Diagnostic Accuracy of a Prototype Point-of-Care Test for Ocular Chlamydia trachomatis under Field Conditions in The Gambia and Senegal

Trachoma, caused by infection of the eye with the bacterium Chlamydia trachomatis, is the leading infectious cause of blindness and is associated with poverty. Antibiotic treatment of all community members is one of the recommended control strategies for trachoma. However, in places where the prevalence of clinical signs is low, C. trachomatis eye infection is often absent. Laboratory testing for C. trachomatis infection by polymerase chain reaction (PCR) is highly sensitive but expensive and requires well-trained staff. A simple point-of-care (POC) test that can be used in trachoma-affected communities could help trachoma control efforts. We evaluated a POC test for C. trachomatis eye infection. Children under 10 years of age were screened for clinical signs of trachoma and C. trachomatis eye infection. The POC test result was compared with laboratory PCR test results. The POC test detected just over half of PCR test positives correctly. However, the POC test tended to give false-positive results in hot and dry conditions, which is the typical environment of trachoma. The POC test requires high specificity since it would be used to make treatment decisions at the community level. Therefore, its present format requires improvement before it can be utilized in trachoma control

Attempts at immortalization of crustacean primary cell cultures using human cancer genes

Primary cell cultures from crustacea have been initiated since the 1960s, yet no permanent cell line is available. Primary cells have a limited proliferative capacity in culture due to cellular senescence, which is regulated by a group of dominant senescence genes. The aim of this research was to manipulate cell cycle regulation by transfecting Cherax quadricarinatus primary cells with oncogenes, in an effort to induce a permanent cell line. Human papillomaviruses (HPV) play a critical role in the formation of anogenital cancer. Research has demonstrated that the HPV-expressed E6 and E7 proteins function concomitantly to disrupt the p53 and retinoblastoma (Rb) tumor suppressor genes, regulators of the cell-cycle checkpoints at the first gap (G1) phase. HPV E6 and E7 genes were transfected into the C. quadricarinatus cells by lipofection. Successful transfection was demonstrated by the presence of oncogene messenger RNA by reverse transciptase polymerase chain reaction. At day 150, transfected cells still remain viable, although cell proliferation was stagnant. It may be that while transfection of the oncogenes was successful, no proliferation of the C. quadricarinatus cells was evident due to a lack of telomere maintenance