Trypanosomosis agglutination card test for Trypanosoma brucei rhodesiense sleeping sickness.

OBJECTIVE: To develop a simple field test for diagnosis of Trypanosoma brucei rhodesiense in man. DESIGN: Trypanosomosis Agglutination Card Test (TACT) was developed for the diagnosis of sleeping sickness due to Trypanosoma brucei rhodesiense infection, based on stabilised procyclic forms derived from Utat 4.1. Procyclics were fixed in buffered formalin at 4 degrees for 24 hours and further stabilised in acid/alcohol mixture for 30 minutes. The fixed antigen was stained with Coomassie blue and suspended in 0.1 M PBS/sodium azide buffer pH 7.2 at a concentration of 1 x 10(8) trypanosomes/ml and kept at room temperature. This antigen was used to screen 100 sera from rabbits infected with T. b. rhodesiense, eight from normal rabbits, and 220 only sera 60 of which were from sleeping sickness patients, 50 from normal persons and 110 from other parasitic infections. SETTING: Laboratory testing of the antigen types against the rabbit and human sera infected with cloned variable antigen types of T. b. rhodesiense, was routinely carried on test cards under room temperature. SUBJECTS/PARTICIPANTS: Serum samples from normal and infected rabbits and human subjects. RESULTS: All sera from infected rabbits and 59 from sleeping sickness patients reacted strongly with the antigen showing agglutination reaction which ranged from 1:4 to 1:1024 serum dilution. There was minimal cross reaction with other parasitic infections as follows: one out of 20 malaria patients none of the 20 hookworm patients, one out of 30 for schistosomiasis patients, none of the 10 amoebiasis patients and one out of 20 for filariasis patients. Agglutination titres from all these non-sleeping sickness patients were below 1:16. Based on rabbit positive and negative sera, TACT gave a sensitivity and specificity of 100% and 80% while for human sera a sensitivity of 98.3% and specificity of 96% were observed. CONCLUSION: These preliminary results show that TACT could be a promising screening field test for T. b. rhodesiense sleeping sickness.

Parasitological detection of Trypanosoma brucei gambiense in serologically negative sleeping-sickness suspects from north-western Uganda.

Forty-five parasitologically confirmed cases of sleeping sickness were diagnosed in north-western Uganda using a combination of two or three techniques. Forty of the cases were positive by the card agglutination test for trypanosomiasis (CATT), four were negative and one was not screened by the CATT. Trypanosomes isolated from the four CATT-negative but parasitologically positive cases were propagated for detailed biochemical genetic analysis. The aim was to demonstrate whether these four stocks lacked the LiTat 1.3 gene which encodes the antigen on which the CATT is based. All the DNA extracts isolated from these CATT-negative stocks and from six CATT-positive stocks of Trypanosoma brucei gambiense were targeted for amplification by the three variable-surface-glycoprotein genes thought to be ubiquitous in T. b. gambiense. The LiTat 1.3 gene was shown to be present in all 10 stocks. Trypanosome carriers may be CATT-negative because the CATT is not sensitive enough, because their parasites lack the LiTat 1.3 gene, or because their parasites have this gene but do not express it. The four sleeping-sickness cases who gave negative CATT results in the present study have very important implications in the diagnosis of T. b. gambiense infections using the CATT. Following treatment of the CATT-positive cases, the CATT-negative carriers of the trypanosomes remain as human reservoir hosts for continuous infection of the population. Because CATT-negative individuals are rarely examined further, the general prevalence of parasitologically positive but CATT-negative cases is unclear. This study demonstrates the value of co-ordinated use of serological and parasitological techniques in the diagnosis of Gambian sleeping sickness.