Abstract
Shipping influenza virus specimens, isolates or purified RNA is normally conducted at ultra-low temperatures using dry ice to ensure minimal degradation of the samples but this is expensive and requires special packaging and shipping conditions. Therefore, alternative methods for shipping influenza viruses or RNA at ambient temperatures would be desirable. The RNASound RNA Sampling Card (FortiusBio LLC, San Diego, CA, USA) is a device that enables specimens or isolates to be applied to a card, whereby viruses are inactivated, while RNA is preserved and purified RNA can also easily be eluted. To evaluate this card, we applied influenza virus cell culture isolate supernatants to either the RNASound card or Whatman Grade No. 1 filter paper (GE Healthcare, Rydalmere, NSW, Australia) and compared the preservation to that of material stored in liquid form. Preservation was tested using influenza A and B viruses at two different storage temperatures [cool (2–8°C) or room temperature (18–22°C)] and these were compared with control material stored at -80°C, for 7, 14, or 28 days. The quality of the RNA recovered was assessed using real time RT-PCR and Sanger sequencing. The RNASound card was effective in preserving influenza RNA at room temperature for up to 28 days, with only a minor change in real-time RT-PCR cycle threshold values for selected gene targets when comparing between viruses applied to the card or stored at -80°C. Similar results were obtained with filter paper, whilst virus in liquid form performed the worst. Nevertheless, as the RNASound card also has the capability to inactivate viruses in addition to preserving RNA at room temperature for many weeks, this makes it feasible to send samples to laboratories using regular mail, and thus avoid the need for expensive shipping conditions requiring biohazard containers and dry ice. Moreover, the quick and simple RNA recovery from the RNASound card allows recipient labs to obtain RNA without the need for special reagents or equipment.
Highlights
Viruses that infect humans and animals can have a devastating impact on morbidity and mortality and rapid analysis of specimens to determine the identity of causative viruses is important
It is recommended that virus samples are stored in virus transport media and kept cold, or ideally, frozen at −80◦C for shipment. This requirement has meant that shipment of samples from the field or remote hospital sites typically requires the use of dry ice which, because it is considered a ‘dangerous good’ by the International Air Transport Association (IATA), requires special packaging and shipping conditions resulting in high shipping costs (NPAAC, 2013)
We evaluated the efficiency of the RNASound card for RNA preservation of cell culturegrown influenza viruses
Summary
Viruses that infect humans and animals can have a devastating impact on morbidity and mortality and rapid analysis of specimens to determine the identity of causative viruses is important. It is recommended that virus samples are stored in virus transport media and kept cold, or ideally, frozen at −80◦C for shipment. This requirement has meant that shipment of samples from the field or remote hospital sites typically requires the use of dry ice which, because it is considered a ‘dangerous good’ by the International Air Transport Association (IATA), requires special packaging and shipping conditions resulting in high shipping costs (NPAAC, 2013). There is a need for methods that effectively preserve the RNA of viruses at room temperature for an extensive time period, thereby simplifying and reducing the costs of shipping clinical specimens or isolates to laboratories
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