Reliable Shigella Identification: The Test Kit Method.

Introduction to Shigella Shigella is a genus of gram-negative, facultative anaerobic, non-spore-forming, non-motile and rod-shaped bacteria. There are four species of Shigella that can cause disease in humans - S.dysenteriae, S.flexneri, S.boydii and S.sonnei. Shigellosis, also known as bacillary dysentery, is caused by any of the Shigella species. It is one of the most common causes of diarrheal disease worldwide, especially in developing countries with poor sanitation and lack of clean drinking water. Shigella bacteria spread through contaminated food and water or through contact with infected individuals. Shigellosis causes abdominal cramps, bloody mucus diarrhoea, fever and tenesmus (painful cramping to pass out stool due to inflammation). If left untreated, it can lead to serious health complications like seizures, arthritis and in some cases death. Children under the age of five and elderly are more susceptible to contracting the disease.

Traditional Methods for Diagnosing Shigellosis

The conventional methods for diagnosing Shigellosis Test Kit included stool culture, stool antigen detection, polymerase chain reaction (PCR)-based assays and serological tests to detect for antibodies against Shigella. Stool culture has been the criterion standard test but it requires specialized laboratory facilities and takes 2-3 days for the results. During this critical time, appropriate antibiotic treatment cannot be initiated. Stool antigen tests are more rapid than culture but still require 6-8 hours turnaround time. PCR assays provide fast and sensitive diagnosis within few hours but costly equipment and technical expertise limits its use in resource-limited settings. Serological tests are not useful in acute phase as antibodies develop 1-2 weeks after infection. Thus, there was a need for a simple, rapid, affordable and accurate point-of-care test to facilitate prompt diagnosis and management of Shigella infections, especially in developing countries.

Introducing the New Shigella Test Kit

To address this gap, a new rapid lateral flow immunochromatographic assay called the ‘Shigella Test Kit’ has been developed. The kit consists of a test cassette and a dropper containing buffer solution. It works on the principle of immuno-chromatographic assay where antibodies specific to Shigella lipopolysaccharide antigen are immobilized on the test line. To use it, few drops of stool sample is mixed with the buffer solution using the dropper provided and dispensed into the sample well of the test cassette. The mixture then migrates via capillary action along the membrane towards the result window. If Shigella antigen is present in the sample, it will react with antibody-colored conjugate complex forming a visible test line within 15 minutes, indicating a positive result. Absence of test line suggests a negative result. The kit does not require electricity, specialized equipment or technical skills to perform and interpret the result. A built-in control line validates the test procedure.

Performance Evaluation Studies

Several clinical evaluation studies on the Shigella Test Kit have been undertaken across different regions of India. In one such study conducted in Lucknow, stool samples from 100 diarrhoea patients were simultaneously tested using the kit and conventional culture method. The kit showed a sensitivity of 94% and specificity of 95% compared to culture. Another multicenter study across 4 hospitals in Delhi involved testing 150 stool samples, out of which 25 were culture positive for Shigella. The kit detected 23 true positive samples with a sensitivity of 92%. None of the culture negative samples were falsely reported positive, demonstrating 100% specificity. Similar high accuracy was obtained when evaluated against immunoassay method. These findings establish the kit as a reliable tool for rapid diagnosis of Shigella infections at point-of-care settings.

Clinical Application and Public Health Impact

The Shigella Test Kit proves to be a game changer in facilitating prompt diagnosis and treatment of Shigellosis. By providing results within 15 minutes vis-à-vis 2-3 days for culture, it ensures appropriate antibiotics are started early during critical phase of infection. This helps prevent complications and spread of disease. Being simple to use with no sophisticated equipment or technical skills required, it can be easily implemented at primary health centers, outpatient clinics and rural settings. This increases accessibility to diagnosis especially in resource-limited areas. By enabling fast screening of large number of suspected cases, it also helps curb spreads during outbreak situations. Besides improved case management, the kit helps in effective epidemiological surveillance of Shigella resistance patterns and monitoring of disease trends over time. Overall, the new diagnostic approach has huge potential for reducing Shigella burdens and facilitating public health interventions in endemic regions worldwide.

Conclusion

In summary, the newly developed Shigella Test Kit offers a rapid, affordable and accurate point-of-care solution for diagnosis of Shigellosis. Performance evaluation studies validate its reliability for diagnosing Shigella infections.

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Molecular Diagnostics Market Size by Infectious Disease (Flu, Tuberculosis, Meningitis, RSV Virus, Hepatitis B, Hepatitis C, HPV, STD, HIV, Dengue, Gonorrhea, Chlamydia, TORCH, H. Pylori), By Technology (PCR, Real-Time PCR, DNA/RNA Purification)

Get more details @ http://bit.ly/2ePRhAo

Molecular Diagnostics Market Size By Infectious Disease (Flu, Tuberculosis, Meningitis, RSV Virus, Hepatitis B, Hepatitis C, HPV, STD, HIV, Dengue, Gonorrhea, Chlamydia, TORCH, H. Pylori), By Technology (PCR, Real-Time PCR, DNA/RNA Purification)