LAUSR

To the Editor—We read with great interest the article “COVID-19 Admission Screening, and Assessment of Infectiousness at an Academic Medical Center, Iowa 2020” by Alsuhaibani et al,1 in which the cycle threshold (Ct) value of severe acute respiratory coronavirus virus 2 (SARS-CoV-2) reverse-transcription polymerase chain reaction (RT-PCR) was one of the criteria used to determine the degree of infectiousness in patients. Having suffered a disastrous second wave resulting from a severe shortage of resources, India ranks 155 of 167 countries, with 5 hospital beds and 8.6 doctors per 10,000 people.2 With health experts predicting an impending third wave, it is essential for hospital administrations to revise admission criteria and triage policies. One criterion that has garnered attention is the Ct value of SARS-CoV-2 RT-PCR tests. However, many challenges are associated with using Ct values as a reliable criterion for infectiousness. The Ct value is the cycle of amplification at which fluorescence indicates a positive result.3 It is explained as the number of cycles of amplification of viral copies it takes for the RT-PCR to register a positive test. The Ct score is inversely proportional to the viral load present within the sample. The widely used RT-PCR testing for SARS-CoV-2 utilizes nasal or nasopharyngeal samples via swab collection. One of the important issues with usingCt value as an indicator of infectiousness is the variation in the skill of the swab collectors, along with the tolerance of the patients. Having faced a huge shortage of healthcare workers, state governments across India have employed swab collectors from various professions as well as students outside health care to cope with shortage of manpower, training them for 3–5 days.4 The skill level of these swab collectors varies greatly. A news article from the city of Bengaluru reported one case of a student volunteer who collected 385 samples over 5 hours.5 Although this procedure speeds testing, it also leads to the collection of imprecise quantities of samples. Dahdouh et al6 reinforced the large amount of variation in samples collected from a nasopharyngeal surface. There may be a difference between the amount of virus collected and the amount of virus present within the nasopharynx of an individual, which is dependent largely on the swab collector. Therefore, they recommend that these variations be corrected with markers that should be integrated with commercial tests to standardize results.6 Notably, different laboratories have implemented different Ct value thresholds at which a negative test is declared. Globally, a Ct threshold of 37–40 is regarded as the cutoff, above which a test is considered negative. However, in the state of Maharashtra in India, the most severly affected state in India, the Indian Council ofMedical Research (ICMR) recommended a Ct threshold value of 35. According to the state government of Maharashtra, certain laboratories were using a Ct value of 24, and any higher value was declared negative.7 These assessments created a dangerous situation because the patients with Ct values between 24 and 35, who would otherwise test positive, escaped further follow-up. Thus, this population skipped the 14-day quarantine period for COVID-19–positive patients and moved through the public as unknown carriers of the virus, leading to further spread. Also, Ct value thresholds vary widely among different commercial kits, and in some cases, even among different runs of the same kits.8 To deal with these variations, qualitative RT-PCR test kits and Ct values should not be used as a replacement for quantitative RT-PCR to determine the viral load of a patient. Rather, a 2-step approach using qualitative RT-PCR for detection followed by a quantitative RT-PCR to detect viral load should be employed as demonstrated.9 In addition, appropriate units should be employed for quantification (eg, copies/mL) rather than Ct values.9 Another issue with using Ct values as a criterion for infectiousness is that it varies depending upon the timing of the illness at which the swab is taken. Ct values were lower when samples were collected early in the illness andwere higherwhen taken in the later stages of illness.10 Furthermore, a study conducted in India to investigate a link between severity of COVID-19 and Ct value also demonstrated that Ct values varied depending on the duration of illness, rather than severity of the disease. Those who were tested earlier in their illness had a lower Ct value than patients whose samples taken later in their illness.11 The Ct value has attracted widespread attention from the general public in India. It has been observed that patients, although asymptomatic, are quick to seek admission since they fear a low Ct value implies a high severity of illness. This problem has been coupled with the severe scarcity of beds and resources, which has placed great strain on the healthcare system.12 Symptomatic patients requiring medical attention are often shunned from hospitals due to a shortage of hospital beds. On the other hand, those with higher Ct values are often equipped with a false sense of security and tend to flout quarantine and isolation rules. Author for correspondence: Dr. Saad Ahmed Jamal (M.B.B.S.), E-mail : saad.gx@ gmail.com Cite this article: Jamal SA, Farooq MU, and Bidari V. (2021). Challenges associated with using cycle threshold (Ct) value of reverse-transcription polymerase chain reaction (RT-PCR) as a criteria for infectiousness of coronavirus disease 2019 (COVID-19) patients in India. Infection Control & Hospital Epidemiology, https://doi.org/10.1017/ ice.2021.357