A study was undertaken in order to evaluate and compare plasma disposition kinetic parameters of moxidectin and ivermectin after oral administration of their commercially available preparations in horses. Ten clinically healthy adult horses, weighing 390-446 kg body weight (b.w.), were allocated to two experimental groups of five horses. Group I was treated with an oral gel formulation of moxidectin (MXD) at the manufacturers recommended therapeutic dose of 0.4 mg/kg bw. Group II was treated with an oral paste formulation of ivermectin (IVM) at the manufacturers recommended dose of 0.2 mg/kg b.w. Blood samples were collected by jugular puncture at different times between 0.5 h and 75 days post-treatment. After plasma extraction and derivatization, samples were analysed by HPLC with fluorescence detection. Computerized kinetic analysis was carried out. The parent molecules were detected in plasma between 30 min and either 30 (IVM) or 75 (MXD) days post-treatment. Both drugs showed similar patterns of absorption and no significant difference was found for the time corresponding to peak plasma concentrations or for absorption half-life. Peak plasma concentrations (Cmax) of 70.3+/-10.7 ng/mL (mean +/- SD) were obtained for MXD and 44.0+/-23.1 ng/mL for IVM. Moreover, the values for area under concentration-time curve (AUC) were 363.6+/-66.0 ng x d/mL for the MXD treated group, and 132.7+/-47.3 ng x d/mL for the IVM treated group. The mean plasma residence times (MRT) were 18.4+/-4.4 and 4.8+/-0.6 days for MXD and IVM treated groups, respectively. The results showed a more prolonged residence of MXD in horses as demonstrated by a four-fold longer MRT than for IVM. The longer residence and the higher concentrations found for MXD in comparison to IVM could possibly explain a more prolonged anthelmintic effect. It is concluded that in horses the commercial preparation of MXD presents a pharmacokinetic profile which differs significantly from that found for a commercial preparation of IVM. To some extent these results likely reflect differences in formulation and doses.
Environmental stress may favour facilitative interactions among plants but whether these interactions are positive for the benefactor and how this depends on stress factors, remains to be determined. We studied the effect of beneficiary cover and biomass on reproduction of the benefactor cushion plant Laretia acaulis (Apiaceae) in the central Chilean Andes during three years. Study sites were situated along an elevational gradient at 2600, 2800, 3000 and 3150 m a.s.l. This range comprises a cold-and a drought-stress gradient, with moisture increasing and temperature decreasing with elevation. We studied the effect of natural gradients in beneficiary cover and of experimental cover removal on cushion flower and fruit production. Beneficiary cover had a negative effect on flower production but not on infructescence and fruit densities or fruit weights. A positive effect of beneficiaries on the fraction of flowers converted into fruits was detected for hermaphrodite cushions. The effect of beneficiary cover on flowering was independent of elevation or cushion gender, although these latter factors explained most of the variation. Removing the aboveground parts of the beneficiaries positively affected flowering at 2800 m a.s.l. but not at the other elevations. Our results suggest negative effects of facilitation on L. acaulis flowering, but these are neutralized in fruit production. Surprisingly, this conclusion holds along the entire elevational or stress gradient. This suggests that this system of facilitation is evolutionarily stable and not very sensitive to environmental change. It remains to be tested, however, whether facilitation affects fitness via growth and long-term survival in these slow-growing alpine cushions.
Five Chilean crossbred draught horses were used to study variation in work performance and biochemical and physiological parameters whilst working with a mould board plough (36 kg) for 6 h/day. The draught force, distance travelled, work done and the estimated extra energy for work were determined for each horse. The results showed that the horses used only 68-0 (s.e. 1-9)% of the total available working time ploughing a mean area of 3283 (s.e. 168) m 2 with a mean depth and width of furrow of 12-6 and 22-3 cm, respectively. Estimated daily energy expenditure by the horses during work was 2-24 (s.e. 0-02) times maintenance requirements. The small changes observed in the physiological variables: heart rate, respiratory rate, packed cell volume, haemoglobin concentration and enzyme activity of creatine kinase, lactate dehydrogenase and aspartate amino transferase, showed that the horses were exercised under submaximal conditions. However, the significant increase in blood cortisol concentrations showed that horses experienced some degree of stress during ploughing work. The significant increase in blood triglycerides concentration observed after each period of work seems to demonstrate that fat mobilization is an important metabolic pathway as an energy supply for the working muscles during prolonged and low speed draught work.
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