1.The Role of Anopheles anthropophagus in Malaria Transmission in in Xinyang City of Henan Province
Zhengcheng GU ; Leyuan SHANG ; Jianshe CHEN ; Xiang ZHENG ; Yujie SU ; Aimin LI ; Hui LIU ; Manzhen LUO ; Huilin QIAN ; Linhua TANG
Chinese Journal of Parasitology and Parasitic Diseases 1987;0(04):-
Objective To study the role of Anopheles anthropophagus in malaria transmission and transmission threshold so as to provide basis for vector surveillance and malaria control strategy. Methods Parasitological and entomological methods were used in the investigation at 5 villages of Xinyang City, Henan Province. Results From July to August, 1999, 74 febrile cases (10\^9% of the total population) were examined. Among them 50 were infected, the incidence in the population of surveyed spots was 7\^4%. Active detection was made in another randomly selected two villages and found that the parasite rate in the inhabitants was 2\^0%, and the positive rate of IFA was 8\^4%. Only vivax malaria was detected. An.anthropophagus and An.sinensis were collected, with An.anthropophagus as the predominant one in human dwellings. The estimated man\|biting rate and the human blood index were 4\^9388 and 0\^7858 respectively. The vectorial capacity of An. anthropophagus was 5\^5296. The critical man\|biting rate of An.anthropophagus was 0\^2407 as calculated by the formula (ma=-rlnP/abP\+n) according to Macdonald′s model.The local man\|biting rate was 20 times higher than that of the critical man\|biting rate. Conclusion The results demonstrated that An.anthropophagus is the principal vector in malaria transmission in the area. The findings imply that the critical man\|biting rate is of practicable importance in vector surveillance.
2.Experimental research on osteogenic abilities of new bone tissue engineering scaffolds by recombinant bone morphogenetic protein.
Yi LI ; Wei RAN ; Manzhen LIU ; Yanhui LIU
Journal of Biomedical Engineering 2010;27(4):825-828
This research sought to asses the efficacity of a new type of tissue engineering bone developed by PDLLA/ PLA-PEG-PLA and BMP as a kind of bone graft substitute in the rabbit model of mandibular defects; 15 mm x 6 mm bilateral mandibular periosteum bone defects were made surgically in 20 New Zealand adult rabbits. The porous scaffolds impregnated with rhBMP-2 were used for the purpose, and the scaffolds without rhBMP-2 were used as control. The methods adopted in this research were: macroscopy, histomorphologic exam, X-ray exam, SEM micrography, computer-aided analysis and graphics. The experimental group was shown to have an earlier inception of bone forming. New bone formation was seen along the border of the original mandibular bone and in the middle. At 12 weeks after surgery,the defects were almost filled with new bone. In the control group, the defects could not be repaired in its entirety, and there was no new bone in the middle. The porous scaffold is a promising carrier for BMP. This kind of bone graft substitute can serve as an osteoconductive and osteoinductive matrix.
Animals
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Bone Morphogenetic Protein 2
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administration & dosage
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Bone Substitutes
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metabolism
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Female
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Implants, Experimental
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Lactic Acid
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administration & dosage
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Male
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Mandibular Injuries
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surgery
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Osteogenesis
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Polyesters
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administration & dosage
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Polyethylene Glycols
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administration & dosage
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Polymers
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administration & dosage
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Rabbits
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Recombinant Proteins
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administration & dosage
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Tissue Engineering
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Tissue Scaffolds