Faecal Worm Research Articles

Observations on worm population dynamics in calves naturally infected with Schistosoma mattheei.

The evolution of faecal egg output, worm burdens and tissue egg counts in young calves was monitored during the first year of natural exposure to Schistosoma mattheei infection on a Zambian farm. According to the duration of their stay on the farm, these calves were classified into 2 groups of 14 temporary tracers (TT calves) which were introduced on a 2-monthly basis for residential periods of 2 months, and 12 permanent tracers (PT calves) introduced either at the beginning of the experiment (Group A) or 2 months later (Group B) and gradually removed after residential periods of 2, 4, 6, 8, 10 and 12 months on the farm. Worm counts in the TT calves showed that infection occurred throughout the year on the farm and that levels of infection acquired during each period of 8 weeks correlated well with the respective infected snail densities observed at the main transmission site. Marked differences in worm population dynamics were recorded between the 2 groups of PT calves. In Group B animals which apparently were initially exposed to heavy transmission, according to the results from TT calves, much higher worm counts and greater susceptibility to reinfection were observed than in Group A animals initially exposed to lighter exposure. These results suggest that the development of resistance to natural infection with S. mattheei may depend on the initial exposure to the parasite. Low initial exposures may lead to resistance whereas high initial exposures may result in decreased immune responses resulting in susceptibility to infection.

Nematode burdens and productivity of grazing cattle treated with a prototype sustained-release bolus containing ivermectin

One hundred and twenty four-month-old Hereford-Friesian cross heifers weighing from 88 to 130 kg were divided into two equal groups. One group acted as a control with each animal receiving one placebo bolus, the other animals received one prototype intraruminal sustained-release bolus designed to deliver approximately 8 mg ivermectin/day for 100 to 120 days. The boluses were administered the day before turnout in mid-May. Each group was grazed separately for 167 days on pastures contaminated with parasitic nematode larvae including the lungworm Dictyocaulus viviparus, and the gastrointestinal worms Ostertagia ostertagi, Cooperia oncophora and Nematodirus helvetianus. Parasitic disease did not occur in the ivermectin-bolus group, but the control group required anthelmintic treatment to control parasitic gastroenteritis at 111 and 154 days after turnout. Up to the 111th day after turnout, the peak mean nematode egg and larval counts per gram of faeces in controls was, respectively, 564 epg and 0.5 lpg. Based on faecal nematode egg counts and worm burdens in bolus-treated cattle removed from pasture at 119 days after turnout and bolus function studies, it was concluded that ivermectin delivery from the prototype bolus ceased between 95 and 98 days after administration. However, unlike the controls, the treated cattle did not develop parasitic gastroenteritis at any time. Their faecal nematode egg output was significantly (P < 0.01) lower (< 1 epg) compared to the controls and lungworm larval output zero during the functional life of the bolus. The faecal egg and larval outputs continued low until the end of the trial.(ABSTRACT TRUNCATED AT 250 WORDS)

Immunological relationships during primary infection withHeligmosomoides polygyrus(Nematospiroides dubius): H-2 linked genes determine worm survival

The course of primary infection was studied in BALB and B10 H-2 congenic mouse strains. The duration of infection, as assessed with regular faecal egg counts and worm burdens, was shorter in mice carrying the H-2s, H-2d or H-2q haplotypes when compared to mice with H-2b. Strains with H-2k were intermediate. An experiment was carried out to test the hypothesis proposed by Wassom, Krco & David (1987) predicting that the progeny of I-E+ve mouse strains crossed with I-E-ve strains, would show susceptibility rather than resistance to infection. This hypothesis was not substantiated by our data and we conclude that it does not apply to primary infections with Heligmosomoides polygyrus. It is proposed that the gene products of at least two loci within the H-2 (associated with the H-2b and H-2k haplotypes) are crucial in determining the response phenotype of mice to primary infection with H. polygyrus. One allele, (associated with the H-2b haplotype) may be preferentially affected by parasite-mediated immunosuppression.

Effect of dexamethasone on the ability of sheep to resist reinfection with nematodes

Abstract Five groups of wethers were placed on pasture known to be infected with nematode larvae. Groups I to IV were reared on pasture, and group V was drawn from pen-reared, ‘worm-free’ stock. Groups III and IV and tracers (group V) were drenched at the beginning of the experiment, but groups I and II were not. From day 0, when placed on the infected pasture, groups II and IV were treated twice weekly with dexamethasone trimethylacetate. Faecal egg counts and blood lymphocyte counts were recorded throughout the experiment. On day 56, five animals from each group were slaughtered and their worm burdens counted. Faecal egg counts and worm burdens of dexamethasone-treated sheep were much higher than the respective controls; the tracer animal counts were intermediate. Lymphocyte counts of groups II and IV were significantly lowen than for group I by day 50. Some animals were vaccinated with killed Salmonella typhimurium on day 21; these animals produced antibodies despite treatment with dexamethasone. Titres were, however, lower than for non-dexamethasone-treated animals.

The Activity of a Benzothiopyranoindazole (IA-4 N-Oxide) against Schistosoma Mansoni Infection in Rhesus Monkeys

The prophylactic and therapeutic efficacies of IA-4 N-oxide against Schistosoma mansoni in rhesus monkeys (Macaca mulatta) have been evaluated. Ten monkeys were divided into 5 groups of 2 monkeys each. All monkeys were exposed to S. mansoni cercariae on day 0 and treatment groups were established as follows: untreated controls, oral prophylactic administration, intramuscular prophylactic administration, oral therapeutic administration, and intramuscular therapeutic administration. Analysis of parasitologic and pathologic criteria indicate that the compound is most effective when administered as a therapeutic regimen. Complete cures were effected in these monkeys. Prophylactic treatments resulted in a delay in onset of patency and reductions in fecal egg excretion, worm burdens, and tissue damage.

Immunisation of baboons against Schistosoma mansoni using irradiated S. mansoni cercariae and schistosomula and non-irradiated S. rodhaini cercariae.

In an attempt to develop a non-pathogenic procedure for immunising baboons against S. mansoni, groups of five baboons were exposed to three doses of 5000 6 Kr-irradiated S. mansoni cercariae or to similar numbers of normal S. rodhaini cercariae and challenged at week 15 with 500 normal S. mansoni cercariae. Faecal egg counts, worm and tissue egg counts, and histopathological examination, showed that neither of the immunising schedules had produced significant protection. In the second experiment baboons were injected by the intramuscular route with 31000 schistosomula of S. mansoni in three doses and the irradiation dose was reduced to near the minimum required for worm sterilisation (2-1--2-4 Kr). Challenge with 3500 normal cercariae of S. mansoni 21 weeks after the first immunising dose again showed no significant protection, although reductions of 20--30% were found in egg and worm counts resulting from the challenge. These results indicate that it may be difficult to develop an effective live vaccine for S. mansoni unless the antigenicity of the immunising larvae can be greatly increased.

Within-flock variations in strongyle worm infections in sheep: the need for adequate diagnostic samples.

Abstract Extract The results of several recent studies have emphasized the pitfalls inherent in the use of faecal worm-egg counts for the quantitative diagnosis of strongyle worm infections in ruminants (Kingsbury, 1965; Gibson, 1965; Gordon, 1967; Rubin, 1967; Michel, 1968). However, in these studies, most consideration has been given to the various factors which affect the accuracy per se of the individual egg count. In the case of strongyle infections in sheep, little attention has been given to the within-flock variationsin level and relative generic cornposition of worm burdens which affect the interpretation and diagnostic validity of both faecal egg counts and worm counts, on a flock basis. While it is sometimes necessary to diagnose the presence or degree of parasitic infection in an individual animal, the flockis usually the unit concerned.