key: cord-255628-bm4nogig
authors: Su, Shuo; Wong, Gary; Liu, Yingxia; Gao, George F; Li, Shoujun; Bi, Yuhai
title: MERS in South Korea and China: a potential outbreak threat?
date: 2015-06-11
journal: Lancet
DOI: 10.1016/s0140-6736(15)60859-5
sha: 
doc_id: 255628
cord_uid: bm4nogig

nan

First reported in September, 2012, human infections with Middle East respiratory syndrome coronavirus (MERS-CoV) can result in severe respiratory disease, characterised by life-threatening pneumonia and renal failure. 1 Countries with primary infections of MERS-CoV are located in the Middle East, but cases have been occasionally exported in other countries (fi gure). Human-to-human infections of MERS-CoV are rare 2 and confi rmed cases are usually traced back to contact with camels, an intermediate host species for MERS-CoV. 3 As of May 24, 2015, worldwide, a total of 1134 cases and 427 deaths (case fatality rate 37·7%) have been reported, according to WHO. 4 There is no approved vaccine or treatment.

On May 11, 2015, a 68-year-old male in South Korea developed symptoms and sought medical care at a clinic between May 12-15, before admittance into hospital on May 15. 4 The patient had been travelling between April 18-May 3 through Bahrain, the United Arab Emirates, Saudi Arabia, and Qatar. He was asymptomatic upon return to South Korea on May 4, but tested positive for MERS-CoV on May 20, along with two additional cases: his 64-year-old wife, and a 76-year-old male who was a fellow patient. 4 Concerns of further MERS-CoV spread were confirmed when a 71-year-old male fellow patient, the daughter of the 76-year-old case, and two medical staff developed symptoms and were diagnosed with MERS-CoV infection (appendix). As of May 29, 2015, South Korea has 12 laboratoryconfirmed cases of MERS-CoV, and more than 120 additional contacts under surveillance. 5 On May 28, a 44-year-old male traveller from South Korea to Huizhou, China was admitted into hospital. MERS-CoV infection was confi rmed on May 29, marking the fi rst laboratoryconfirmed case in China (appendix), and the patient was immediately put in isolation. This patient was the son of the 76-year-old South Korean patient. He had visited his father in the hospital on May 16, developed symptoms on May 21, 6 and travelled to Hong Kong by plane on May 26 before arriving by road into mainland China via Shenzhen. 6 In response, the Chinese health authorities promptly placed 38 high-risk contacts under surveillance, but it is not known whether additional contacts exist and further MERS-CoV infections in China remains a possibility.

This series of events highlighted issues with the current surveillance system put in place to prevent the importation of infectious diseases. The diagnosis for MERS-CoV infection was made on May 20 for the 76-year-old patient. His 44-year-old son should have been monitored as a close contact of the laboratory-confi rmed case, with provisional quarantine and testing upon development of symptoms and isolation upon a positive diagnosis. Such a high-risk case should not be travelling until after the incubation period, which is between 2-15 days for MERS-CoV. 2 Non-compliance by the patient regarding travel advice likely contributed to this scenario. 5 These events serve as a timely reminder that natural geographical barriers against pathogens can now be easily overcome through trade and travel, and marks the fi rst MERS-CoV import case that did not come directly from the Middle East. These developments are worrisome given Favipiravir-a prophylactic treatment for Ebola contacts?

Since the Ebola outbreak began in March, 2014, 25 178 cases of Ebola have been reported. 1 To control spread of Ebola in west African communities, vaccination campaigns have been proposed. However, the efficacy of candidate Ebola vaccines for primary prevention has not been proven. 2 Furthermore, in communities in which Ebola transmission might be ongoing, an important question is: how will such a vaccination be perceived if a vaccinated person develops Ebola? Such a scenario is possible in people who contract Ebola virus before vaccination. If a person is infected with Ebola virus before vaccination, the vaccine might have a post-exposure prophylactic effect. However, how effective this prophylaxis might be is unknown. 2 Moreover, if someone is infected more than 48 h before vaccination, the post-exposure prophylactic eff ect is likely to be insuffi cient, leading to possible development of Ebola after vaccination. This scenario is likely to result in serious issues relating to community trust and acceptance of an Ebola vaccine. 3 How to exclude Ebola among people presenting with post-vaccination fever is also an issue. 2 We make a case for the study of favipiravir (Toyama Chemical, Japan), administered as directly observed therapy for contacts of patients with Ebola. Favipiravir has increased benefit in patients with low Ebola viraemia compared with patients with high viraemia. 4 As such, this drug could have a post-exposure prophylactic effect among recently infected contacts and a pre-exposure prophylactic eff ect among contacts exposed to, but not yet infected by, Ebola virus. Additionally, fever has not been reported as a side-effect of favipiravir (ClinicalTrials.gov, NCT02329054). Furthermore, oral administration of prophylactic favipiravir gives people the choice to interrupt treatment if wanted. Additional effects of prophylactic favipiravir might include increased openness of communities to use alert systems and to support contact tracing services (ie, contacts might be receptive to daily follow-up visits). Finally, to reduce incidence of malaria, prophylactic artesunateamodiaquine could be administered to the contacts of patients with Ebola. One disadvantage of proposed favipiravir prophylaxis might be the need to exclude pregnant women. To mitigate this problem, pregnancy tests could be included as a routine part of the favipiravir prophylaxis package. Finally, prophylactic favipiravir could be field tested by measurement of incidence of Ebola among contacts of patients with Ebola before and after favipiravir is introduced.

We declare no competing interests. that Hong Kong airport is a major international transport hub, and thus any potential infections can travel worldwide in a short time.

After dealing with several pandemic threats over the past 15 years, notably severe acute respiratory syndrome coronavirus (SARS-CoV) in 2003, H1N1 influenza in 2009, and Ebola virus in 2014-15, authorities now have ample experience in outbreak response compared with past years. In addition to the need for increased vigilance from health authorities, compliance by the public is crucial for the eff ective implementation of outbreak responses. Everyone is responsible for upholding the principles of public health, and must play their part to minimise the chances of disease transmission across borders.

Middle East respiratory syndrome coronavirus: a case-control study of hospitalized patients

Middle East respiratory syndrome coronavirus: another zoonotic betacoronavirus causing SARS-like disease

Evidence for camel-to-human transmission of MERS coronavirus

Middle East respiratory syndrome coronavirus (MERS-CoV)-Republic of Korea

International Society for Infectious Diseases. MERS-COV (50): South Korea

Middle East respiratory syndrome coronavirus (MERS-CoV)-China

We declare no competing interests.