Plasma achiral and chiral pharmacokinetic behaviour of intravenous oxfendazole co-administered with piperonyl butoxide in sheep

Co-administration of piperonyl butoxide (PB) potentiates fenbendazole (FBZ) in small ruminants. The resultant increase in bioavailability of FBZ and its metabolite oxfendazole (OFZ) has important implications for the efficacy of these drugs against benzimidazole (BZD)-resistant strains of Teladorsagia circumcincta. This study evaluated the racemic (achiral) and enantiomeric (chiral) plasma disposition kinetics of OFZ and its metabolites after the co-administration of PB and OFZ in sheep. Six 6-8-month-old, parasite-free, female Dorset sheep (30-40 kg) were used in a two-phase crossover experiment. In phase I, three sheep received 30 mg/kg PB orally, followed by a single intravenous (i.v.) injection of OFZ at 5 mg/kg. The other three animals were treated similarly except that 5 mL of water replaced PB. In phase 2, treatments for the two groups were reversed and were given 14 days after the initiation of phase I. Three analytes OFZ, FBZ and fenbendazole sulphone (FBZSO(2)) were recovered in plasma up to 48 h post-treatment in both experimental groups. Achiral and chiral pharmacokinetic (PK) profiles for OFZ, after the co-administration of PB, were characterized by a significantly greater area under the concentration--time curve (AUC) and a longer mean residence time (MRT). Chiral OFZ distribution ratios were comparable in both treatment groups. Piperonyl butoxide treatment markedly influenced the plasma PK profiles for FBZ and FBZSO(2) following OFZ administration. Production of FBZ was enhanced as reflected by increased (> 60%) AUC, delayed T(max) and a significantly delayed (> 45%) elimination (t(1/2)(el)). Although AUC values for FBZSO(2) were not significantly different between groups, this metabolite was depleted more slowly from plasma (t(1/2)(el) > 60% and MRT > 42%) following PB treatment. This study demonstrated that PB co-administration is associated with an inhibition of OFZ biotransformation, as evidenced by the significantly higher plasma concentrations of OFZ and FBZ, and this could have important implications in terms of anti-parasite therapy against BZD-resistant parasite strains.     

Comparative plasma disposition kinetics of albendazole, fenbendazole, oxfendazole and their metabolites in adult sheep

The comparative plasma disposition kinetics of albendazole (ABZ), fenbendazole (FBZ) and oxfendazole (OFZ) following their oral administration (5 mg/kg) to adult sheep was characterized. Jugular blood samples were taken serially over a 144 h period and plasma was analysed by high performance liquid chromatography (HPLC) for ABZ, ABZ sulphoxide (ABZSO) and ABZ sulphone (ABZSO₂) (ABZ treatment), and for FBZ, OFZ and FBZ sulphone (FBZSO₂) (FBZ and OFZ treatments). While the ABZ parent drug was not detected at any time post-treatment, ABZSO and ABZSO₂ were the analytes recovered in plasma, after oral administration of ABZ to sheep. The active ABZSO metabolite was the main analyte recovered in plasma (between 0.25 and 60h post-treatment), accounting for 71 % of the total AUC. FBZ, OFZ and FBZSO₂ were the analytes detected in plasma following the oral administration of both FBZ and OFZ to sheep. Low concentrations of FBZ were found in plasma between 4 (FBZ treatment) or 8 h (OFZ treatment) and 72 h post-treatment. The plasma profile of each analyte followed a similar pattern after both treatments; OFZ being the main component detected in plasma. The plasma disposition of ABZ metabolites was markedly different to that of FBZ derivatives. ABZSO exhibited faster absorption and a higher C_max than OFZ (both treatments). Furthermore, while ABZSO declined relatively rapidly in plasma reaching non-detectable concentrations at 60 h post-ABZ administration, OFZ was found in plasma for up to 120 (FBZ treatment) and 144 h (OFZ treatment). The extended detection of OFZ in plasma in both treatments correlated with the prolonged t_1/2β (18 h) and mean residence time (MRT) (30–33 h) obtained for this metabolite compared to those of ABZSO (t_1/2β= (7.0 h); MRT= 12.5 h). These differences between the disposition of ABZ and FBZ metabolites may account for differences in their patterns of efficacy and tissue residues.     

Pharmacokinetic behaviour and anthelmintic efficacy of 1-n-butyl carbamoyl oxfendazole given by intramuscular injection

Oxfendazole (OFZ) was chemically modified to 1-n-butyl carbamoyl OFZ (C₄-OFZ) in an attempt to improve the solubility of OFZ and enable it to be administered by injection. After intramuscular injection to sheep and cattle, C₄-OFZ was metabolised to OFZ which resulted in higher plasma OFZ concentrations that persisted for a considerably longer period than those observed following administration of OFZ orally. The anthelmintic efficacy of injected C₄-OFZ was tested, in sheep, against strains ofTrichostrongylus colubriformis,Haemonchus contortus andOstertagia circumcincta, which were highly resistant to benzimidazoles. In all cases, the C₄-OFZ treatment showed a significant improvement in efficacy over the conventional oral OFZ drench.     

Effect of feed type on the pharmacokinetic disposition of oxfendazole in sheep

The plasma concentration profiles of oxfendazole (OFZ), fenbendazole (FBZ) and FBZ sulphone (FBZ.SO2) were measured followed intraruminal administration of OFZ at 5 mg kg-1 to Merino weaners fed either dry forage or grazed on pasture lucerne clover. Plasma concentrations of OFZ and FBZ were significantly lower in sheep given the dry forage.     

Pharmacokinetics of oxfendazole in red deer (Cervus elaphus)

The pharmacokinetics of oxfendazole (OFZ) in red deer (Cervus elaphus) was examined. OFZ, administered per os at 4.53 mg kg-1, was extracted in ether from plasma and identified and concentrations estimated by high pressure liquid chromatography. Irrespective of whether the animals were fed concentrates indoors as pellets or grass while on pasture, OFZ was absorbed rapidly. Concentrations of OFZ in plasma reached maxima within 20 hours (0.83 and 1.005 mg litre-1 respectively) and were undetectable 36 hours after administration. Fenbendazole was not detected at any time in the chromatograms. Metabolism of OFZ occurred rapidly producing the sulphone metabolite. In comparison with published data for OFZ in sheep, red deer appear to metabolise OFZ and excrete OFZ sulphone at much faster rates. Consequently, anthelmintic efficacy is likely to vary from species to species.     

Comparative kinetic disposition of oxfendazole in sheep and goats before and during infection with Haemonchus contortus and Trich ostrongylus colubriformis

The kinetic disposition of [¹⁴C]-oxfendaEole (OFZ) and its metabolites, fenben-dazole (FBZ) and fenbendazole sulphone (FBZ.SO₂), in plasma and abomasal fluid were determined in Merino sheep and Angora goats before and during infection with Trichostrongylus colubriformis and Haemonchus contortus. The systemic availability (area under the plasma curve, AUC) of OFZ was significantly lower in goats (13.5 μg.h/ml) than in sheep (22.2 μg.h/ml) and was reduced with infection in goats (5.6 μg.h/ml) and sheep (15.1 μg.h/ml). The elimination of plasma [^l4C] was faster in goats than in sheep. The responses observed for [¹⁴C] were a reflection of the behaviour of OFZ. The concentration of OFZ and metabolites in abomasal fluid were similar in both species in the absence or presence of infection. However, as the mean flow rate of abomasal fluid was slower in goats (240 ml/h) than in sheep (488 ml/h), only 7% of the dose passed the pylorus in abomasal fluid of goats compared with 14% in sheep. The presence of gastrointestinal nematodes generally increased abomasal fluid flow rate but neither species nor infection had any effect on the rate or extent of [¹⁴C] excretion in urine or faeces. It is suggested that goats possess a faster hepatic metabolism than sheep resulting in more rapid elimination of OFZ.     

A comparison of plasma metabolite levels in goats and sheep during continuous low-level administration of fenbendazole

Plasma levels of fenbendazole (FBZ) and its sulphoxide (OFZ) and sulphone (FBZ.SO₂) metabolites were measured in goats and sheep during low-level administration of FBZ given by intraruminal infusion or formulated into a urea-molasses feed supplement block (UMB). In experiment 1, 6 goats and 6 sheep were offered UMB containing 0.5 g FBZ/kg (MUMB) and individual block consumption was measured daily for 18 days. In experiment 2, some of the same animals (n=4 for each species) received FBZ by intraruminal infusion at 1, 1.5 and 3 mg/kg liveweight per day for 7 days at each dosage. FBZ, OFZ and FBZ.SO levels were determined in plasma collected every 3 days in experiment 1 and on days 4, 5 and²6 of each infusion period in experiment 2. In both experiments, higher equilibrium levels were observed for the three metabolites in sheep than in goats. Significant linear relationships were observed between the daily FBZ dosages and the plasma levels of the three metabolites in both species. The regression coefficients were significantly higher in sheep than in goats for FBZ and OFZ but not for FBZ.SO₂, and they were also significantly higher during MUMB administration than during infusion for all three metabolites in both species. FBZ is a suitable anthelmintic for incorporation into a MUMB formulation for use in livestock production systems where responses to molasses urea supplementation have been demonstrated and gastrointestinal parasitism impairs productivity. The results indicate that target dose rates for goats should be 0.75 mg/kg per day compared with 0.5 mg/kg per day for sheep.Abbreviations ANOVA analysis of variance - FBZ fenbendazole - FBZ.SO₂ fenbendazole sulphone - HPLC high-performance liquid chromatography - MUMB urea-molasses feed supplement block containing 0.5 g fenbendazole/kg - OFZ fenbendazole sulphoxide - UMB urea-molasses feed supplment block     

Pharmacokinetics of oxfendazole in goats: a comparison with sheep

In goats, there was a linear correlation of area under the plasma concentration-time curve (AUC) with dose in the range 0-20 mg/kg as single dosages of oxfendazole (OFZ). The bioavailability of OFZ after oral administration was lower in goats than in sheep. The repetition of three administrations at 24 h intervals produced significant increase in the AUC in comparison with a single administration equivalent to the total dosage (1 X 5.0 and 3 X 1.7 mg/kg). Infection with O. circumcincta produced a 33% decrease in the bioavailability of OFZ.     

Changes to oxfendazole chiral kinetics and anthelmintic efficacy induced by piperonyl butoxide in horses

REASONS FOR PERFORMING THE STUDY: The study of novel pharmacological strategies to control parasitism in horses is required since many parasite species have developed resistance to anthelmintic drugs. OBJECTIVES: To evaluate the effects of piperonyl butoxide (PB) (a metabolic inhibitor) on the plasma availability and enantiomeric behaviour of oxfendazole (OFZ) given orally to horses, and to compare the clinical efficacy of OFZ given either alone or co-administered with PB in naturally parasitised horses. METHODS: Fifteen naturally parasitised crossbred male ponies were allocated into 3 groups (n = 5) and treated orally as follows: Group I (control) received distilled water as placebo; Group II was dosed with OFZ (10 mg/kg bwt); and Group III was treated with OFZ (10 mg/kg bwt) co-administered with PB (63 mg/kg bwt). Jugular blood samples were obtained over 120 h post treatment. Three weeks after treatments, all experimental horses were subjected to euthanasia. RESULTS: The observed maximum plasma concentration (Cmax) and area under the concentration vs. time curve (AUC) values for OFZ increased 3- and 5-fold, respectively, in the presence of PB. The plasma concentration profiles of fenbendazole (FBZ), a metabolite generated from OFZ, were significantly lower after the treatment with OFZ alone (AUC = 0.8 microg x h/ml) compared to those obtained after the OFZ + PB treatment (AUC = 2.7 microg x h/ml). The enhanced pharmacokinetic profiles correlated with increased anthelmintic efficacy. The combination OFZ + PB showed 100% efficacy against mature nematode parasites. The efficacy against cyathostome L3 larvae increased from 94% (Group II) to 98.7% (Group III). Consistently, the number of L4 larvae recovered from OFZ + PB treated horses (Group III) (n = 146) was significantly lower (P<0.05) than that recovered from Group II (n = 1397). CONCLUSIONS: The use of PB as a metabolic inhibitor may be useful to enhance OFZ activity against mature and migrating larvae of different parasite species in horses. POTENTIAL RELEVANCE: Metabolic inhibitors may be used to enhance the activity of benzimidazole anthelmintics and extend the effective lifespan of benzimidazole drugs in the face of increasing resistance.     

Biliary secretion and enterohepatic recycling of fenbendazole metabolites in sheep

Fenbendazole (FBZ) was administered intraruminally at 5.0 mg/kg, containing a trace of [¹⁴C]-FBZ, to sheep fitted with a permanent bile duct cannula and the behaviour of FBZ and its metabolites examined in bile and plasma. Of the administered radiolabeled dose, 47% was secreted in bile of which 34% was accounted for as conjugated and 4% as unconjugated (free) metabolites. Hydroxylated oxfendazole (OH.OFZ) was the major biliary metabolite contributing 66%, and hydroxy-FBZ (OH.FBZ) 27%, of the total metabolites characterized. Small amounts of OFZ and hydroxy FBZ sulphone (OH. FBZ.SO₂) were also present in bile. The rapid appearance of OH.OFZ in bile, even before maximum concentrations of OFZ occurred in plasma, indicated that sulphoxidation and hydroxylation was the major route of FBZ metabolism.
Following intraduodenal infusion of free biliary metabolites, FBZ and its metabolites rapidly appeared in bile indicating absorption from the small intestine. When conjugated metabolites were infused they continued to appear in bile for a further 15–20 h after cessation of infusion indicating that absorption of hydroxylated metabolites occurred largely after bacterial deconjugation in the large intestine. Approximately 40% of biliary metabolites were estimated to undergo enterohepatic reabsorption but they contributed minimally to the metabolite content in plasma. It is suggested that during the process of recycling, biliary metabolites make substantial contact with parasites in the mucosa of the small and large intestine thereby contributing to the anthelmintic activity of FBZ.     

The effect of co-administration of parbendazole on the disposition of oxfendazole in sheep

The effect of intraruminal administration of parbendazole (PBZ) on the flow rate of bile and the pharmacokinetic behaviour of oxfendazole (OFZ) was examined in sheep. PBZ given at 18, 9 and 4.5 mg/kg resulted in a dose-related reduction in bile flow rate which was also inversely related to changing concentration of PBZ and its metabolites in plasma. Co-administration of 4.5 mg PBZ/kg with 5.0 mg [14C]-OFZ/kg resulted in increased concentrations of fenbendazole (FBZ), OFZ and fenbendazole sulphone (FBZ-SO2) in plasma, although total 14C levels remained unchanged compared with that observed when OFZ alone was administered. The presence of PBZ also reduced biliary secretion of 14C by 22% and altered the relative proportions of OFZ metabolites in bile during the 72-h experimental period. The ratio of 4'-hydroxy-OFZ (OH-OFZ) to 4'-hydroxy-FBZ (OH-FBZ) changed from 7:1 in the absence of PBZ to approximately 1:1 in the presence of PBZ. There was no change in urinary or faecal 14C excretion. The PBZ-induced effects were temporary since the pharmacokinetic behaviour of OFZ given alone two weeks before was similar to that given two weeks after PBZ co-administration. It is suggested that the presence of PBZ temporarily slowed hepatic metabolism and biliary secretion of OFZ metabolites but concomitantly increased extra-biliary transfer of OFZ and/or its metabolites from plasma into the gastrointestinal tract. Elevated exposure of parasites in the gut wall to plasma-derived drug, coupled with higher concentrations of anthelmintically active OH-FBZ secreted in bile, could contribute to the previously reported increased efficacy of OFZ when co-administered with PBZ.     

Effects of Diet and Species on the Pharmacokinetics of Fenbendazole in Cattle

Knox, M.R. and Steel, J.W., 1997. Effects of diet and species on the pharmacokinetics of fenbendazole in cattle. Veterinary Research Communications, 21 (1), 37-43.The plasma concentration profiles of fenbendazole (FBZ), FBZ-sulphoxide (OFZ) and FBZ-sulphone were measured following intraruminal administration of FBZ at 7.5 mg/kg bodyweight in Bos taurus and B. indicus cattle offered three different diets: 100% wheaten chaff, 100% lucerne, and a 50:50 mix of these two diets. No differences between the species were apparent except for a longer time to peak plasma concentration for OFZ in the B. taurus steers fed 100% wheaten chaff. Cattle fed wheaten chaff alone gave greater areas under the concentration-time curve and longer persistence for all metabolites than when the same cattle were fed the other diets. It is concluded that the reduced rate of passage of digesta on lower-quality fibrous diets allows greater time for absorption of FBZ and its metabolites from the gut, thereby increasing systemic availability.     

Disposition of oxfendazole in goats and efficacy compared with sheep

The disposition of intraruminally administered oxfendazole (OFZ) in goats was studied at 5, 10 and 20 mg kg-1. The area under the plasma concentration with time curve (AUC) increased with increasing dose but at a declining rate. AUC was lower after intra-abomasal compared with intraruminal administration. OFZ was less effective against drug resistant Trichostrongylus colubriformis in goats than in sheep but was of similar efficacy against drug resistant Haemonchus contortus in both host species. In the same experiment peak plasma levels of OFZ in goats were about half those in sheep given the same dose. Of 70 goats tested in the field, total rumen bypass occurred in 12 per cent and partial bypass in 67 per cent. Lower systemic availability due to bypass would be expected to reduce further anthelmintic efficacy in goats. From the results of these experiments a dose rate of 10 mg kg-1 is recommended for goats. When given at this rate as a divided dose at 12 hourly intervals over 24 hours, OFZ was significantly more effective than a single dose in reducing egg counts.     

Pharmacokinetic assessment of the monepantel plus oxfendazole combined administration in dairy cows

Monepantel (MNP) is a novel anthelmintic compound launched into the veterinary pharmaceutical market. MNP is not licenced for use in dairy animals due to the prolonged elimination of its metabolite monepantel sulphone (MNPSO₂) into milk. The goal of this study was to evaluate the presence of potential in vivo drug‐drug interactions affecting the pattern of milk excretion after the coadministration of the anthelmintics MNP and oxfendazole (OFZ) to lactating dairy cows. The concentrations of both parent drugs and their metabolites were measured in plasma and milk samples by HPLC. MNPSO₂ was the main metabolite recovered from plasma and milk after oral administration of MNP. A high distribution of MNPSO₂ into milk was observed. The milk‐to‐plasma ratio (M/P ratio) for this metabolite was equal to 6.75. Conversely, the M/P ratio of OFZ was 1.26. Plasma concentration profiles of MNP and MNPSO₂ were not modified in the presence of OFZ. The pattern of MNPSO₂ excretion into milk was also unchanged in animals receiving MNP plus OFZ. The percentage of the total administered dose recovered from milk was 0.09 ± 0.04% (MNP) and 2.79 ± 1.54% (MNPSO₂) after the administration of MNP alone and 0.06 ± 0.04% (MNP) and 2.34 ± 1.38% (MNPSO₂) after the combined treatment. The presence of MNP did not alter the plasma and milk disposition kinetics of OFZ. The concentrations of the metabolite fenbendazole sulphone tended to be slightly higher in the coadministered group. Although from a pharmacodynamic point of view the coadministration of MNP and OFZ may be a useful tool, the presence of OFZ did not modify the in vivo pharmacokinetic behaviour of MNP and therefore did not result in reduced milk concentrations of MNPSO₂.     

Pharmacokinetic evaluation of four ivermectin generic formulations in calves

The plasma concentration profiles of four randomly chosen ivermectin (IVM) generic formulations (IVM G1-G4) were compared after their subcutaneous (SC) administration to healthy calves. The disposition of other avermectin-type endectocide compounds, doramectin (DRM) and abamectin (ABM), was also assessed in the same pharmacokinetic trial. Forty-two parasite-free Aberdeen Angus male calves were randomly allocated into six treatment groups. Animals in each group (n = 7) received SC treatment (200 microg/kg) with one of the commercially available endectocide formulation used in the trial. Blood samples were taken into heparinised vacutainer tubes from the jugular vein prior to and up to 35 days post-treatment. The recovered plasma was analysed by HPLC with fluorescence detection. Large kinetic differences were observed among the DRM, ABM and IVM formulations under evaluation. The DRM plasma concentration profiles were higher than those measured for ABM and all the IVM generic formulations. The higher and sustained plasma concentrations of DRM accounted for greater area under concentration-time curve (AUC) and longer mean residence time (MRT) values compared to those obtained for both ABM and the IVM generic preparations. The pattern of IVM absorption from the site of subcutaneous administration showed differences among the generic formulations under evaluation. The IVM G2 preparation showed higher peak plasma concentration and AUC values (P < 0.05) compared to those obtained after the administration of the IVM G1 formulation. Longer (P < 0.05) MRT values were obtained after the administration of the IVM G3 compared to other IVM generic preparations. The kinetic behaviour of ABM did not show significant differences with that described for most of the IVM formulations. This study demonstrates that major differences on drug kinetic behaviour may be observed when using different endectocide injectable formulations in cattle.     

Comparative plasma disposition of fenbendazole, oxfendazole and albendazole in dogs

The plasma disposition of fenbendazole (FBZ), oxfendazole (OFZ) and albendazole (ABZ); and the enantiospecific disposition of OFZ, and ABZSO produced were investigated following an oral administration (50 mg/kg) in dogs. Blood samples were collected from 1 to 120 h post-administration. The plasma samples were analysed by high performance liquid chromatography (HPLC). The plasma concentration of FBZ, OFZ, ABZ and their metabolites were significantly different from each other and depended on the drug administered. The sulphone metabolite (FBZSO2) of FBZ was not detected in any plasma samples and the parent molecule ABZ did not reach quantifiable concentrations following FBZ and ABZ administration, respectively. OFZ and its sulphone metabolite attained a significantly higher plasma concentration and remained much longer in plasma compared with FBZ and ABZ and their respective metabolites. The maximum plasma concentrations (Cmax), area under the concentration time curve (AUC) and mean residence time (MRT) of parent OFZ were more than 30, 68 and 2 times those of FBZ, respectively. The same parameters for ABZSO were also significantly greater than those of FBZSO. The ratio for total AUCs of both the parent drug and the metabolites were 1:42:7 for following FBZ, OFZ and ABZ administration, respectively. The enantiomers were never in racemic proportions and (+) enantiomers of both OFZ and ABZSO were predominant in plasma. The AUC of (+) enantiomers of OFZ and ABZSO was, respectively more than three and seven times larger than that of (-) enantiomers of both molecules. It is concluded that the plasma concentration of OFZ was substantially greater compared with FBZ and ABZ. The data on the pharmacokinetic profile of OFZ presented here may contribute to evaluate its potential as an anthelmintic drug for parasite control in dogs.     

Pharmacokinetic comparison of six anthelmintics in sheep,goats, and cattle

This study was initiated to determine whether a comparative pharmacokinetic (PK) approach could be used to expand the pool of approved anthelmintics for minor ruminant species. Accordingly, the PK profiles of six anthelmintics (levamisole, albendazole, fenbendazole, moxidectin, doramectin, and ivermectin) in sheep, goats, and cattle were determined. The PK values determined for each anthelmintic included T_max, T_last, C_max, AUC, AUC/dose, and C_max/dose. The results of this study demonstrate that a comparative PK approach does not show commonality in the way these six anthelmintics are individually processed by these three ruminants. While some drugs demonstrated identical PK profiles between sheep and goats, none of these drugs demonstrated PK profiles in sheep and goats comparable to the PK profiles found in cattle. The results from this study suggest drug approval across these three ruminants is not a viable concept. However, the resulting PK profiles for each combination of drug and ruminant species represents a new dataset that can be used to support the US FDA Center for Veterinary Medicine's Minor Use/Minor Species indexing process for drug approvals in minor species such as sheep and goats.     

Involvement of P-glycoprotein on ivermectin kinetic behaviour in sheep: itraconazole-mediated changes on gastrointestinal disposition

Different pharmacological approaches have been used in an attempt to increase the systemic availability of anthelmintic drugs. The comparative effect of the itraconazole (ITZ)-mediated modulation of P-glycoprotein (P-gp) activity on the in vivo kinetic behaviour of ivermectin (IVM) administered by the intravenous (i.v.) and intraruminal (i.r.) routes to sheep was assessed in the current work. Corriedale sheep received IVM (50 microg/kg) by the i.v. route either alone (group A) or co-administered with the P-gp modulator ITZ (100 mg orally three times every 12 h) (group B). Animals in groups C and D were intraruminally treated with IVM (50 microg/kg) alone or co-administered with ITZ (100 mg orally three times every 12 h) respectively. Jugular blood and gastrointestinal tissue samples (animals treated by the i.r. route) were collected. The samples were analysed by HPLC using fluorescence detection. The plasma disposition of IVM given intravenously was unaffected by the presence of ITZ. However, after the i.r. treatment the co-administration with ITZ resulted in markedly higher IVM plasma concentration profiles compared to the control group. Likewise, the presence of ITZ enhanced the IVM concentration profiles measured in the gastrointestinal mucosal tissues. An ITZ-induced reduction on the P-gp efflux activity at the intestinal lining may have accounted for the greater absorption and enhanced systemic availability observed for IVM in the intraruminally treated animals.     

Oral chloramphenicol in dwarf goats-influence of vasopressin on its absorption and effect of diet on its biodegradation in ruminal fluid samples

The biodegradation of chloramphenicol was studied by incubating the drug (at concentrations of 72, 48 and 24 micrograms/ml) with ruminal fluid samples from dwarf goats fed two different diets. Biodegradation of the drug was much faster in samples from animals which were fed with hay and concentrate than in those obtained from goats which were fed grass pellets only. Recently, it has been suggested that lysine-vasopressin injected intravenously induces closure of the oesophageal groove in cattle and goats. Therefore, the influence of lysine-vasopressin on the oral absorption of chloramphenicol (50 mg/kg body wt) was studied in dwarf goats, using two formulations of chloramphenicol. The results suggest that vasopressin failed to induce this reflex mechanism. Furthermore, the shapes of the plasma concentration-time curves after oral administration of chloramphenicol palmitate and chloramphenicol dissolved in propylene glycol were markedly different. Possible mechanisms for the observed differences are discussed.     

Pharmacokinetics of sulfaphenazole in sheep

Proprietary formulations of sulfaphenazole were administered intravenously and orally to sheep. After intravenous injection the disposition of sulfaphenazole was described by an open two compartment model, and the elimination half-time was on average 5.58 h. The apparent volume of distribution was 0.273 1/kg and total body clearance 34.1 ml/kg/h. Judged from the area under the curves, the oral dose was completely absorbed, Drug plasma concentrations versus time fitted an open one compartment model, the half-time of absorption and elimination being 2.66 and 7.12 h, respectively. The binding to plasma proteins was high i.e. 93–96 % at therapeutic concentrations, and concentration dependent. The results demonstrate that the doses indicated by the manufacturer appear to be low and more appropriate for drugs with a longer elimination half-time. Consequently, considerable adjustments in the dosage regimen are recommended.