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10 June 2020 | Story Nitha Ramnath | Photo UFS Photo Archive
Prof Anthony Turton.
History was made in South Africa this week when a commercial laboratory became the first to extract COVID-19 RNA from various sewage samples in the country. This was done as a proof of concept, after the Dutch research agency KWR entered into an agreement with the SA Business Water Chamber on 9 April this year.

It was KWR that first demonstrated the potential of wastewater surveillance to identify the total viral load in a defined population in the Netherlands. This technology breakthrough has opened a new chapter in wastewater epidemiology on a global scale.
 
Prof Anthony Turton from the Centre for Environmental Management at the University of the Free State (UFS) says it is now possible to monitor the total viral load in each of the 824 wastewater treatment works in South Africa. Once the population size within the catchment area of the works is known, a calculation of the total viral load is possible, with a reasonable degree of accuracy. This accuracy will improve over time as the technology becomes more robust. 


Rapid deployment of technology
Prof Turton says this proof of concept is significant, because it took just eight weeks after reaching the agreement with KWR to find a laboratory with the necessary capabilities and to conduct the first tests. This is a rapid deployment of technology necessitated by the urgency of the COVID-19 pandemic. The source of funding for this demonstration was the private sector, so no taxpayer money was used. The proof of concept was deliberately designed to achieve two specific objectives. The main objective was to determine whether the Dutch methodology could be replicated in South Africa without major investment into training and procurement of laboratory equipment. The secondary objective was to understand the logistical complexities of sampling at multiple sewage works in one province, and then safely transporting those samples to the laboratory in another province. This emulates what will be needed if this methodology is adopted by government and rolled out across all provinces as required. 

Taking samples
Samples were taken over a 24-hour period using an automatic bulk sampler provided by a service provider at risk. A number of sewage works were sampled to emulate the complexity of a national operation should rapid implementation be required. The first samples were taken on Thursday 4 June. These were prepared according to a precise protocol and were shipped to the laboratory hundreds of kilometres away. The samples were prepared according to the stringent requirements of the protocol, and COVID-19 RNA was successfully extracted on Monday 8 June. Lessons learned in the first trial are being fed back to the team in preparation for the second sampling run that will take place shortly. 

Prof Turton, who serves in a facilitating role and in different capacities with each of the critical components of the overall value chain, is the man in the middle tying this whole process together. This is also a demonstration of the value of a university working in close collaboration with both government and private sector partners towards a common objective.  It is part of the Public Private Growth Initiative (PPGI), where the private sector works closely with the state to deliver core services needed to create employment opportunities as a matter of growing urgency.

Determining if the total viral load is increasing or decreasing
The second sampling run, which is about to be launched, will be a refinement of the first. Lessons learned during the logistical exercise will be applied to streamline the operation and generate an accurate costing of the service. By comparing the data for each sampling sequence, it will be possible to determine with a considerable degree of accuracy whether the total viral load in a given population is increasing or decreasing. When applied to multiple sewage works, it will be possible to identify hotspots for appropriate government intervention. This technical capability will provide robust information to both government and private sector decision-makers as they navigate their way through the complexity of a shutdown and phased re-opening of the national economy. Rapid upskilling of suitably qualified personnel will be needed, and the UFS will be playing a role in that process. 

News Archive

Suspension of the South African Doping Control Laboratory (SADoCoL) by the World Anti-Doping Agency (WADA)
2016-05-04

The senior leadership of the UFS and the management of the South African Doping Control Laboratory (SADoCoL) take note of the decision by the World Anti-Doping Agency (WADA) to suspend the laboratory’s accreditation to perform doping control analysis on biological samples of athletes and sportsmen and -women until 30 September 2016. During this time of suspension, all sport-related samples will be sent for analysis to the WADA accredited laboratory in Qatar until the accreditation of SADoCoL is re-established. Analysis according to WADA accreditation will therefore not be interrupted during the period of the suspension of the accreditation of SADoCoL.

The announcement by WADA on 3 May 2016 follows a voluntary decision by SADoCoL in March 2016 to temporarily close the laboratory for some of its routine analytical duties for six months, as from 1 April 2016. The decision was taken in consultation with the senior leadership of the UFS and other role players, especially the Department of Sport and Recreation of South Africa (SRSA) and the South African Institute for Drug-Free Sport (SAIDS). SADoCoL is a specialised service laboratory of the University of the Free State (UFS) and has been in existence for more than thirty years.

Due to the ever-increasing demands on the number, variety and analytical sensitivity of compounds to be analysed according to the Prohibited List of WADA, technical and infrastructure adaptations need to be implemented in the laboratory continuously to keep up with the demands. Over the last year, SADoCoL has drastically increased its capacity in both personnel and infrastructure, to a point where these changes can be implemented for optimal performance of the laboratory.  This has to be done while normal routine analysis continues, and it became clear that at present, implementation cannot be successfully accomplished together with the workload from normal routine analyses.

The time of suspension will be utilised to implement and test these new systems in order to achieve the standard presently required by WADA, as well as to perform development and improvements.  This development will be performed in close collaboration with other role players in the anti-doping movement in South Africa, such as SAIDS and SRSA. Scientific development aid will also be acquired from other doping control laboratories worldwide in order to assure that the high analytical quality is maintained and expanded to meet the fast growing challenges in this field. The progress of the process will be closely monitored, and the upgraded methodologies will then, after rigorous testing, be implemented to ensure that the required analytical quality is maintained so as to obtain re-accreditation by WADA at the conclusion of the suspension period.

Issued by: Lacea Loader (Director: Communication and Brand Management)
Telephone: +27(0)51 401 2584 or +27 (0) 83 645 2454
E-mail: news@ufs.ac.za
Fax: +27 (0) 51 444 6393

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