COVID-19 self-testing in Nigeria: Stakeholders' opinions and perspectives on its value for case detection

Are self-test kits still relevant post COVID-19 pandemic? Qualitative study on working adults' perceptions

BACKGROUND

Other than self-isolation measures, self-testing is likely to reduce the transmission of COVID-19 and may become a valuable approach in future outbreaks of infectious diseases. This study delves into the perceptions and experiences of working adults who utilised COVID-19 self-test kits in Singapore during the post-pandemic period.

METHODS

Employing a qualitative descriptive design, in-depth interviews were conducted with 40 working adults from diverse occupations, with a median age of 35 years. Thematic analysis of transcribed interviews was carried out by two independent qualitative research-trained researchers.

RESULTS

Facilitators included personal motivations like safeguarding vulnerable individuals and the convenience of user-friendly self-test kits. Proximal environmental factors encompassed situations involving close contacts and large gatherings, while distal factors involved workplace regulations, public health campaigns, mass media influence, and trust in authorised kits. Nonetheless, barriers include discomfort, cost, uncertainty about proper technique, and evolving testing requirements. Positive test results prompted participants to notify contacts and self-isolate, whereas negative results encouraged a return to normalcy. Participants recommend sustained testing for new variants and vulnerable groups, though some view it as unnecessary due to pandemic normalisation.

CONCLUSIONS

Self-testing emerged as a social phenomenon influenced by societal obligations and relationships across multiple levels. Effective communication strategies may play a role in fostering trust and ensuring that working adults sustain the practice of self-testing; therefore, further research is needed to explore their potential impact. Such efforts could be valuable for maintaining vigilance and achieving effective disease control in the post-COVID-19 pandemic landscape.

Self-Diagnosis of SARS-CoV-2 from Saliva Samples at Home: Isothermal Amplification Enabled by Do-It-Yourself Portable Incubators and Laminated Poly-ethyl Sulfonate Membranes

COVID-19 made explicit the need for rethinking the way in which we conduct testing for epidemic emergencies. During the COVID-19 pandemic, the dependence on centralized lab facilities and resource-intensive methodologies (e.g., RT-qPCR methods) greatly limited the deployment of widespread testing efforts in many developed and underdeveloped countries. Here, we illustrate the development of a simple and portable diagnostic kit that enables self-diagnosis of COVID-19 at home from saliva samples. We describe the development of a do-it-yourself (DIY) incubator for Eppendorf tubes that can be used to conduct SARS-CoV-2 detection with competitive sensitivity and selectivity from saliva at home. In a proof-of-concept experiment, we assembled Eppendorf-tube incubators at our home shop, prepared a single-tube mix of reagents and LAMP primers in our lab, and deployed these COVID-19 detection kits using urban delivery systems (i.e., Rappifavor or Uber) to more than 15 different locations in Monterrey, México. This straightforward strategy enabled rapid and cost-effective at-home molecular diagnostics of SARS-CoV-2 from real saliva samples with a high sensitivity (100%) and high selectivity (87%).