congolense against other pathogenic trypanosomes, including T. As the assay bears the potential for detection of mixed infections, it may be applicable for drug efficacy studies and diagnostic discrimination of T. Therefore, ITS1 TD PCR provides a useful tool in assessment of drug efficacy against T. ITS1 TD PCR detected parasite recrudescence three days earlier than microscopy and had a higher positivity rate than microscopy (84.85% versus 57.58%) in 66 specimens of relapsing animals collected after treatments. ITS1 TD PCR demonstrated comparable performance to microscopy in verifying trypanocide treatment success, in which parasite DNA became undetectable in cured animals within two days post-treatment. congolense during an investigational new veterinary trypanocide drug efficacy study. The ITS1 TD PCR was evaluated on cattle experimentally infected with T. brucei, and 100 parasites per ml of blood for detection of T. The assay achieves analytical sensitivity of 10 parasites per ml of blood for detection of T. The study presents a “Touchdown” PCR targeting the internal transcribed spacer 1 of the ribosomal DNA (ITS1 TD PCR) that enables detection and discrimination of different Trypanosoma taxa in a single run due to variations in PCR product sizes. Molecular techniques are more amendable to high throughput processing and are generally more sensitive than microscopic detection, thus bearing the potential of shortening the 100-day follow up period. Since these methods have poor sensitivity, follow-up for up to 100 days after treatment is recommended to increase the chance of detecting recurrent parasitaemia waves. In vivo assessment of trypanocidal efficacy relies on monitoring of treated animals with microscopic parasite detection methods. congolense strains present a threat to the control of AAT and have triggered research into discovery of novel trypanocides. Trypanosoma congolense is considered the economically most important species. Animal African trypanosomoses (AAT) are caused by flagellated protozoa of the Trypanosoma genus and contribute to considerable losses in animal production in Africa, Latin America and South East Asia.
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