The World Health Organization (WHO) recommends that parasitological confirmation of clinical malaria diagnosis be performed before antimalarial treatment is administered. Malaria rapid diagnostic tests (RDTs) represent a valuable tool for prompt and efficient diagnosis of malaria in settings where microscopic diagnosis is unavailable or unreliable. Concerns remain, however, that Plasmodium falciparum polymorphisms in the genes coding the antigens detected by RDT could impact on RDT performance. Using field isolates of Plasmodium falciparum, we aimed to characterize genetic variability in histidine-rich proteins 2 and 3 (PfHRP-2 and PfHRP-3), aldolase (ALD) and Plasmodium lactate dehydrogenase (pLDH) genes and to evaluate their impact on the performance of RDT. Pfhrp-2, Pfhrp-3, aldolase and pldh were amplified using polymerase chain reaction (PCR) and sequenced. Genetic variation was observed in pfhrp-2 and pfhrp-3 genes while aldolase and pldh showed high levels of conservation. These findings suggest that RDTs based on pLDH and ALD are reliable in the study settings where there is intense diversity or polymorphisms of histidine-rich protein (HRP). Nevertheless, there is no evidence from this study to suggest that RDTs based on the detection of PfHRP-2 and PfHRP-3 have lower sensitivity in Papua New Guinea (PNG). The results observed in this study will be used to inform the PNG National Department of Health on the continued usage of pLDH/ HRP-2 RDT for malaria diagnosis in PNG.

We evaluated a biodegradable graft for reconstruction of rat vasa deferentia with long obstructed or missing segments. A total of 47 Sprague-Dawley rats underwent bilateral vasectomy and were divided into groups according to length of the vas deferens affected (0.5, 1, 1.5 cm). After 8 weeks, poly-(D,L-lactide) (PDLA) grafts were used to reconnect the vas deferens. Grafts and adjoining vasa deferentia were excised 8 and 12 weeks later and evaluated microscopically. At 8 weeks, microscopic changes included a robust inflammatory response around the grafts. All grafts were still intact but in the early stages of degradation. No microtubules, indicative of vas deferens recanalization, were identified. One specimen showed evidence of healing and neovascularization at the interface zone between the vas deferens and the graft. At 12 weeks, grafts were further degraded but still present. Microscopic evaluation showed decreased inflammation. Seven specimens showed neovascularization at the interface zone; two of these showed distinct epithelialized vas deferens microcanals at the graft edges. One specimen showed a microcanal spanning the entire 0.5-cm graft. A time period of 8 weeks is not ample enough for vas deferens regeneration in the setting of a biodegradable PDLA graft; however, early evidence of re-growth was seen at 12 weeks. A longer healing time should permit further biodegradation of the graft, as well as re-growth and possible eventual reconnection of the vas deferens, allowing passage of sperm. These findings suggest a potential role for biodegradable grafts in the reconstruction of vas deferens with long obstructed segments.
Absorbable Implants ; Animals ; Graft Survival ; Male ; Rats ; Rats, Sprague-Dawley ; Vas Deferens ; cytology ; surgery ; Vasectomy ; Vasovasostomy ; methods