gastrointestinal parasites, horses, anthelmintic efficacy of ivermectin, adverse local or systemic reactions not observed

A study for about a 30-month period was done to compare strongyle control programs, using per os treatments of ivermectin (IVE) paste exclusively or alternation of 4 antiparasitic paste compounds: IVE, oxfendazole (OFZ), oxibendazole (OBZ), or pyrantel pamoate (PRT). Every 8 weeks, 1 group of horses (barn C; n = 14 to 16) was given IVE paste exclusively, and a second group (barn E; n = 16) was given the 4 antiparasitic pastes on an alternating schedule. Worm eggs and larvae per gram of feces (epg and lpg, respectively) values were determined every 2 weeks during the investigation. This study in grazing horses (mares and fillies), naturally infected with internal parasites, was conducted during the period between Oct 22, 1987 and Feb 8, 1990, with an additional observation on Mar 28, 1990. For barn-C horses, treated exclusively with IVE (200 micrograms/kg of body weight) 14 times, 2-week posttreatment mean strongyle epg and lpg (small strongyle) values were reduced 99 to 100%. Mean strongyle epg and lpg (small strongyle) values for each 2-week sample period remained low (< 20) throughout the study period, except for 1 moderate transient increase in July 1988. For the entire study period, the aggregate mean strongyle epg value was 12 and the lpg value was 6. Two-week posttreatment mean strongyle epg and lpg (small strongyle) values for barn-E horses, treated alternately with therapeutic (approx) dosage of IVE (200 micrograms/kg, 4 times), OFZ (10 mg/kg; 5 times), OBZ (10 mg/kg; 4 times), or PRT (6.6 mg base/kg; 2 times), varied within and between compounds. Posttreatment (2-week) mean epg values were reduced 100% by IVE, 0 to 100% by OFZ, 74 to 100% by OBZ, and 92 to 100% by PRT. Mean small strongyle lpg values at 2 weeks after treatment indicated reduction of: 100% for IVE, 0 to 76% for OFZ, 43 to 100% for OBZ, and 97 to 100% for PRT. For the entire study period, the aggregate mean strongyle epg value was 54 and the lpg value was 64. The epg and lpg reduction values for the 2 benzimidazoles indicated an increase in the benzimidazole-resistant segment of small strongyles. Fecal cultures for horses in both groups contained larvae of large strongyles (Strongylus vulgaris and S edentatus) only at the time of initial treatment. Treatment program evaluations included necropsy of 9 foals (56 to 203 days old), 7 born to barn-C mares and 2 born to barn-E mares. Generally, low numbers of bots (Gasterophilus intestinalis) and Habronema muscae were found in foals of both groups. Intestinal stages of immature and mature ascarids (Parascaris equorum) were also found in foals born to both groups of mares. Mature pinworms (Oxyuris equi) were found in 1 barn-C foal. Only barn-E foals had Strongyloides westeri. Small strongyles were detected in foals of both groups, up to several thousand in some. The latter finding indicates, in particular, that although barn-C mares had low small strongyle epg and lpg values throughout the study, eggs and larvae built up on pasture in sufficiently high numbers for major transmission to foals born there. Small strongyles in foals were composed of 3 genera and 10 species for barn-C foals and of 3 genera and 8 species for barn-E foals. Seasonal transmission of parasites also was observed.

Antiparasitic efficacy of ivermectin against migrating Gasterophilus intestinalis was evaluated in 36 treated and 24 nontreated (n = 12) or vehicle-treated (n = 12) ponies experimentally and naturally infected with G intestinalis and naturally infected with G nasalis. Each pony was experimentally infected with 500 G intestinalis lst instars in 2 divided doses on days -14 and -7 before treatment. On day 0, ivermectin was administered at the rate of 200 microgram/kg of body weight by IV (n = 12) or IM injection (n = 12) or given as an oral paste (n = 12). Ponies were euthanatized and necropsied 21 days after treatment. In each nontreated or vehicle-treated pony, late lst-, lst- to 2nd-instar molt, and early 2nd-instars of G intestinalis were found in the mouth, and 2nd- and 3rd instars of G intestinalis and 3rd instars of G nasalis were found in the stomach. Bots were not found in any ivermectin-treated pony and, thus, ivermectin was 100% effective against oral and gastric stages. Adverse reactions were not observed in ponies given ivermectin by IM injection or orally, but 1 pony given the vehicle IV and 1 pony given ivermectin (in the vehicle) IV had an anaphylactic reaction, resulting in death of the ivermectin-treated pony. It was speculated that the adverse reaction was caused by histamines released in response to vehicle components given by IV injection.

Strongylus spp. and other parasites of equids (natural infections), controlled tests with fenbendazole in multiple doses at two dose levels