Elimination of onchocerciasis in Ecuador: findings of post-treatment surveillance.

BACKGROUND: The Esmeraldas focus of onchocerciasis in Ecuador expanded geographically during the 1980s and was associated with severe ocular and skin disease. Mass drug administration (MDA) with ivermectin started in 1991, initially once but later twice a year, in the principle endemic focus followed by all satellite foci. Treatment was stopped in 2009 when entomological assessments determined that transmission of Onchocerca volvulus had been interrupted. METHODS: Three years after the cessation of ivermectin treatment in 2012, as defined by the WHO guidelines for onchocerciasis elimination, blackfly collections were done in four sentinel sites in former hyperendemic areas. The presence of infective larvae in local vectors, Simulium exiguum and Simulum quadrivittatum, was assessed by detection of O. volvulus DNA by PCR. Additional flies captured in four extra-sentinel sites located in former hyper- and mesoendemic dispersed isolated areas were also assessed. RESULTS: The results from 68,310 captured blackflies, 40,114 from four sentinel villages in the previously hyperendemic areas (Corriente Grande, El Tigre, San Miguel on Río Cayapas and Naranjal on Río Canandé) and 28,197 from extra-sentinel locations, were all negative for the presence of O. volvulus. These extra-sentinel sites (Hualpí on Río Hoja Blanca, Capulí on Río Onzole, La Ceiba on Río Tululví and Medianía on Río Verde) were included to provide additional evidence of the impact of MDA on the transmission of O. volvulus in isolated endemic areas. CONCLUSIONS: Our data indicate that transmission of O. volvulus has been stopped in all endemic areas in Ecuador, including all satellite foci outside the main focus. These findings indicate that a strategy of ivermectin distribution twice a year to over 85% of the treatment-eligible population was effective in eliminating the infection from Ecuador in a focus with a highly competent primary vector, S. exiguum, and where the infection rates were equal to or greater than observed in many onchocerciasis foci in Africa

UNBOUND

This adjective - ex-traor-di-nary, describes the creative talents of our graduating Fashion Design class of 2009. Their accomplishments are a true celebration of the three years of passion, hard work, and dedication of our student designers. It is our hope that family, friends and the fashion industry will enjoy the creative endeavours of the next generation of Canadian fashion talent from the Fashion design program at Fanshawe College in London, Ontario.https://first.fanshawec.ca/famd_design_fashiondesign_unbound/1006/thumbnail.jp

UNBOUND

As part of the graduating class of Fanshawe College\u27s Fashion Design program, we are leaving the comfort of our cocoon to transform ourselves into full-fledged designers. Our aspirations have developed, and our goals have become clear. Reaching the heights of new age fashion is now possible with the wings that have been provided to us through the articulate direction and constant devotion of our advisors. With all of the help and guidance that our professors have given us, we are now able to go into the industry with confidence. The creativity within the Unbound show is a reflection of the intellect, devotion, passion and strong will that our designer\u27s possess. We have collected ourselves as individuals and have successfully pulled together in a collaborative effort to attain excellence and success in tonight\u27s Unbound fashion gala. - Graduating Class of 2009https://first.fanshawec.ca/famd_design_fashiondesign_unbound/1005/thumbnail.jp

Cytotaxonomy of Simulium cauchense Floch & Abonnenc and Simulium quadrifidum Lutz (Diptera: Simuliidae) in Brazilian Amazonia

Simulium cauchense Floch & Abonnenc and Simulium quadrifidum Lutz are widely distributed in the Amazon region and are morphologically similar at the larval and pupal stages. Chromosomally, these species are readily distinguished by the position of the nucleolar organizer, which is in the short arm of chromosome I in S. cauchense and in the long arm of chromosomes III in S. quadrifidum. They also differ by three fixed inversions. Sex chromosomes are undifferentiated in both species. Chromosomal resolution of the two species allowed us to evaluate four structural features previously used as diagnostic aids at the larval stage. Characters that distinguish larvae of the two species are the number of branches and branching patterns of the dorsal abdominal setae and the dark band on each primary fan. Branching patterns of the gill histoblasts were often diagnostic, with S. quadrifidum exhibiting more proximal branching and S. cauchense more distal branching. Sites where both species occurred sometimes had larvae with one petiole branching proximally and the other distally; in these cases examination of the chromosomes permitted assignment of the specimen to species. Pigmentation patterns of larvae, on the other hand, are highly variable. Color typically is sex linked in both species

Preferential DNase I sensitivity of insert-free ribosomal RNA repeats of Drosophila melanogaster.

The five predominant types of rDNA repeats in D. melanogaster were analyzed with respect to their DNase I sensitivity. Only the insert-free repeats showed a generalized DNase I sensitivity pattern whereas the major type I, both minor type I and type II repeats were not as extensively degraded by the nuclease. For XX and XY embryonic nuclei, where there is rapid cell division, the majority of the In- repeats were DNase I sensitive. This indicated that these In- repeats have the potential to be transcribed during this developmental stage. When compared to the In- repeats, the chromatin configuration of the In+ repeats is indicative of a higher order of chromatin folding. The paucity of In+ primary gene transcripts observed in vivo could result from In+ repeats being packaged into a more condensed form of chromatin

Development of PCR-based markers for a high grain protein content gene from Triticum turgidum ssp. dicoccoides transferred to bread wheat

Grain Protein Content (GPC) of wheat (Triticum aestivum L. and T. turgidum L.) is important for improved nutritional value and is also one of the major factors affecting breadmaking and pasta quality. A quantitative trait locus (QTL) for high GPC was detected a few years ago in the short arm of chromosome 6B from accession FA15-3 of Triticum turgidum L. var. dicoccoides. New molecular markers are presented here to facilitate the transfer of this high GPC gene into tetraploid and hexaploid wheat cultivars. Two sets of PCR (polymerase chain reaction) primers were designed to amplify regions of the non-transcribed spacer of the XNor-B2 locus. This locus was selected because it mapped on the peak of the QTL for GPC. The first pair of allele-specific primers produced an amplification product only when the T. turgidum var. dicoccoides XNor-B2 allele was present. The second pair of primers amplified fragment(s) of similar length in the different genotypes that after digestion with the restriction enzyme BamHI allowed differentiation of the T. turgidum var. dicoccoides allele. Four microsatellites markers were mapped on the short arm of chromosome 6B at both sides of the QTL peak and two on the long arm. Five additional amplified fragment length polymorphism (AFLP) markers were mapped into the QTL region on 6BS. These PCR markers together with 10 restriction fragment length polymorphism (RFLP) markers showed that the hexaploid cultivar Glupro, selected for high GPC, carries a distal segment of chromosome 6BL and a proximal segment of 6BS from dicoccoides accession FA15-3 encompassing the segment with highest LOD score for the GPC QTL