key: cord-0690467-aubxt1ge authors: Oh, Myoung-don title: Transmissibility of Middle East Respiratory Syndrome by the Airborne Route date: 2016-10-15 journal: Clin Infect Dis DOI: 10.1093/cid/ciw479 sha: 62950488840abb3eebdbc55fd5df223ca3d01855 doc_id: 690467 cord_uid: aubxt1ge nan TO THE EDITOR-Hospital outbreak is one of the defining epidemiologic characteristics of Middle East respiratory syndrome coronavirus (MERS-CoV) infection [1, 2] . During the Korean MERS-CoV outbreak in 2015, almost all case patients were infected at hospitals, and the 5 largest clusters of the hospital outbreaks accounted for 83% of all cases [3] [4] [5] . However, it remains to be determined whether these outbreaks were due to contact with infectious droplets or inhalation of infectious droplet nuclei. In a recent article in Clinical Infectious Diseases, Kim et al [5] reported that viable MERS-CoV was isolated from 19 environmental samples, including 4 air samples. Two of the 3 patients were receiving mechanical ventilation when air samples were taken, but the other patient ( patient 3) did not undergo any aerosolgenerating procedures. The isolation of MERS-CoV from multiple air samples, especially from the corridor air (hospital B, patient 3), raises concern about possible airborne transmission of MERS-CoV. However, the characteristics of the environmental isolates seem to differ from those of the clinical isolate. [5] . Second, for the IF study, the cells inoculated with the environmental isolates were harvested after 7 days in culture, whereas the cells inoculated with the clinical isolate were harvested after 2 days in culture. These findings suggest that the environmental isolates have a limited capacity for replication. Third, the sequence similarities of the spike gene from the 19 environmental isolates ranged from 97% to 100% (Supplementary Figure 2) . Considering the small size of the target region (nucleotides 22 300-22 682), one would expect a sequence similarity of 100%. Indeed, a recent study showed that the nucleotide substitution of MERS-CoV during the Korean outbreak was very rare (3.78 × 10 −6 per site per day), and no nucleotide substitution was observed in the target region [6] . In contrast, the 8 MERS-CoV isolates (NOs. 64, 65, 66, 68 , 69, 71, 72 and 75) from the same room (hospital B, patient 3) had diverse similarity in the target region. Therefore, both the genotypic and the phenotypic characteristics of the environmental isolates are not in line with those of the clinical isolates. Further studies are needed to fully characterize the environmental isolates. To assess the possibility of airborne transmission, we also need to know the amount of virus in the air samples. The authors collected 1000 L of air for the virus culture study, a volume equivalent to what a resting person inhales for >120 minutes. However, we do not know the amount of MERS-CoV in the samples. Until we fill all the knowledge gaps, we should remember that the mere presence of MERS-CoV in the air is not directly translated into airborne transmission. Potential conflict of interest. Author certifies no potential conflicts of interest. The author has submitted the ICMJE Form for Disclosure of Potential Conflicts of Interest. Conflicts that the editors consider relevant to the content of the manuscript have been disclosed. Hospital outbreak of Middle East respiratory syndrome coronavirus MERS-CoV outbreak in Jeddah-a link to health care facilities Middle East respiratory syndrome coronavirus outbreak in the Republic of Korea Middle East respiratory syndrome coronavirus superspreading event involving 81 persons, Korea Extensive viable Middle East respiratory syndrome (MERS) coronavirus contamination in air and surrounding environment in MERS outbreak units Microevolution of outbreak-associated Middle East respiratory syndrome coronavirus, South Korea