key: cord-0925843-s81apv7g authors: Yaqub, Tahir; Nawaz, Muhammad; Shabbir, Muhammad Z.; Ali, Muhammad A.; Altai, Imran; Raza, Sohail; Shabbir, Muhammad A.B.; Ashraf, Muhammad A.; Aziz, Syed Z.; Cheema, Sohail Q.; Shah, Muhammad B.; Rafique, Saira; Hassan, Sohail; Sardar, Nageen; Mehmood, Adnan; Aziz, Muhammad W.; Fazal, Sehar; Hussain, Nadir; Khan, Muhammad T.; Atique, Muhammad M.; Asif, Ali; Anwar, Muhammad; Awan, Nabeel A.; Younis, Muhammad U.; Bhattee, Muhammad A.; Tahir, Zarfishan; Mukhtar, Nadia; Sarwar, Huda; Rana, Maaz S.; Farooq, Omair title: A Longitudinal Survey for Genome-based Identification of SARS-CoV-2 in Sewage Water in Selected Lockdown Areas of Lahore City, Pakistan: A Potential Approach for Future Smart Lockdown Strategy date: 2021-09-30 journal: Biomedical and Environmental Sciences DOI: 10.3967/bes2021.101 sha: 5ad318ddf9c97e5b76c2ea5c3d85ef8bf65cb2c3 doc_id: 925843 cord_uid: s81apv7g nan In 2019, the newly emerged SARS-CoV-2 virus caused pneumonia-like illness. The disease rapidly spread globally, leading to a worldwide outbreak referred to as the COVID-19 pandemic. The affected patients show symptoms of fever, dry cough, respiratory distress, myalgia, and gastrointestinal disturbance. As of April 5, 2021, 132,083,022 people worldwide were affected by COVID-19, while 2,868,454 people died due to the disease [1] . SARS-CoV-2-positive patients may remain asymptomatic or start showing symptoms in 2−14 days after exposure to the virus [2] . The viral infection can be diagnosed from nasopharyngeal, throat, alveolar lavage, lacrimal, blood, and stool samples. The patient starts shedding the virus in stool regardless of being symptomatic or asymptomatic, which makes sewage-based detection of the virus to be more beneficial in the early infection stage. Raw sewage is one of the significant sources of pathogens and represents a useful matrix to study viruses excreted by humans and animals. Sewage monitoring has been previously used in different diseases by the WHO [3] . The virus has proven itself to be devastating across the world, including Pakistan, which led the Government of Pakistan to implement a lockdown since March 24, 2020. For countries with a resource-limited setting, such as Pakistan, where a large number of population relies exclusively on daily wages, masses cannot survive a complete lockdown for an extended period. With this background, in collaboration with the Water and Sanitation Agency (WASA) Lahore, we conducted the present study to predict sewage-based disease burden in a specific area or setting to facilitate government authorities to implement an effective smart lockdown or otherwise. Lahore is the capital of the Punjab Province, with an estimated population of 12,642,423 [4] . During the COVID-19 pandemic, the Government of Pakistan used a smart lockdown strategy to combat the spread of COVID-19. On July 9, 2020, a two-week smart lockdown was imposed in seven areas of Lahore, Pakistan, when there were 41,014 active cases. We selected two areas with smart lockdown (Johar Town C Block and Township A-II sector) for the longitudinal detection and quantification of the SARS-CoV-2 genome in sewage water of these areas during the lockdown (Figure 1 ). Lahore is administratively divided in 9 towns, and these lock down areas fall in Iqbal Town. There were 1,029 new COVID-19 cases in the lockdown and adjoining areas (Iqbal Town) in a period of 14 days before the start of lockdown on 9 th July, 2020. Sewage water samples were collected from 5 preselected sites ( from July 13 to July 25, 2020. Furthermore, a 24-h sewage water sampling was performed to determine the effect of sampling time on the detection and quantification of the SARS-CoV-2 genome. At the time of sewage sampling, the sampling personnel used standard personal protective equipment such as long pants, boots, hats, safety glasses, and gloves. Samples were transported to the BSL-3 facility at the Institute of Microbiology (IM), University of Veterinary and Animal Sciences (UVAS), Lahore, Pakistan, in a cool box and stored at 4 °C until further analysis within 24 h. Viral RNA was extracted from each sewage sample in the BSL-3 facility of IM. A 200 mL sewage sample was collected by the grab sampling method and centrifuged at 3,000 ×g to remove debris and Figure S1 , available in www.besjournal.com). Wastewater-based epidemiology (WBE) has been identified previously as a useful tool for disease surveillance with an excellent performance [6] . In the current study, a total of 196 sewage samples were collected from the above mentioned 28 sites (7 samples from each site). During the given period, Lahore had an average temperature of 35 °C (range, 27−41 °C) throughout the day and night. The weather remained sunny overall with a total precipitation of 3.5 mm. The longitude and latitude of the sampling sites of Johar Town C Block and Township A-II sector are provided in Supplementary Table S1, available in www.besjournal.com. The physicochemical parameters of the sewage water samples of the main sites are shown in Table 1 . Of the 28 samples, 16 samples were positive on day 1, while 19, 17, 23, 17, 5, and 9 samples were positive on days 3, 5, 7, 9, 11, and 13, respectively. All the results were obtained by real-time PCR, which is considered to be the optimum test to identify SARS-CoV-2 [7] . We used a commercially available Sansure kit for viral genome detection as the detection efficacy of the SARS-CoV-2 genome by the Sansure kit is better than that of BGI and Bioperfectus [8] . Of the 5 sampling sites of Johar Town C Block, 4 sites were street sewerage lines, and the 5 th site was the relevant sewerage lift station. On the first day of sampling (July 13), all street sewerage pipelines (4/4) were found to be positive for SARS-CoV-2, with a variable load of SARS-CoV-2 genome (10 2.426 to 10 4.556 copies/mL) ( Figure 1 ). Sampling site 1 with a 12-inchdiameter pipeline remained positive for the SARS-CoV-2 genome throughout the study, with the highest genome copies 10 3.64 on the 4 th sampling on July 19, 2020. The presumptive reason for this finding is a high amount of passage of sewage water through this pipeline. The SARS-CoV-2 genome was not detected from subsequent samples from sites 2−4 throughout the study period, except for 4 th and 5 th samples from site 3 (Figure 2 ). The SARS-CoV-2 genome was not detected from the Bheer Pind lift station of Johar Town in the first sampling on July 13, while two subsequent samples on July 15 and July 17 were detected positive for SARS-CoV-2, with a decreased viral load (10 2.73 and 0.60 copies/mL, respectively). The varied status of the virus presence from negative to positive can be attributed to the changing disease patterns within the area or movement of asymptomatic carriers within the region. Overall, toward the end of the lockdown period on July 23, SARS-CoV-2 was not detected from 80% (4/5) sewerage sites of Johar Town C Block (Figure 1 ). A total of 23 sewerage sites were sampled from Township A-II sector, Lahore, based on the population density and sewerage maps of the area. Among these sites, 19 sites were street sewerage pipelines, while the remaining 4 sites were relevant downstream lift/disposal stations. Of the 19 sites, 10 sites were detected positive for SARS-CoV-2 on the first sampling on July 13, while 16, 11, 16, 11, 4, and 5 sites were identified on the subsequent samplings on July 15, 17, 19, 21, 23, and 25, respectively (Supplementary Table S1, Figure 3 ). Among the 4 lift/disposal stations of the Township area, 2 stations were detected positive on the first sampling, while all 4 lift/disposal stations were detected negative for SARS-CoV-2 in later samplings ( Figure 3 ). The decrease in viral load in the sewage samples with the progression of smart lockdown was evident by the decreased number of COVID-19 cases reported from the lockdown areas. Before smart lockdown, 1,029 COVID-19 cases were reported from smart lockdown and adjoining areas (Iqbal Town) in the duration of 14 days, while the new cases were decreased to 339 during the smart lockdown. To assess the role of sampling time in the detection of SARS-CoV-2 in sewage, two sewerage lift stations, one from each area under smart lockdown, were sampled on an hourly basis for 24 h, and the detection trend of SARS-CoV-2 from hourly samples is presented in Supplementary Figure S2 , available in www.besjournal.com. Different sampling time was revealed to be better for both areas. Our results indicate that the best time of sampling may vary between different localities depending on various factors. The results showed that in both regions, more viral genome copies were detected in the early morning (7 am to 10 am) and evening to midnight (6 pm to 12 am). This may be due to the peak in toilet use in the morning and evening [9] . These results suggest that an appropriate sampling time should be selected by using the hourly sampling method. The constant positive status of site 1 of Johar Town C Block throughout the lockdown period prompted the backtracking of the upstream sewage water, which led us to the homes with active cases of COVID-19. The sewage of 16/67 homes was found to be positive for SARS-CoV-2. Residents of 5 homes were found to be symptomatic and positive for nasopharyngeal or serum detection, while 127 asymptomatic residents of the 67 homes were positive for either nasopharyngeal swab or antibodies against the virus. SARS-CoV-2 has been previously detected in fecal samples of both symptomatic and asymptomatic patients of COVID-19 [10] . The success of identifying the homes containing active patients of COVID-19 by backtracking makes our approach to be valid for optimizing lockdowns. One of the striking observations of the study is that SARS-CoV-2 RNA can be detected in raw sewage water samples, without the need to concentrate the virus. Collectively, this study indicates that sewage waterbased COVID-19 surveillance could play a reliable role in the monitoring and execution of smart lockdowns. Incubation period of 2019 novel coronavirus (2019-nCoV) infections among travellers from Wuhan, China Assessment of poliovirus eradication in Japan: genomic analysis of polioviruses isolated from river water and sewage in Toyama Prefecture A novel strategy for community screening of SARS-CoV-2 (COVID-19): Sample pooling method Isolation of polioviruses from sewage and their characteristics: experience over two decades in Sweden Assay techniques and test development for COVID-19 diagnosis Diagnostic efficacy of three test kits for SARS-CoV-2 nucleic acid detection Temporal dynamics of antibiotics in wastewater treatment plant influent A case series of children with 2019 novel coronavirus infection: clinical and epidemiological features