARS | Surgical mask | Case-control study | Employees and relative | Masks and gowns appeared to prevent SARS transmission. |
| 7 | Wilder-Smith et al. | 2005 | Singapore | SARS | N95 | Case-control study | Healthcare workers | Asymptomatic SARS was associated with lower SARS antibody titers and higher use of masks when compared to pneumonic SARS. |
| 8 | MacIntyre et al. | 2011 | China | Respiratory virus | Medical Mask, N95 Fit tested, N95 non-fit tested | Cluster randomized trial | Healthcare workers | There was no significant difference in outcomes between the N95 arms with and without fit testing. |
| 9 | Barasheed et al. | 2014 | Australia | Respiratory virus | Mask | Cluster randomized trial | Pilgrims | The laboratory results did not show any difference between the ‘mask’ group and ‘control’ group. |
| 10 | Sung et al. | 2016 | USA | Respiratory virus | Mask | Cohort study | HSCT patients | The requirement that all individuals in direct contact with HSCT patients wear surgical masks will reduce RVI. |
| 11 | Zhang et al. | 2017 | China | Respiratory virus | Masks | Case-control study | Healthcare workers | Choosing the right disposable respirator also plays an important role in controlling hospital viral infections. |
| 12 | Cowling et al. | 2008 | China (Hong Kong) | Influenza virus | Mask | Cluster randomized trial | Household | The laboratory-based or clinical secondary attack ratios did not significantly differ across the mask group and control group. Adherence to interventions was variable. |
| 13 | Cowling et al. | 2009 | China (Hong Kong) | Influenza virus | Mask | Cluster randomized trial | Household | Hand hygiene and facemasks seemed to prevent household transmission of influenza virus when implemented within 36 h of index patient symptom onset. |
| 14 | Suess et al. | 2012 | Germany | Influenza virus | Mask | Cluster randomized trial | Household | The secondary infection in the mask groups was significantly lower compared to the control group. |
| 15 | Aiello et al. | 2012 | USA | Influenza virus | Mask | Cluster randomized trial | Student | Face masks and hand hygiene combined may reduce the rate of ILI and confirmed influenza in community settings. |
| 16 | Cheng et al. | 2010 | China (Hong Kong) | H1N1 | Surgical mask | Case-control study | Healthcare workers | Not wearing a surgical mask during contact with the index case were found to be significant risk factors for nosocomial acquisition of S-OIV. |
| 17 | Jaeger et al. | 2011 | USA | H1N1 | Mask or N95 | Cohort study | Healthcare workers | The use of a mask or N95 respirator was associated with remaining seronegative. |
| 18 | Chokephaibulkit et al. | 2012 | Thailand | H1N1 | Mask | Case-control study | Healthcare workers | During the H1N1 outbreak in 2009, the wearing of masks by medical personnel was not related to the infection. There was a weak association in the nurse subgroup. |
| 19 | Zhang et al. | 2012 | China | H1N1 | Mask | Case-control study | Healthcare workers | The results suggest that the protective effect of wearing a mask is not significant. |
| 20 | Zhang et al. | 2013 | China (Hong Kong) | H1N1 | Mask | Case-control study | Population | Wearing masks is a protective factor against H1N1 infection when taking a plane. |
| 21 | Wang et al. | 2020 | China | SARS-CoV-2 | N95 | Case-control study | Healthcare workers | The 2019-nCoV infection rate for medical staff was significantly increased in the no-mask group compared with the N95 respirator group (adjusted odds ratio (OR): 464.82, [95% CI: 97.73-infinite]). |
a
Patients met local clinical diagnostic criteria during an acute large-scale infectious disease.