[Interspecific hybridization of Schistosoma and its significance].

Schistosomiasis is one of zoonoses (diseases that are naturally transmitted between vertebrate animals and human),and it is widespread in tropical and sub-tropical regions. It is one of the important infectious diseases that the World Health Organization plans to eliminate. Hybridization within Genus Schistosoma is an emerging public health concern in our changing world.Schistosoma spp. are dioecious trematode, in which there are lots of species infecting human and animals. Several schistosome species also overlap in their geographical and host range, which allows male and female schistosomes of different species to pair within their definitive hosts. The hybridization among different species and the production of dominant hybrid species and changes of their biological characteristics, such as host selectivity, fertility and infectivity, can lead to the evolution of schistosoma species, regional distribution of the population, the changes of epidemic patterns, and pathogenicity to human and animals, and all of them have an impact on the global schistosomiasis elimination plan.

[A path analysis on China's participation in global health governance: a case study of China Aid of Schistosomiasis Control in Zanzibar].

Recently, China's participation in global health governance has been paid increasing global attention. This paper analyzed the current status and needs of African schistosomiasis control, the participation of China and international organizations in African schistosomiasis control and the progress of China Aid of Schistosomiasis Control in Zanzibar, with China Aid of Schistosomiasis Control in Zanzibar as an example. It is suggested that China may improve the capability of participation in global public health governance and international reputation through strengthening intergovernmental and international collaborations, providing successful disease control experiences and products and improving capability and team building.

[Study on biological characteristics: reproduction and viability of Biomphalaria glabrata as an intermediate host of Schistosoma mansoni].

OBJECTIVE: To compare the difference of fertility of Biomphalaria glabrata snails between self-fertilization and cross-fertilization and to observe the circadian rhythm of laying eggs, the effect of light on laying eggs and the tolerance of the snail to water and food deficiency, so as to provide the evidence for control and elimination of B. glabrata snails in the field. METHODS: Under laboratory conditions, a single B. glabrata egg for self-fertilization was separated and hatched individually, and young snails were raised in different plastic boxes individually. The eggs for cross-fertilization were hatched and the young snails were fed in the same plastic box. The ability of spawn, the development of the eggs, and the number of snails growing from young to adult snails were compared between the self-fertilization and cross-fertilization. The snails were in the water under four environments, all day illumination, all day without illumination, daytime lighting and night without illumination, and daytime without illumination but night lighting. The eggs were collected and counted daily. The circadian rhythm of spawn and the effect of illumination on spawn were observed. The adult snails were divided into 6 groups and exposed to the environments with relative humidity of 0, 65%, 87% and 100%, respectively. The survival rates of the adult snails exposed to the different environments after different time were observed. The adult snails were placed at 25 °C in the oven to remove water content from the soft body of snails. When the dehydration rates of the soft bodies achieved 10%, 20%, 30%, 40%, 50%, 52%, 55%, 57%, 60%, and 70% respectively, the survival rates of the adult snails exposed to the oven were observed. RESULTS: In the 25 °C water, the average laying egg number for 15 days per snail was (8.77 ± 16.92) eggs/snail in the self-fertilization snail. The average laying egg number for 15 days per snail was (149.71 ± 142.28) eggs/snail in the cross-fertilization snails. There was a significant difference between the self-fertilization snail and cross-fertilization snail (t = 0.999 999, P < 0.01). The hatching rate and reproductive maturation rate of the self-fertilization snails and cross-fertilization snails were 50.1% and 78.9%, and 19.3% and 3.8%, respectively, There was a significant difference (the hatching rate: χ2 = 18.18, P < 0.01, the reproductive maturation rate: χ2 = 11.83, P < 0.01) . In the natural environment of daytime with illumination and nighttime with darkness, the amount of laying 20 eggs of B. glabrata snail was (944.07 ± 392.53) eggs/day during a whole day, among them the amount of laying eggs during daytime account for 10.1% and the amount of laying eggs during nighttime account for 89.9%, and the laying egg was given priority to with the night. The above results suggested that the dark environment was conducive to B. glabrata snails to lay eggs. The above results suggested that light can promote the increase of spawning of B. glabrata. When B. glabrata was exposed to the environments with the relative humidity of 0, 65%, 87% and 100% at 25 °C, respectively, and the longest survival times of snails were 7, 70, 150 d and 100 d, respectively. In the 25 °C water, the snails could survive for 50 days without food. The adult snails were placed at 25 °C in the oven to remove water content from the soft body of snails. When the dehydration rates of the soft bodies achieved 10%, 20%, 30%, 40%, 50%, 52%, 55%, 57%, 60%, and 70% respectively, the survival rates of the adult snails exposed to the oven were 100%, 100%, 100%, 100%, 70%, 30%, 0, 0, 0 and 0, respectively. CONCLUSIONS: B. glabrata can achieve the reproductive process by cross-fertilization or self-fertilization. There is a significant difference in reproductive ability between the cross-fertilization snail and self-fertilization snail, cross-fertilization is stronger than self-fertilization, but the rate of reproduction in the self-fertilization is higher than that in the cross-fertilization. It is indicated that B. glabrata that survive after the dry season plays an important role in the maintenance of local snail populations and transmission of schistosomiasis mansoni.

[Current status and transmission risks of oversea imported schistosomiasis in China].

With the acceleration of the process of global integration, China's international exchanges and cooperation with other countries have been further increased. The personnel exchange has led to the frequent occurrence of imported schistosomiasis from abroad, which seriously endangers people's health. This paper reviews the prevalence and transmission risks of oversea imported schistosomiasis, providing the reference for the entry and exit health quarantine and prevention and control of schistosomiasis in China.

[Studies on colonization risk and potential geographical distribution of Biomphalaria glabrata as an intermediate host of Schistosoma mansoni in Mainland China].

OBJECTIVE: To predict the colonization risk and potential geographical distribution of Biomphalaria glabrata in the Mainland China based on the past period temperature data. METHODS: The survival extreme high temperatures and low temperatures of B. glabrata eggs, young and adult B. glabrata snails and the average effective accumulated temperature of generation development were determined in laboratory conditions. The temperature data in January and July from 1955 to 2010 were collected from the national meteorological monitoring sites in the southern part of China, including Chongqing, Zhejiang, Yunnan, Sichuan, Jiangxi, Hunan, Hainan, Guizhou, Guangdong, Guangxi and Fujian provinces (11 provinces). A database of ambient temperature related to B. glabrata was established based on the Geographic Information System (GIS). The colonization risk and potential geographical distribution of B. glabrata in the southern part of China were analyzed and predicted by ArcGIS 10.1 software. RESULTS: The half lethal low temperatures of B. glabrata eggs, young and adult B. glabrata snails were 6.80, 6.34 ℃ and 6.60 ℃ respectively; the half lethal high temperatures of B. glabrata eggs, young and adult B. glabrata snails were 35.99, 33.59 ℃ and 32.20 ℃, respectively. The developmental threshold temperature was 7.16 ℃; the average effective accumulated temperature of generation development was (1 970.07 ± 455.10) days-degree. The GIS overlay analysis of the half lethal low and high temperatures of B. glabrata showed that the local temperature conditions in all Hainan and part regions in Yunnan, Guangxi, Guangdong and Fujian were conformed to the survival temperature of B. glabrata snails. The regions, where the average effective accumulated temperature was more than the average effective accumulated temperature of generation development of B. glabrata, were Guangdong and Hainan, and part regions of other 9 provinces. The overlay analysis of GIS maps of the survival extreme high temperatures and low temperatures of B. glabrata with the GIS map of the average effective accumulated temperature of generation development in 2010 showed that the whole region of Hainan and part regions of Guangdong, Guangxi, Yunnan and Fujian were potential geographical distribution regions of colonization risk of B. glabrata. The overlay analysis of GIS maps of the survival extreme high temperatures and low temperatures of B. glabrata with the GIS map of the average effective accumulated temperature of generation development from 1955 to 2010 showed that the potential geographical distribution regions of B. glabrata was expanding from the whole region of Hainan and part regions of Guangdong in 1955 to the whole region of Hainan and part regions of Guangdong, Guangxi, Yunnan and Fujian in 2010. CONCLUSIONS: If B. glabrata snails were introduced into the Mainland China, the potential geographical distribution regions would be the whole region of Hainan and part regions of Guangdong, Guangxi and Yunnan. The changes of risk range and risk intensity present the trends of expanding and increasing from the south to the north gradually.

[Establishment of an animal model of Sparganum mansoni infection and study on therapeutic methods â Establishment of an animal model of Sparganum mansoni infection in mice and changes of serum specific antibody levels post-infection].

OBJECTIVE: To establish an animal model of Sparganum mansoni (plerocercoid larva of S. mansoni) infection in mice and observe the changes of blood routine examinations and serum anti-sparganum antibody levels after the infection. METHODS: The spargana tapeworms were collected from frogs, and 25 Kunming mice were orally infected with the Sparganum tapeworms (3 tapeworms/mouse). Two days before the infection and 2, 7, 14, 21, 28, 35, 42 days and 49 days after the infection, the peripheral blood samples of mice were collected for the blood routine examinations and the detections of anti-S. mansoni IgG antibody with ELISA. Forty-nine days after the infection, all the mice were sacrificed to find out the Sparganum tapeworms in the bodies of mice. RESULTS: The count of the total white blood cells was significantly elevated on the second day of the mice infected with Sparganum. The serum anti-Sparganum antibody was detected on the 14th day of the infection in some mice, and on the 21st day of the infection, the serum anti-Sparganum antibody was detected in all the mice. After the mice were sacrificed, the Sparganum tapeworms were found out in many tissues and organs, and especially in the subcutaneous tissues and muscle. CONCLUSIONS: The establishment of animal model of Sparganum infection is successful in mice with the oral method, and white blood cells and serum specific IgG antibody detection can be used as auxiliary diagnosis methods of S. mansoni infection.

[Global burden and challenges of parasitic diseases in Africa].

Parasitic diseases are common infectious diseases closely related to poverty, which are mainly endemic in the tropical and subtropical regions. Africa is the major epidemic area of parasitic diseases, and the global burden of malaria and schistosomiasis is over 85% in Africa. This paper reviews the disease burden, regional distribution and control strategies of the main parasitic diseases in Africa, in order to promote the prevention and control of parasitic diseases in this area.

[Evaluation standards and application for photography of schistosomiasis control theme].

OBJECTIVE: To set up and apply the evaluation standards for photography of schistosomiasis control theme, so as to offer the scientific advice for enriching the health information carrier of schistosomiasis control. METHODS: Through the literature review and expert consultation, the evaluation standard for photography of schistosomiasis control theme was formulated. The themes were divided into 4 projects, such as new construction, natural scenery, working scene, and control achievements. RESULTS: The evaluation criteria of the theme photography were divided into the theme (60%), photographic composition (15%), focus exposure (15%), and color saturation (10%) . A total of 495 pictures (sets) from 59 units with 77 authors were collected from schistosomiasis epidemic areas national wide. After the first-step screening and second-step evaluation, the prizes of 3 themes of control achievements and new construction, working scene, and natural scenery were selected, such as 6 pictures of first prize, 12 pictures of second prize, 18 pictures of third prize, and 20 pictures of honorable prize. CONCLUSIONS: The evaluation standards of theme photography should be taken into the consideration of the technical elements of photography and the work specification of schistosomiasis prevention and control. In order to improve the ability of records for propaganda purpose of schistosomiasis control and better play a role of guiding correct propaganda, the training and guidance of photography of professionals should be carried out.

[Studies on resistance of Schistosoma to praziquantel Xâ ¥ Biological characteristics of praziquantel-resistant isolates of Schistomoma japonicum in Oncomelania hupensis snails].

OBJECTIVE: To investigate the difference of biological characteristics between the praziquantel-resistant and -susceptible isolates of Schistosoma japonicum in intermediate host Oncomelania hupensis snails. METHODS: Mice were infected with cercariae of praziquantel-resistant and -susceptible isolates of S. japonicum, and the parasite eggs were collected 37 days post-infection to hatch miracidium. Then, the snails were infected with the miracidium of each parasite isolate. The snail infection, survival rate of infected snails, prepatent period of cercariae, and the total number of cercariae shed from each infected snail were observed and compared between the praziquantel-resistant and -susceptible isolates of S. japonicum. RESULTS: If each snail was exposed to a single miracidium, there were significant differences between the praziquantel-resistant and -susceptible Jiangsu isolates in the snail infection (8.99% vs. 19.74%; χ2 = 3.948, P = 0.047) and the number of cercaria released from a single snail (1 460.2 vs. 1 039.3; t = 2.507, P = 0.02), and there were significant differences between the praziquantel-susceptible and -resistant Hunan isolates in the snail infection (10.00% vs. 21.52%; χ2 = 3.980, P = 0.046) and the number of cercaria released from a single snail (1 319.4 vs. 1 003.5; t = 2.566, P = 0.017). However, there were no significant differences between the praziquantel-resistant and -susceptible isolates of S. japonicum in the prepatent period of cercariae and the survival rate of infected snails (P > 0.05). CONCLUSIONS: The praziquantel-resistant isolate of S. japonicum has a higher susceptibility to O. hupensis but less cercaria released from each infected snail than the susceptible isolate.

[Studies on resistance of Schistosoma to praziquantel XVII Biological characteristics of praziquantel-resistant isolates of Schistosoma japonicum in mice].

OBJECTIVE: To investigate the biological characteristics of the praziquantel-resistant isolate of Schistosoma japonicum in mice, so as to explore the pathogenicity to definitive hosts and transmission intensity of the praziquantel-resistant isolate of S. japonicum. METHODS: Mice were infected with the cercariae released from two praziquantel-resistant isolates and two praziquantel-susceptible isolates of S. japonicum. The mouse-Oncomelania hupensis snail-mouse cycle was established and maintained in the laboratory. The prepatent period of parasite eggs, egg production, egg distribution in mice, parasite susceptibility to mice and egg size were investigated in each parasite isolate. RESULTS: The prepatent period of parasite eggs, egg counts in mouse feces, adult worms recovered from each mouse, egg counts in mouse tissues, egg counts in the mouse liver, and egg counts in intestine tissues were 36.1 d and 36.8 d (t = 0.907, P = 0.372), 14.6 / 100 mg and 21.2 / 100 mg (t = 2.946, P = 0.007), 20.5 and 25.1 worms per mouse (t = 2.128, P = 0.042), 31 303 and 38 594 per paired adult worm (t = 2.185, P = 0.04), 14 810 and 19 715 per paired adult worm (t = 2.934, P = 0.007), and 16 493 and 18 879 per paired adult worm (t = 1.044, P = 0.309) in the mice infected with Jiangsu praziquantel-susceptible and -resistant isolates of S. japonicum, respectively, and there were no significant differences between Jiangsu praziquantel-susceptible and -resistant isolates of S. japonicum in the length of paired adult worms (t = 0.328, P = 0.744), female adult worms (t = 0.386, P = 0.701) or male adult worms (t = 0.332, P = 0.741). The prepatent period of parasite eggs, egg counts in mouse feces, adult worms recovered from each mouse, egg counts in mouse tissues, egg counts in the mouse liver, and egg counts in intestine tissues were 35.5 d and 35.6 d (t = 0.169, P = 0.867), 13.3/100 mg and 18.9/100 mg (t = 3.622, P = 0.001), 17.6 and 25.1 worms per mouse (t = 3.153, P = 0.004), 30 932 and 53 903 per paired adult worm (t = 3.865, P = 0.001), 12 307 and 26 363 per paired adult worm (t = 4.388, P < 0.01), and 18 625 and 27 541 per paired adult worm (t = 2.679, P = 0.012) in the mice infected with Hunan praziquantel-susceptible and -resistant isolates of S. japonicum, respectively, and there were no significant differences between Hunan praziquantel - susceptible and - resistant isolates of S. japonicum in the length of paired adult worms (t = 0.853, P = 0.397), female adult worms (t = 0.573, P = 0.569) or male adult worms (t = 0.742, P = 0.461). CONCLUSIONS: The praziquantel-resistant isolate of S. japonicum has a higher parasite egg production and more eggs deposited in the mouse liver than drug-susceptible isolate, suggesting that the praziquantel-resistant isolate of S. japonicum exhibits a greater pathogenicity to definitive hosts. In addition, more parasite eggs are detected in the feces of mice infected with the praziquantel-resistant isolate of S. japonicum relative to the drug-susceptible isolate, indicating that the praziquantel-resistant isolate of S. japonicum exhibits a greater transmissibility than the drug-susceptible isolate.

[Role of goat in transmission of schistosomiasis japonica IV Goat breeding in endemic regions and role of goat in schistosomiasis transmission].

This review describes the major species, number, breeding pattern, ratio of fenced to freely grazed goat, susceptibility to Schistosoma japonicum, pattern of S. japonicum infection, infection rate, intensity of infection, fecal contamination of goat that were bred in 5 marshland and lake provinces of Hunan, Hubei, Jiangxi, Anhui and Jiangsu, and two mountainous provinces of Yunnan and Sichuan, and demonstrates the associations of infected goat distribution with the distribution of infected Oncomelania hupensis snails and humans. Considering the huge number of goat which were predominantly grazed freely in marshland and lake endemic regions of China, the high infection rate, numerous environmental pollution by goat feces, as well as the close correlation between the infected goat distribution and infected snail distribution, goat is considered as a major infectious source for schistosomiasis japonica in China, and to play a critical role in the transmission of the disease. Since the control of schistosomiasis in animals is critical to schistosomiasis interruption and elimination, it is suggested that the integrated management of goat schistosomiasis should be included in the national schistosomiasis control program of China.

[Role of goat in transmission of schistosomiasis japonica III Effect of temperature and humidity on survival of eggs in goat feces and egg survival in natural environments].

OBJECTIVE: To investigate the survival of Schistosoma japonicum eggs in goat feces in natural marshlands and the factors affecting its survival, so as to provide evidences for understanding of the role of eggs in goat feces in the transmission of schistosomiasis and the development of the interventions pertaining to disease control and elimination. METHODS: The goat animals of schistosomiasis japonica were modeled in laboratory, and the feces of infected goat were collected. In laboratory, the effects of environmental temperature and water content in goat feces on egg hatching were evaluated, and in the field, the effect of duration of goat feces on marshland on egg hatching and the effect of direct sunshine on egg survival were evaluated. RESULTS: At 25°C in laboratory, the hatching rate of eggs in goat feces washigh-positively correlated with the water content in goat feces (r = 0.87). If the water content reduced to 7.6% in goat feces, the eggs in goat feces lost the ability to hatch. Under the same water content in goat feces, the hatching rate of eggs gradually decreased with the extension of the duration of exposure of goat feces to -5 °C, which reduced to 0 following 5 h exposure. At 5, 15 and 25 °C, the hatching rates of eggs gradually decreased with the extension of the duration of exposure of goat feces, and themiracidium hatching ratesof eggs were 2.3%, 5% and 0.9% respectively following the exposure for 52 d. At 35°C, the hatching rate of eggs gradually decreased with the extension of the duration of exposure, which reduced to 0 following 13 d exposure. In winter (-2-10 °C), the hatching rate of eggs gradually decreased with the extension of the duration of exposure of goat feces on marshlands, which reduced to 0 after 21 d of exposure, and in spring (16-19 °C), the hatching rate of eggs gradually decreased with the extension of the duration of exposure of goat feces on marshlands, which reduced to 0.9% after 5 d of exposure. At the same time point on the same marshland, the hatching rate of eggs in goat feces exposed to marshlands with direct sunshine was lower than that without direct sunshine. CONCLUSIONS: The survival of S. japonicum eggs in goat feces is associated with environmental temperature and water content (humidity) in goat feces, and the temperature and humidity are major natural factors affecting egg hatching.

[Role of goat in transmission of schistosomiasis japonica III Environmental contamination by goat feces and prediction of environments at high risk of S. japonicum infection].

OBJECTIVE: To quantitatively estimate the range and area of environmental contamination by the feces of Schistosoma japonicum-infected that were freely grazed, so as to provide the theoretical evidence for the scientific assessment of the role of the freely grazed goat in the transmission of schistosomiasis japonica and development of control strategy. METHODS: All the fecal samples excreted by the infected goat at daytime (12 h) were collected by using a self-made goat fecal collector, weighed and counted. The quantity and dispersal of the feces excreted by the freely grazed goat at daytime under a natural condition were investigated, and the walking route and speed of the freely grazed goat at daytime were recorded with a multifunction GPS data logger. The maximum range and area of the environment contaminated by the feces of the freely grazed goat at daytime were estimated, and the maximum range and area of the Oncomelania hupensis snails that may be infected by the schistosome miracidium released from the eggs in the fecal samples of the freely graze goat at daytime were calculated. RESULTS: During the walking along the marshland at daytime (12 h), the quantity of the feces execrated by the freely grazed infected goat was (232.8 ± 39.8) g per goat, and the fecal samples were composed of (819.2 ± 152.1) pellets. The goat had a mean walking speed of (0.522 7 ± 0.099 7) km/h, and the longest distance, largest radius and largest range of walking activity were (6.272 4 ± 1.195 8) km, 3.136 2 km and (3 191.113 0 ± 1 189.709 4) hm2 at daytime, respectively. The area of the snails that may be infected by the miracidium released from the eggs in the fecal samples of the freely graze goat (range of key regions for infected snails detection and control) at daytime was estimated to be (3 210.717 5 ± 1 190.907 3) hm2. CONCLUSIONS: The intensity of environmental contamination by the eggs in the fecal samples of the freely grazed goat is linked to the number of infected goat. The contamination range caused by the feces of the freely grazed goat with fixed fences is relatively stably kept within the walking range at day-time, and the range and area of goat fecal contamination is associated with the number of households that breed goat and the distribution of goat fence. The area of the snails that may be infected by the miracidium released from the eggs in the fecal samples of the freely graze goat is larger than the area of setting contaminated by the eggs in the goat feces, indicating that the range of infected snail examination and control is larger than the range of goat feces detected.

[Role of goat in transmission of schistosomiasis japonica III Development of goat feces collector and optimization of fecal hatching technique].

OBJECTIVE: To develop a simple, feasible goat feces collector to improve the collection accuracy and integrity of goat fecal samples without pollution, and to modify the miracidium hatching test with a plastic tube to achieve simple, standard and comparative procedures, so as to provide technical support for pathogenic diagnosis and scientific research of goat schistosomiasis japonica. METHODS: According to the body features of goat in marshland regions, a goat fecal collector, which was made of coarse fabric cottons, was devised, which was able to be fixed onto the goat buttocks and avoid urine pollution. Prior to miracidium hatching test, the goat fecal samples were pieced by using a mechanical method instead of the conventional artificial piecing method, and the effect of mechanical piecing treatment on miracidium hatching was evaluated. A filter membrane was added between the tube and rubbery ring to block the floater in fecal residues into the tube. The effects on miracidium hatching by using thin fat-free cotton, thick fat-free cotton, nylon gauze at 100 pores/25.4 mm2 and 150 pores/25.4 mm2 were compared. RESULTS: The goat feces collector was composed of foreleg fixing garment, hindleg fixing garment and stool bag. The functions of the fixing garment were as a fixed collector to allow non-shift and tolerance of weight during goat activity, while the major function of stool bag was in storage of stool. The goat activity did not affect by the use of collector, and all fecal samples were excreted to the bag. This collector was easy to perform and could avoid urine pollution, which was reusable after cleaning. Prior to miracidium hatching, the goat fecal samples, together with water, were pieced at 18000 to 23000 r/min for successive three times in a cooking machine, of 10 s each time at an interval of 5 s. Mechanical piecing had no clear-cut effect on miracidium hatching of eggs in fecal samples. A total of 541, 620, 344 and 211 miracidia were detected by using the miracidium hatching test with nylon gauze at 100 pores/25.4 mm2 and 150 pores/25.4 mm2, thin fat-free cotton and thick fat-free cotton respectively, indicating a better detection efficacy by using nylon gauze at 100 pores/25.4 mm2 and 150 pores/25.4 mm2. CONCLUSIONS: The goat fecal collector is a easy-to-perform, accurate, unpolluted and reusable device to collect goat feces, which is suitable for pathogenic diagnosis of goat schistosomiasis. Mechanical piecing and use of nylon gauze at 150 pores/25.4 mm2 allow a simple, accurate and stable technique for parasitological diagnosis of schistosomiasis japonica, which provides a reliable tool for schistosomiasis control and research.

[Role of goat in transmission of schistosomiasis japonica â £ Schistosome development in goat and egg count and distribution in goat feces].

OBJECTIVE: To describe the growth and development of Schistosoma japonicum in goat and the intensity and temporal distribution of eggs excreted by goat feces, so as to provide baseline data for the control and elimination of the role of goat in the transmission of schistosomiasis. METHODS: The goat animal models of schistosomiasis were established, and stool samples were collected for parasitological examinations. The number of adult worms recovered, variation of schistosomes in goat at different time points post-infection, number of eggs in schistosomes, variation in number and temporal profiles of eggs excreted from goat feces were observed. RESULTS: Of the 6 schistosome-infected goat, 415 adult worms were recovered, with a mean adult worm recovery of 34.58% (range, 23.00% to 45.50%). Among the 5 goat infected with 200 cercariae each, 47, 93, 77, 74 and 73 adult worms were recovered 2, 5, 8, 11 and 14 months post-infection, respectively. There were (200.00±42.33), (226.20±45.88), (168.20±25.85), (183.80±55.13) and (190.80±53.53) eggs detected in female schistosomes. The mean prepatent period of eggs excreted by 10 infected goat was (37.7±3.02) d. From 2 to 14 months post-infection, 7 batches of goat feces were hatched, and there were 30, 23, 14, 1 and 2 times for miracidium intensity of "++++", "+++", "++", "+" and "-", respectively, with 42.86%, 32.86%, 20.00%, 1.43% and 2.86% constituent ratios of miracidium intensity. CONCLUSIONS: Approximately 1/3 S. japonicum cercariae may develop to adults in goats post-infection, and the prepatent period of eggs is (37.7±3.02) d. There is no remarkable decrease seen in the number of adult worms, eggs in female schistosomes and eggs in goat feces within 14 months post-infection. Our findings suggest a long duration for infected goat in the transmission of schistosomiasis, and there is no evidence to prove the "self-cure" phenomenon in goat, indicating that goat is an important source of infection for schistosomiasis japonica.

[Studies on spray of niclosamide ethanolamine salt. I. development and effect assessment of spray of niclosamide ethanolamine salt].

OBJECTIVE: To develop a spray of niclosamide ethanolamine salt for prevention of bovine from Schistosoma japonicum infection, and explore its characteristics and effect. METHODS: The solubilizers, penetrating agents, emulsifiers were screened, and the spray of niclosamide ethanolamine salt was formulated according to the screening results. The niclosamide ethanolamine salt was determined by using a HPLC technique, and the stability was observed. The preventive effect of the spray was assessed by in-vitro trials against cercariae and protection trials in mice. RESULTS: The screened formulation was presented as following: 1% niclosamide ethanolamine salt was dissolved in 18% dimethyl sulfoxide, and then added with 1% azone and 2% span, together with 78% ethanol, to yield a 1% spray of niclosamide ethanolamine salt. The spray appeared golden flowing liquid, with 1% niclosamide ethanolamine salt in content (W/W), pH 7.4-7.8, and good thermal and cold stability. All cercariae died (100%) while exposed to the spray at a concentration of 1.00 mg/L for 2 min, and the similar effect was achieved while exposed to 0.50 mg/L of the spray for 5 min or 0.10 mg/L for 30 min. The spray at concentrations less than 0.05 mg/L had no evident toxicity to cercariae. A volume of 0.5 ml of the 1% spray was sprayed on the abdomen of mice, 1-3 d later, the mice were infected with S. japonicum cercariae on the spraying sites, no mice were infected, with a protection rate of 100%. Five days post-spraying, the protection rate was 40%, and the worm burden reduction rate was 65.87%. Ten days later, all the mice were infected, however, the worm burden reduction rate was 51.98%. The worm burdens on days 5 or 10 post-spraying were significantly lower than those of the control (P < 0.01). The spray exhibited a good preventive efficacy to mice from S. japonicum infection in lab. CONCLUSIONS: The spray of niclosamide ethanolamine salt has stable physical and chemical property, and is a novel liquid preventive agent against bovine schistosomiasis. In addition, it has a rapid activity against S. japonicum cercariae, so can prevent bovine from S. japonicum infection.

[Study on schistosomiasis control measures in mobile boat fishermen. III. Construction and application of regional joint mechanism for schistosomiasis examination and treatment in boatmen].

OBJECTIVE: To construct the regional joint mechanism for schistosomiasis examination and treatment and the examination protocol among mobile boatmen, so as to provide effective measures for control of mobile infectious sources of schistosomiasis in the Yangtze River basin. METHODS: According to the characteristics of the cargo frequent mobility of ships with fixed anchor points, the health, maritime and transport sections were jointly cooperated to set up sites for schistosomiasis examination and treatment in ship locks, wharfs and harbors. The infection of schistosomiasis was detected by means of rapid immunological screening and stool examination, and the regional joint mechanism was constructed. The sero-positives were traced for further parasitological examinations and treatment by using the regional joint network for schistosomiasis examination and treatment. The schistosome infections in boatmen were analyzed and compared between different examination and treatment sites and among different navigation coverage. RESULTS: A total of 16 sites for examination and treatment of schistosomiasis, including 5 fixed sites and 11 mobile sites, were set up in 12 townships of 6 districts (counties) of Yangzhou City. During a period between June and August, the examination of schistosomiasis was conducted in 40 sites, and of the 1 225 boatmen from 967 boats detected, 19 cases were sero-positive, with a positive rate of 1.55%. Among the 14 sero-positives examined, no stool positive patients were found. Among the 1 225 boatmen detected, 820 were from fixed sites and 405 from mobile sites, and 4 and 15 cases were found, respectively, with positive rates of 0.49% and 3.70%, respectively, and the sero-positive rate was higher in mobile sites and that in fixed sites. A total of 898 boatmen from the Yangtze River basin and 305 from the local inland rivers were examined, and 3 and 16 sero-positive cases were detected, respectively, with positive rates of 0.33% and 5.25%, respectively, and the sero-positive rate was significantly higher in the boatmen from the local inland rivers than that from the Yangtze River basin. CONCLUSION: Regional joint mechanism is an effective strategy for examination and treatment of schistosomiasis among mobile boatmen, which provides a new approach to control mobile infectious sources of schistosomiasis in the Yangtze River basin.