An epidemiological study was carried out on farms in Galicia (NW Spain) to investigate the prevalence of and the risk factors associated with the spread of infection by Cryptosporidium parvum in calves of less than 3 weeks of age. A total of 22 cattle farms (10 beef herds and 12 dairy herds) were visited once every 21 days between January and December 2000. A faecal sample was collected directly from the rectum of each of the 844 calves born during the study period. Each sample was studied macroscopically to establish its consistency as liquid, soft or solid, and the presence of mucus or blood noted. C. parvum oocysts were identified by direct microscopic examination and the intensity of infection established semiquantitatively as slight, moderate or severe. Of the 844 calves, 404 were found to have the parasite in their faeces, i.e. the prevalence was 47.9%. Statistical analysis of the risk factors such as general characteristics of the farm and the housing conditions of the calves, revealed three variables that significantly effect the risk of cryptosporidial infection in suckling calves: the method of cleaning, the type of flooring and the frequency of cleaning.
Aim: To determine whether batch solar disinfection (SODIS) can be used to inactivate oocysts of Cryptosporidium parvum and cysts of Giardia muris in experimentally contaminated water. Methods and Results: Suspensions of oocysts and cysts were exposed to simulated global solar irradiation of 830 W m−2 for different exposure times at a constant temperature of 40°C. Infectivity tests were carried out using CD‐1 suckling mice in the Cryptosporidium experiments and newly weaned CD‐1 mice in the Giardia experiments. Exposure times of ≥10 h (total optical dose c. 30 kJ) rendered C. parvum oocysts noninfective. Giardia muris cysts were rendered completely noninfective within 4 h (total optical dose >12 kJ). Scanning electron microscopy and viability (4′,6‐diamidino‐2‐phenylindole/propidium iodide fluorogenic dyes and excystation) studies on oocysts of C. parvum suggest that inactivation is caused by damage to the oocyst wall. Conclusions: Results show that cysts of G. muris and oocysts of C. parvum are rendered completely noninfective after batch SODIS exposures of 4 and 10 h (respectively) and is also likely to be effective against waterborne cysts of Giardia lamblia. Significance and Impact of the Study: These results demonstrate that SODIS is an appropriate household water treatment technology for use as an emergency intervention in aftermath of natural or man‐made disasters against not only bacterial but also protozoan pathogens.
During the kidding season between January and April 2003, 10 farms were selected and divided into two groups of five. The farms in group A had had serious diarrhoeal illness and losses in neonatal kids the previous year, and there were Cryptosporidium parvum infections in kids associated with diarrhoea during the survey. On the farms in group B, there was no history of diarrhoeal disease the previous year and neither C parvum oocysts nor diarrhoea were detected in neonatal kids during the survey. Faecal samples were collected once from 10 adult goats aged between one and seven years on each farm. To assess more accurately the pattern of output of oocysts of C parvum and cysts of Giardia duodenalis by periparturient adult goats, one farm was selected from each group, faecal samples were collected weekly before and after kidding from 12 goats on the farm in group A and from 10 goats on the farm in group B. There was no significant difference in the prevalence of G duodenalis cysts between the group A farms (14 per cent) and the group B farms (12 per cent), and the numbers of cysts excreted ranged from 143 to 400 cysts per gram of faeces (cpg) on the group A farms and 72 to 334 cpg on the group B farms. There was a significant difference (P=0.03) in the prevalence of C parvum oocysts at the group level between the group A farms (20 per cent) and the group B farms (6 per cent). All the adult goats excreted cysts and oocysts at some date around the kidding period; the number of animals excreting cysts of G duodenalis or oocysts of C parvum increased when they gave birth, and seven to 10 times more cysts and oocysts were shed in the three weeks around kidding than in the period more than three weeks from kidding (P<0.001).
Paramphistomosis and Fasciolosis caused by Calicophoron daubneyi and Fasciola hepatica, respectively, are frequent and important trematodoses in ruminant livestock worldwide. Both parasites use the same snail, Galba truncatula, as intermediate host. The aim of this study was to develop and validate an analytical method based on a mitochondrial DNA (mtDNA) multiplex PCR technique which would allow the early and specific identification, in one step, of C. daubneyi and F. hepatica infection in G. truncatula. First of all, a 1035 bp fragment of mtDNA from adult C. daubneyi worms was obtained. Then two pairs of specific mtDNA primers, which amplified a DNA fragment of 885 pb in the case of C. daubneyi, and of 425 pb in that of F. hepatica, were designed. By means of the multiplex PCR technique developed, there was always a specific amplification in samples from adult F. hepatica and C. daubneyi, but not from Calicophoron calicophorum, Cotylophoron cotylophorum, Cotylophoron batycotyle or Dicrocoelium dendriticum. Likewise, specific amplifications of the expected DNA fragments happened in all samples from snails harbouring larval stages of C. daubneyi or F. hepatica, previously detected by microscopy. However, amplifications were not seen when DNA from snails harbouring other Digenea (Plagiorchiidae, Notocotylidae and furcocercous cercariae) was analysed. Moreover, DNA from G. truncatula molluscs free from infection was not amplified. The multiplex PCR assay permitted infection in the snails experimentally infected with 4 miracidia to be detected as early as day 1 p.i. in the case of F. hepatica and with only 2 miracidia from day 2 p.i. in both, C. daubneyi and F. hepatica. Nevertheless it was necessary to wait until days 29 and 33 p.i. to see C. daubneyi and F. hepatica immature redia, respectively, using microscope techniques. The detection limit of the PCR technique was very low: 0.1 ng of DNA from C. daubneyi and 0.001 ng of DNA from F. hepatica. This allowed infection by either F. hepatica or C. daubneyi to be detected even when pools made up with only 1 μl (60 ng of DNA) from infected snail plus 99 μl from non-infected ones were analyzed. Moreover, simultaneous detection of both parasites was experimentally possible in pools made up with uninfected (98 μl), C. daubneyi infected (1 μl) and F. hepatica infected (1 μl) snails. The most precise and early diagnosis of the infections using the multiplex PCR technique designed will allow more realistic epidemiological models of both infections to be established and consequently a better strategic control.
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