Genetic substructuring within Oesophagostomum bifurcum (Nematoda) from human and non-human primates from Ghana based on random amplified polymorphic DNA analysis.

Random amplified polymorphic DNA (RAPD) was used to study genetic variation within Oesophagostomum bifurcum in Ghana. Four different decamer primers were used for the amplification of DNA from individual O. bifurcum adults (n = 41) from humans and non-human primates (including the Mona monkey, Patas monkey and Olive baboon) from different geographic regions. Analysis of the amplicons from all 41 nematodes by high resolution, denaturing polyacrylamide gel electrophoresis defined a total of 326 informative RAPD bands. Cluster analysis of the RAPD data (based on pairwise comparison of banding profiles) showed that O. bifurcum from humans was genetically distinct from O. bifurcum from the Mona and Patas monkeys, and from the Olive baboon. These findings clearly demonstrate the existence of population genetic substructuring within O. bifurcum from different primate hosts in Ghana, and raise interesting questions about host specificity, epidemiology (e.g., zoonotic transmission), and ecology of the different genotypes of O. bifurcum.

AFLP fingerprinting for the analysis of genetic diversity within Necator americanus.

In the present study, we utilised the method of AFLP to screen for genetic variation within and among individuals of the blood-feeding human hookworm Necator americanus (Nematoda) from Africa, Asia and South America. A total of 45 adult worms (i.e. 20 from Ghana, 16 from Colombia and 9 from Nepal) were subjected to analysis using the restriction enzyme/primer combination HindIII+AG/BglII+AC. Cluster analysis divided N. americanus into multiple, genetically distinct groups, consistent with previous findings using ribosomal and mitochondrial DNA data sets. The results demonstrated the usefulness of AFLP fingerprinting for establishing genetic variation within N. americanus and reinforce its applicability to other parasitic helminths of human and/or veterinary health importance.

Oesophagostomum bifurcum in non-human primates is not a potential reservoir for human infection in Ghana.

In northern Togo and Ghana, human infection with the parasitic nematode Oesophagostomum bifurcum is of major health importance. Elsewhere, oesophagostomiasis is considered a zoonotic infection, non-human primates being the natural host. We examined 349 faecal samples of the olive baboon, mona monkey and black and white colobus monkey from two geographically distinct areas in Ghana, outside the region endemic for O. bifurcum in humans. Using both microscopy and species-specific PCR, we found a high prevalence of O. bifurcum (75-99%) in olive baboons and mona monkeys. The majority of the test-positive faecal samples contained large numbers of larvae after copro-culture (>100). No O. bifurcum was detected in the faeces of the black and white colobus monkeys. Observational studies on the behaviour of the non-human primates, focusing on defecation, food consumption and the sharing of habitat with the local human population, indicated favourable conditions for zoonotic transmission. Given that no human infection with O. bifurcum has been reported from either study area, the present findings support the hypothesis that O. bifurcum from humans in the north of Ghana, and O. bifurcum from olive baboons and/or mona monkeys are distinct.

Polymerase chain reaction-based differential diagnosis of Ancylostoma duodenale and Necator americanus infections in humans in northern Ghana.

We evaluated a two-step semi-nested polymerase chain reaction (PCR)-based approach for the specific detection of Ancylostoma duodenale DNA in human faeces. The test was used to determine to what extent this species of hookworm is present in the regions of Bolgatanga and Garu of northern Ghana. Initially, the sensitivity and specificity of the PCR were tested using a range of well-defined control samples. Subsequently, a total of 378 human faecal DNA samples from Bolgatanga and Garu were subjected to the PCR. The results were compared with those obtained using a previously established PCR for the specific detection of Necator americanus DNA in human faeces. Infection with A. duodenale was recorded in 74 (19.6%) samples and N. americanus in 278 (73.5%), of which 64 (16.9%), represented co-infections with both species. While A. duodenale was predominantly detected in the samples from Bolgatanga, infections in Garu related almost exclusively to N. americanus. The results showed that the present PCR approach is a valuable complementary tool for the diagnosis of A. duodenale infection in humans in Ghana, having implications for epidemiological studies and for the monitoring of the success of control programmes in regions in Africa.