Mentha villosa Hubs., M. x piperita and their bioactives against gastrointestinal nematodes of ruminants and the potential as drug enhancers.

Parasitic diseases caused by gastrointestinal nematodes (GIN) are responsible for a major impact on ruminant welfare. Although the available anthelmintics have a safe margin of toxicity to the animals, their indiscriminate use has increased the selection of resistant parasite populations. In this scenario, essential oils (EO) stand out as a promising ecofriendly therapeutic alternative against GIN. The objective of this work was to determine the effect of the EO of Mentha villosa Hubs (MVEO) collected in 2017 and 2018, M. x piperita (MPEO) and their main components, carvone and limonene, against the third stage larvae (L3) of Haemonchus spp. and Trichostrongylus spp. The solutions, including in nanoemulsion preparations, were tested in a range of concentrations using the larval migration inhibition test (LMIT). The EO and carvone were also tested in combination with nitroxynil (NTX) to determine their effect as drug enhancers (additive or synergy). MVEO/2017, MVEO/2018, MPEO and carvone showed 70.6 (73.4 mg/mL), 86.3 (74.9 mL/mL), 95.5 (143.6 mg/mL), and 88.2 % (38.3 mg/mL) efficacy against L3, respectively. Carvone alone had approximately a 3-fold higher efficacy when compared to its concentration in each EO: 68.8 % in MVEO/2017 and 83.9 % in MVEO/2018. Limonene did not show any significant effect on inhibiting L3 migration. The combination of MPEO and NTX, and carvone and NTX showed a statistically significantly (P <  0.05) synergic and additive effect, respectively, when compared to the isolated treatment. The nanoemulsion of MVEO/2017 at 0.367 mg/mL, inhibited L3 migration by 83.1 %, demonstrating to be highly effective (concentration ratio of 1:0.004), when compared to the MVEO/2017 (70.6 % at 73.4 mg/mL) extraction. The in vitro data from the combination of MPEO or carvone plus NTX suggest that these products can be considered for in vivo experiments against the most important GIN of ruminants as drug enhancers, possibly reducing the final concentration of NTX`. The efficacy of carvone was higher (EC50 = 1.96 mg/mL) than its expected efficacy, based on its concentrations on both EO. Therefore, this component does not need the entire EO composition to exert its L3 motility action. The remarkable efficacy demonstrated by the MVEO/2017/nanoemulsion (EC50 = 0.10 mg/mL), supports its potential to be a candidate to the next-generation therapy to alleviate clinical parasite infections and combat GIN resistant populations.

Efficacy of an injectable combination anthelmintic (nitroxynil+clorsulon+ivermectin) against early immature Fasciola hepatica compared to triclabendazole combination flukicides given orally or topically to cattle.

The objective was to compare the efficacy against artificially induced 2- and 4-week old early immature triclabendazole-susceptible liver flukes (Fasciola hepatica) of an injectable combination of nitroxynil, clorsulon and ivermectin with oral and pour-on combination formulations containing triclabendazole. Groups of yearling Angus or Angus cross cattle were confirmed fluke free before being artificially infected with 500 Sunny Corner strain triclabendazole-susceptible liver fluke metacercariae. Two or four weeks after infection, cattle were treated with the test combination Nitromec (10.2mg/kg nitroxynil, 2.0mg/kg clorsulon, 0.2mg/kg ivermectin), or oral Flukazole C+Se (triclabendazole/oxfendazole/Selenium), oral Fasimec C (triclabendazole/ivermectin) or Genesis Ultra Pour-On (triclabendazole/abamectin). At intervals cattle were weighed, faecal sampled for liver fluke egg counts and blood sampled for liver serum enzyme analysis. Cattle were slaughtered 14 weeks after infection for recovery of adult flukes; fluke egg counts and liver pathology assessment. All cattle increased in body weight by 0.4-0.8kg/day but there were no significant differences between control and treated groups or between the treatment groups. Geometric mean 14-week fluke egg counts and total fluke counts for all treatments, were significantly less (p<0.05) than the control group, except for the group treated with Genesis Ultra Pour-On, 2 weeks after infection. Nitromec treatment of 2-week old flukes was 83% and 95% effective as assessed by 14-week egg and fluke counts, respectively, compared to Flukazole C; 96% and 99%, Fasimec C; 70% and 46%, and Genesis Pour-On, which was ineffective, with egg and fluke count reductions of 0% and 8%, respectively. Against 4-week old flukes, Nitromec treatment was 88% and 99% effective when assessed by 14-week egg and fluke counts, respectively, with Flukazole C; 98% and 99%, Genesis Pour-On; 98% and 82% and Fasimec C; 91% and 61% effective, respectively. Group mean levels of the bile duct-associated enzyme gamma glutamyl transpeptidase (GGT) and the parenchymal associated enzymes, aspartate amino-transferase (AST) and glutamate dehydrogenase (GLDH) increased above the normal range 8 and 11 weeks after infection in the untreated control animals and the group treated 2 weeks after infection with Genesis Pour-On. The groups treated with Fasimec at 2 or 4 weeks after infection, also had elevated enzyme levels. The use of liver-associated enzyme assay is supported as supplementary indicators of fluke-induced pathology.