Respirology (Carlton, Vic.) | 2019
Severe acute respiratory syndrome and other emerging severe respiratory viral infections
Abstract
In the World Health Organization (WHO) updated list of blue-print priority diseases, severe acute respiratory syndrome (SARS) and Middle East respiratory syndrome (MERS) are included together with disease X, which represents the concept that a pathogen currently unknown to cause human disease may lead to a serious international epidemic. SARS-coronavirus (SARS-CoV) first emerged in November 2002 in Foshan, China, where many healthcare workers (HCW) became infected. On 21 February 2003, a 64-year-old male nephrologist from Guangdong Province took the infection to Hong Kong (HK) where the infection spread to 29 countries/regions within a few weeks by 16 hotel guests and visitors who were infected by the physician. The SARS-CoV international outbreak finally ended in July 2003, with 8096 probable cases and 774 deaths. A novel CoV, now classified as a lineage B beta-CoV, was confirmed in March 2003 as the causative agent responsible for SARS-CoV infection. A similar variant of SARS-CoV was detected in palm civets in a wild-game animal market located in Shenzhen, indicating that the interface of initial zoonotic transmission to humans were these markets. In 2005, CoV with a high degree of sequence similarity with human or civet cat isolates were detected in Chinese horseshoe bats, suggesting that bats were the natural source of SARS-CoV. SARS-CoV spreads predominantly via respiratory droplets and contact with fomite but opportunistic airborne transmission is possible. Computer fluid dynamics modelling suggested possible virus dispersion by wind flow, causing long-range airborne transmission (>200 m) to nearby buildings, infecting over 300 residents in a private residential complex in HK. The mean incubation period of SARS-CoV infection was 4.6 days (95% CI: 3.8–5.8 days), whereas 95% of illness onset was within 10 days. Peaking of nasopharyngeal viral loads in an ‘inverted v’ shape on day 10 of illness was found to correspond temporally to peaking of the extent of consolidation radiographically, and a maximal risk of nosocomial transmission, particularly to HCW. A systematic review has identified four aerosolgenerating procedures that would increase the risk of nosocomial SARS transmission to HCW, including tracheal intubation, manual ventilation before intubation, tracheotomy and non-invasive ventilation. Due to the lack of prospective randomized, placebo-controlled clinical trial (randomized controlled trial, RCT) data, none of the therapies (ribavirin, protease inhibitors, convalescent plasma and interferon) applied in 2003 for the treatment of SARS-CoV infection have well proven benefit. Data from an RCT suggest that systemic corticosteroids given early in the course of SARS-CoV infection might prolong viraemia. Although no secondary spread occurred despite the re-emergence of SARS involving laboratory personnel in Singapore and Taiwan, and four communityacquired cases in Guangdong, an outbreak is possible if there is breach of laboratory biosecurity measures, bioterrorism and emergence or mutation of other SARS-like cluster of circulating CoV in bat populations. MERS-CoV was first detected in September 2012 when a novel β-CoV was isolated from a male patient who had died of severe pneumonia in Saudi Arabia in June 2012. Globally, from September 2012 to the end of 2018, WHO has been informed of 2266 laboratoryconfirmed cases of MERS-CoV infection in 27 countries, with at least 804 deaths. Bats are possibly the natural reservoir of MERS-CoV. Dromedary camels are a major source of zoonotic human infection as the virus has been isolated widely from dromedary camels in the Arabian Peninsula and across Africa. However, direct camel exposure occurs only in a minority of MERS human cases. The incubation period of MERS-CoV infection is over 5 days, but may be as long as 2 weeks (median: 5.2 days (95% CI: 1.9–14.7)). MERS-CoV viral loads peaked during the second week of illness, while patients can transmit MERS-CoV from day 1 to day 11 of their illness (median: 7 days; interquartile range (IQR): 5–8 days). Direct dromedary exposure in the fortnight before illness onset was strongly associated with primary MERSCoV infection, along with having diabetes mellitus or heart disease, and current cigarette smoking, while sleeping in an index patient’s room and touching respiratory secretions from an index patient are risk factors for household transmission. Nosocomial transmission was common during 2013–2016 due to poor compliance of HCW with appropriate personal protection equipment (PPE) when assessing patients with febrile respiratory illness, application of aerosol-generating procedures, lack of proper isolation room facilities and exposure of HCW patients and visitors to overcrowded and contaminated healthcare facilities. The more feasible clinical trial options for MERSCoV infection include protease inhibitor (lopinavir/ritonavir), interferon (IFN)-β1b, passive immunotherapy with convalescent plasma or human monoclonal or polyclonal antibody. In a study of 309 patients in 14 intensive care units (ICU) in Saudi Arabia, systemic corticosteroid therapy was associated with delay in MERS-CoV RNA clearance (adjusted hazard ratio (HR): 0.35; 95% CI: 0.17–0.72; P = 0.005).