This study was the first field evaluation of RLDT for Shigella in an endemic country and the first evaluation of RLDT for ETEC in Asia. Here, we established that the performance of Shigella and ETEC RLDT are comparable to the quantitative PCR, with the sensitivity and specificity ranging from 93 to 100%, and excellent agreement between the two assays. While the RLDT assay was much more sensitive than the culture, almost all the culture positives were also positive by the RLDT. The RLDT could detect 12% more Shigella and 13% more ETEC compared to the respective cultures. The performance of the RLDT in India was comparable to the previous reports of the RLDT evaluation studies at JHU10 and in Zambia19.
Shigella and ETEC are important pathogens that are largely responsible for foodborne illnesses occurring around the world20, 21, particularly in low and middle-income countries4. Active and rapid monitoring through surveillance is thus essential for the control of these bacterial infections and outbreaks22. Our study showed that the RLDT is a simple and rapid gene amplification tool to detect ETEC and Shigella directly from the stool. Since the assay is simple and the hands on time is less than five minutes, this could be implemented at the study site in Kolkata, India, with minimal training. RLDT method is less time consuming than culture-based techniques, conventional PCR assays, and qPCR, and therefore, could be performed easily and rapidly by the staff at the study site.
ICMR-NICED under the Government of India, is one of the few institutes in India, where a surveillance system for enteric diseases had been established and performed routinely. Under this system, stool specimens are collected from acute diarrheal patients hospitalized at the ID and BCRM hospitals representing every fifth hospitalized case with diarrhea on two randomly selected days in a week. These specimens are then examined at the microbiology laboratories at the NICED for common enteric pathogens using the established methods. For Shigella, culture, and ETEC, culture followed by PCR of the E. coli isolates are used. The surveillance data are sent to the ICMR and the Ministry of Health, India. In the previously published reports from this surveillance system, Shigella was isolated at 7.9% (51/648) from < 5 years old children in 2007 to 200915 and 7.7% (193/2489) from all ages in 2001 to 200423. ETEC was isolated at 4.2% (27/648) from < 5 years in 2007 to 200915; from all age groups, 4.3% (164/3826) in 2008-201124, and 3.7% (329/8891) in 2012-201925.
While the isolation rates in this study by culture were similar to the previous reports by the ICMR-NICED, however, using qPCR and RLDT, the isolation rates were much higher, ~ 3 folds for Shigella and ~ 4 folds for ETEC compared to culture. Therefore, the culture method largely underestimates the actual burden of these pathogens. Understanding the real burden of these significant pathogens at the national and sub-national levels is critical to guide global and local public health officials and policymakers to prioritize resources for accelerating vaccine development and implementation and other interventions to control these enteric infections. To strengthen surveillance of enteric diseases like Shigella and ETEC and rapid reporting at the national level to estimate disease prevalence and rapid response to contain outbreaks, a rapid, simple, as well as sensitive tool like the RLDT would be useful. In addition, rapid and simple detection of ETEC and Shigella using RLDT could guide the treatment decisions with antibiotics for these pathogens which could reduce the overuse of antibiotics at the health care facilities.
Since RLDT can be easily implemented in the endemic countries, it could be a useful screening tool in the Shigella and ETEC vaccine candidate evaluations in the upcoming phase III trials. Since the assay is rapid, the samples positive by the RLDT could be cultured and isolated colonies tested for antimicrobial resistance and whole genome sequencing.
In this study, we found that Shigella and ETEC are highly prevalent in Kolkata, India, causing moderate to severe diarrhea in under 5 years old children, which requires hospital visits. Therefore, there is an urgent need to control these diarrheal diseases to reduce mortality and short- and long-term morbidity among children.
This study has limitations. We used a stringent cutoff of ~ 104 CFU/gm of stool for Shigella, which reduced the sensitivity of the RLDT compared to qPCR, which was increased when the cutoff was increased. In addition, the sample preparation methods for RLDT, qPCR, and culture were different. RLDT was done directly from the stool with minimum sample treatment; qPCR was done from purified DNA; isolates from culture were tested with biochemical test and serogrouping for Shigella and PCR for ETEC. Therefore, the sensitivity of these assays depends not only on the amplification technology but also on the starting material.
In conclusion, the results of our study demonstrated that the RLDT assay is a sensitive molecular test for rapid and reliable identification of Shigella and ETEC infections from the stool. This study also showed that the RLDT could be easily implemented in an endemic setting like Kolkata, and the assay is much simple and rapid compared to qPCR, PCR, and culture methods. The RLDT is a simple and practical tool for the detection of Shigella and ETEC, which has the potential to be used for disease surveillance, outbreak detection, and vaccine evaluation in phase III trials and for on-site patient diagnosis for treatment.