Of 360 tablet/capsule samples from 60 providers, 9.7% (95% CI 6.9, 13.3) contained less, and 0.6% more, API than pharmacopoeial reference ranges, including 29/37 (78.4%) primaquine, 3/70 (4.3%) amodiaquine, and one sample each of quinine, artemether, sulphadoxine-pyrimethamine and amoxicillin. According to the package label, 86.5% of poor-quality samples originated from India. Poor-quality medicines were found in 48.3% of providers at all levels of the supply chain. Drug quality was unrelated to storage conditions. Conclusions: This study documents the presence of poor-quality medicines, particularly
primaquine, throughout PNG. Primaquine is the only available transmission-blocking antimalarial, likely INCB018424 in vitro to become important to prevent the spread of artemisinin-resistant P. falciparum and eliminating P. vivax hypnozoites. The availability of poor-quality medicines reflects the lack of adequate quality control and regulatory mechanisms. Measures to stop the availability of poor-quality medicines should include limiting SNS-032 datasheet procurement to WHO prequalified products and implementing routine quality testing.”
“Question Afforestation is a controversial
method for restoring semi-arid sandy ecosystems to control desertification. We studied how native elm trees (Ulmus pumila L.) interact with grasses in the semi-arid sandy ecosystem of the Otindag, and how the trees should be arranged to promote ecological restoration. Location Otindag Sandy Land, PLX4032 Inner Mongolia, northern China.
Methods Using 40 adult elms, we investigated and compared root depths of the native trees with those of neighbouring grasses. The shallowest elm roots and the deepest grass roots were analysed. Using four singleton elms, we also examined how soil moisture in the different soil layers (0-10, 10-20, 20-30 and 30-40cm) and grass biomass density changed with distance from the corresponding tree trunks in four directions within 19m. Results On average, the shallowest elm roots were 17.6 cm deep at 1m from the elm trunks, and 24.5cm at 3m from the elm trunks, whereas the deepest grass roots were 14 cm deep at 1m from the trunks, and 16.3 cm deep at 3m from the trunks. The moisture content in the 0-20cm layers decreased with distance from 1 to 19m from the singleton elms, but increased along the same distance gradient in the 20-40cm layers. Grass biomass density decreased along the distance gradient, and a logistic model fits this tendency well, which indicates that the grass biomass density levels off at distances of bigger than ca. 9m. Conclusions Given the vertical divergence of roots and the horizontal pattern of soil moisture, the adult native trees do not compete for much moisture with grasses. The adult native trees have the potential to facilitate the growth and biomass accumulation of nearby grasses.