Tissue distribution of benzylpenicillin after intramammary administration in the isolated perfused bovine udder

Udders from previously healthy lactating cows were perfused with warmed and gassed Tyrode solution in vitro. Benzylpenicillin was administered in three formulations: an oily suspension with micronized particles of <10 microm diameter, an oily suspension with average particle size of 40 microm and an aqueous solution (3 million IU benzylpenicillin-potassium, volume 15 mL). The antibiotics were administered intracisternally to six front and six rear quarters each. Moreover, a dry-off-ointment (100 000 IU benzylpenicillin-potassium and 100 000 IU benzylpenicillin-benzathine, volume 7.5 mL) was tested in four udder halves. Perfusate samples were collected over 3 h. Furthermore, glandular tissue at different vertical distances from the teat base and the regional lymph node were sampled after 3 h. The determination of benzylpenicillin was performed by high pressure liquid chromatography with UV detection. With increasing distance from the teat base, the concentration of benzylpenicillin in tissue exponentially decreased. Using the aqueous solution or oily suspension that contained micronized active principle, higher concentrations were reached compared to the formulation with particle sizes of 40 microm. In udder lymph nodes, the concentration was highest after treatment with the coarse suspension. The transfer from the dry-off-ointment with benzathine-salt into perfusate was very low. These results suggest that it is possible to study tissue distribution of antibiotics in the isolated perfused bovine udder.     

Tissue distribution of marbofloxacin after 'systemic' administration into the isolated perfused bovine udder

Mammary glands taken at slaughter from healthy lactating cows were perfused in vitro with warmed and gassed Tyrode solution. Marbofloxacin was administered "systemically" via the perfusion fluid at concentrations similar to those measured in plasma following intravenous administration of 2mg/kg marbofloxacin. Samples from the perfusate were taken over a 24h period. Glandular tissue samples at different vertical distances from the teat up to the udder base were gathered from each of the four quarters after 3, 6, 12 and 24h. The marbofloxacin content of the tissue samples was analysed by high performance liquid chromatography with UV detection. The addition of marbofloxacin to the perfusion fluid produced median concentrations above the MIC90 (0.016microg/mL) against Escherichia coli at all glandular tissue sites measured after 3 and 6h with remarkable variations. Samples taken after 12 and 24h contained marbofloxacin in concentrations (median) of 0.22 (<0.05-0.32)microg/g and 0.13 (<0.05-0.16)microg/g. It is concluded that a systemic administration of marbofloxacin is well suited for the treatment of E. coli mastitis.     

Tissue distribution of oxacillin and ampicillin in the isolated perfused bovine udder

In vivo, tissue distribution of intra-mammarily administered antibiotics is mostly only assessed by sampling milk and blood. Therefore, the described study analysed whether measurement of tissue concentrations makes sense in vitro instead. Isolated bovine udders were perfused with gassed and warmed Tyrode solution. To four front and rear quarters each, 1000 mg oxacillin in 7.5 ml vehicle was administered intracisternally, completely formulated as sodium monohydrate in two lactation ointments (with or without sodium dodecylsulphate) or 80% as benzathine salt in a dry-off ointment. Over 3 h, perfusate and glandular tissue from different locations were sampled and analysed by high pressure liquid chromatography. With increasing vertical distance to the teat base, the tissue concentration of antibiotics decreased. With the lactation ointment containing sodium dodecylsulphate, lower oxacillin concentrations were reached in glandular tissue and lymph nodes compared to those without. The ointments led to a higher recovery of oxacillin in glandular tissue than in perfusate. Aluminium monostearate in the dry-off ointment caused an even poorer absorption of oxacillin into perfusate. The isolated perfused bovine udder is suitable to study the tissue distribution of antibiotics, since the results were mainly comparable with the few existing in vivo studies and show the influence of different formulations.     

The tissue distribution of antibiotics in the udder--comparison of the situation in vivo with the isolated perfused bovine udder.]

Especially for animal protection reasons, tissue concentrations of intracisternally administered antibiotics in the mammary gland hardly can be determined in the live cow. Therefore, this paper assessed the use of the isolated perfused bovine udder to study the distribution of penicillins in glandular tissue. With this intention, the in vitro results acquired with this model were compared to tissue concentrations as well as absorption data from the few in vivo studies in the literature and differences were interpreted. This approach must consider inevitable deviations of experimental materials and methods. Furthermore, in vivo the udder is included in a closed circulatory system with other metabolism and excretion feasibilities than the isolated model. Moreover, the lower flow rate in the vessels in vitro has to be taken into account with respect to absorption capacities. Nevertheless, the tissue concentrations and the distribution equilibrium across the blood-udder-barrier in both experimental concepts corresponded with each other, if the deviating conditions are considered by calculating correction factors. Advantages and disadvantages of the isolated udder are discussed critically. In conclusion, this method is a useful completion of pharmacokinetic in vivo studies that are supposed to compare intracisternally administered formulations.     

硫酸头孢喹肟乳房注入剂在牛奶中的药代动力学研究

选取8头健康黑白花奶牛,每头牛随机选择两个乳区,以每个乳区1支(8g:75mg/支)的剂量进行单次乳房灌注给予硫酸头孢喹肟乳房注入剂。采用超高效液相色谱-串联质谱(UPLC-MS/MS)方法检测乳中头孢喹肟的浓度。结果表明,该制剂采用单次乳房灌注给药后,乳中药物能发挥较好抑菌效果的时间约为24～30小时,因此建议该制剂治疗奶牛临床型乳房炎的用药方案为：1支(8g:75mg)/(乳区.次),每天给药1次。     

Interdependence and distribution of subclinical mastitis and intramammary infection among udder quarters in dairy cattle

The objective of the present study was to determine the distribution of subclincial mastitis and intramammary infection (IMI) across udder quarters and to quantify, if any, the level of interdependence between quarters. Subclinical mastitis was defined as an udder quarter somatic cell count of > or =250,000. Intramammary infection was defined as the presence of pathogens in an udder quarter. The data used in the analyses consisted 6577 test-day records from 2034 lactations with observations on subclinical mastitis and 8428 test-day records from 2575 lactations with observations on IMI; each test-day record consisted data on all four udder quarters. Records were from animals on three research herds in southern Ireland. Observed distributions of IMI were compared to expected distributions, estimated using a binomial probability distribution, assuming independence among quarters. Generally, the observed frequencies deviated significantly from the expected frequencies, indicating some level of interdependence between quarters. Intraclass correlations were estimated from a mixed model including cow and test-day record nested within cow as random effects; fixed effects in the model included herd, year of calving, month of calving, parity, days in milk at sampling and interactions. Intraclass correlations within test-day record ranged from 0.14 to 0.50 for subclinical mastitis and from 0.02 to 0.40 for IMI. Thus, substantial interdependence between quarters exists which should be accounted for when analysing data from experiments across udder quarters. Failure to do so may result in incorrect inferences from statistical tests.     

Elimination of erythromycin in milk after intramammary administration in cows with specific mastitis: relation to dose,milking frequency and udder health

Elimination of erythromycin in milk following intramammary therapy of specific mastitis in cows was studied. Five cows received therapy in one quarter (G1), and eight in two quarters with five milked twice (G2) and three thrice a day (G3). Dose infused was 300 mg/quarter 12 h × 5 times. The drug concentrations in milk were determined using microbial assay technique with Micrococcus luteus as the test organism. Considerable variations occurred in the excretion of drug; levels for treated quarters being 8.25 to 37.61 μg/ml at first milking that declined rapidly at 24 h and no drug activity was observed beyond 36 h post treatment. In total, about 6–25% of the last infused dose appeared in the milk. Drug crossed to 1/15 quarter (G1), 6/10 quarters (G2) and all the six untreated quarters (G3). Crossover levels were significantly higher in mastitic quarters and for G3 cows, but duration of excretion remained same in all cases. It seems that crossover of erythromycin to untreated quarters is related to the udder health and dose infused.     

Antimicrobial susceptibility of Prototheca zopfii isolated from bovine intramammary infections

In vitro antimicrobial susceptibility tests were carried out on 48 strains of Prototheca zopfii, an achlorophyllous algae causing refractory mastitis in dairy cows; 27 antimicrobials were evaluated. All strains were susceptible to both myxin and nystatin. In addition, 22 strains were susceptible to amphotericin B, 21 to polymyxin B, and 18 to gentamicin. Only 1 strain was susceptible to kanamycin. All strains were resistant to ampicillin, bacitracin, carbenicillin, cephalothin, chloramphenicol, clotrimazole, cloxacillin, erythromycin, flucytosine, ketoconazole, lincomycin, miconazole, neomycin, nitrofurazone, novobiocin, oleandomycin, penicillin, rifampin, streptomycin, tetracycline, and vancomycin.     

Disposition kinetics of lactoferrin in milk after intramammary administration

Disposition kinetics of lactoferrin (Lf) purified from cheese whey was studied in the milk of Finnish Ayrshire cows after intramammary administration of 1 g of Lf into one udder quarter. Intramammary administration of 1 g of Lf increased Lf concentration in milk for several hours. Mean elimination half-life of Lf was 2.2 h and a mean maximum concentration of 6.3 g/L was reached between 1 and 4 h. After 8 h of administration, Lf concentrations in milk decreased to almost the same level as before the infusion. Forty-eight hours postinfusion, the mean Lf concentration was again higher than in the milk samples taken before the infusion of Lf, being on average 1.5 g/L. Lactoferrin caused some local tissue irritation in the udder quarter. Severity of the irritation reactions varied between cows. The udder quarters of primiparous cows reacted faster than those of multiparous cows, but irritation reactions decreased more rapidly in the older cows than in primiparous cows. The cows had no general signs such as fever or anorexia. The somatic cell count returned to baseline level 4 days after the administration.     

Plasminogen activation in the bovine udder

Plasmin is a serin protease with a broad substrate specificity which might cause disintegration of basal membranes, epithelium and surrounding matrix. Plasmin might also elicit degradation of tissue (Mullins & Rohrlich 1983).     

Determination of cloxacillin residues in dairy cows after intramammary administration

The aim of this study was to perform a comparative analysis of the characteristics of cloxacillin (CLO) (MRL of withdrawal in bovine milk is 30 ng/g) after a single intramammary (IMM) dose in the dry period (DP) and lactation (LP), and to establish a high‐performance liquid chromatography (HPLC) analytical method for CLO detection in milk. The research was conducted on a group of 10 cows in DP and 10 in LP. A single dose of 600 mg of CLO was administrated by the IMM route for a single quarter in DP and 500 mg for a single quarter in LP. CLO concentration was analyzed by HPLC. CLO was monitored at a wavelength of 206 nm. Pharmacokinetic calculations were performed using Phoenix^® WinNonlin^® 6.4 software. The calibration curve was linear over the range of 13.03–28 019.00 ng/g with the coefficient of determination R² > 0.999. CLO withdrawal in both the LP and DP group had a biphasic nature. The total CLO elimination in the DP and LP group was reached after 36 and 6.5 days, respectively. A quantitative and confirmatory method for the determination of CLO in fresh milk has been established. We have confirmed that the withdrawal of CLO in the DP group is not a linear process and has a stepwise character.     

Local and systemic immune response in the cow after intramammary vaccination during lactation

The local and systemic immune response of the lactating cow during the 10 week period after intramammary (IMM) vaccination with killed Mycobacterium bovis (M. bovis) was evaluated. Antigen (tuberculin)-reactive lymphocytes were present in the milk as early as 2 weeks post-vaccination, and in the blood at 6 weeks after vaccination. The milk lymphocytes, compared to the blood lymphocytes were consistently more responsive to tuberculin. Both blood and milk lymphocytes responded in vitro to the lectins, phytohemagglutinin-A (PHA-P) and concanavalin A (Con A), although the milk lymphocytes were consistently less responsive than the blood lymphocytes during the period. Anti-tuberculin antibody was significantly elevated in the milk and blood of the vaccinated animals at 10 weeks post-vaccination. Infusion of tuberculin into the mammary glands of the cows 10 weeks after vaccination resulted in a marked increase in the number of milk leukocytes. The influx of leukocytes initially consisted of polymorphonuclear leukocytes (PMNL), and later, mononuclear leukocytes. Intramammary vaccination also resulted in antigen recognition at sites distant from the mammary gland.     

Depletion of florfenicol in lactating dairy cows after intramammary and subcutaneous administration

Eighteen Holstein dairy cows ranging in body weight from 500–700 kg and with an average milk yield of 37 ± 6 kg/day were used to investigate the depletion of florfenicol (FFL) in milk and plasma of dairy cows. Three groups of six were administered FFL: Group A, intramammary (IMM) infusion of ~2.5 mg FFL/kg BW at three consecutive milking intervals (total amount of ~7.5 mg/kg BW); Group B, one IMM infusion (20 mg/kg BW) into one quarter and Group C, one subcutaneous (SC) treatment (40 mg/kg BW). IMM infusions were into the right front quarter. Cows were milked daily at 06:00 and 18:00 h. The highest concentrations (C_max) and time to C_max (T_max) were: 1.6 ± 2.2 μg·FFL/mL milk at 22 h (Group A), 5.5 ± 3.6 μg·FFL/mL milk at 12 h (Group B), and 1.7 ± 0.4 μg·FFL/mL milk at 12 h (Group C). The half‐lives (t_1/2) were ~19, 5.5, and 60 h, for Groups A, B, and C, respectively. FFL was below the limit of detection (LOD) by 60 h in three Group B cows, but above the LOD at 72, 84, and 120 h in three cows. FFL was above the LOD in milk from Group C's cows for 432–588 h. Plasma values followed the same trends as milk. The results demonstrate that IMM‐infused FFL is bioavailable and below the LOD within 72–120 h. The concentration of FFL was detectable in both plasma and milk over the course of 2–3 weeks after SC administration. The absence of residue depletion data presents problems in determining safe levels of FFL residues in milk and edible tissues. The data presented here must not be construed as approval for extra‐label use in food animals.     

奶牛乳房内灌注头孢噻呋钠的消除动力学研究

在奶牛乳房内灌注头孢噻呋钠后,采用超高效液相色谱一串联质谱法测定牛乳中头孢噻呋的浓度,对其消除动力学进行了研究。3头实验奶牛按每个乳房0．3g头孢噻呋灌注,牛乳中药物达到的最高浓度Cmax=107．89μg／mL,达峰时间Tmax=8h,药物半衰期T1/2=13．97h。在乳房内用药后的最初56h内,头孢噻呋浓度快速下降;最后一次给药88h后,所有乳腺中头孢噻呋的浓度都低于允许限量（0．1μg／mL）。故建议头孢噻呋在牛奶中的休药期为4d。     

Phenotypic and genotypic identification of streptococci and related bacteria isolated from bovine intramammary infections

Background

Streptococcus spp. and other Gram-positive, catalase-negative cocci (PNC) form a large group of microorganisms which can be found in the milk of cows with intramammary infection. The most frequently observed PNC mastitis pathogens (major pathogens) are Streptococcus uberis, Strep. dysgalactiae, and Strep. agalactiae. The remaining PNC include a few minor pathogens and a large nonpathogenic group. Improved methods are needed for the accurate identification and differentiation of PNC.A total of 151 PNC were collected from cows with intramammary infection and conclusively identified by 16S rRNA sequencing as reference method. Nine phenotypic microbiological tests (alpha-hemolysis, CAMP reaction, esculin hydrolysis, growth on kanamycin esculin azide agar and on sodium chloride agar, inulin fermentation, hippurate hydrolysis, leucine aminopeptidase and pyrrolidonyl peptidase activity), multiplex PCR for the three major pathogens (target genes for Strep. uberis, Strep. dysgalactiae and Strep. agalactiae: pauA, 16S rRNA, and sklA3, respectively), and mass spectroscopy using the matrix-assisted laser desorption ionization-time of flight (MALDI-TOF MS) were evaluated for the diagnosis and discrimination of the three clinically most relevant PNC.

Results

The probability that a strain of Strep. uberis, Strep. dysgalactiae and Strep. agalactiae was correctly identified by combining the results of the 9 phenotypic tests was 92%, 90%, and 100%, respectively. Applying the multiplex PCR, all strains of the three major pathogens were correctly identified and no false positive results occurred. Correct identification was observed for all strains of Strep. uberis and Strep. agalactiae using MALDI-TOF MS. In the case of Strep. dysgalactiae, some variability was observed at the subspecies level, but all strains were allocated to one single cluster.

Conclusions

The results of the present study show that reliable identification of the clinically most relevant PNC (Strep. uberis, Strep. agalactiae and Strep. dysgalactiae) can be obtained by use of a combination of colony morphology, hemolysis type and catalase reaction, and a multiplex PCR with specific primers restricted to these 3 pathogens. The MALDI-TOF MS is a fast method that shows promising results, although identification of Strep. dysgalactiae at the subspecies level is not yet satisfactory.     

Immune responses to intramammary infusion with soluble (ovalbumin) and particulate (S uberis) antigens in the preparturient bovine udder

Pregnant non-lactating cows were immunised by intramammary infusion with killed Streptococcus uberis into one quarter and ovalbumin into another, at one week (group 2) or one week and two weeks (group 1) before the expected date of parturition. A small IgG1 and IgG2 antibody response to ovalbumin was detected in the serum of these cows. There was also a small increase in IgG1 and IgA serum antibody activity to S uberis. In whey the response was restricted to IgA with activity to S uberis. The IgA antibody response to S uberis in group 1 was significantly greater in the quarter immunised with bacteria than that of the control quarters for up to two months after calving. In contrast, the serum IgA response was short or absent in a number of animals.     

Florfenicol pharmacokinetics in lactating cows after intravenous, intramuscular and intramammary administration

Pharmacokinetics of florfenicol 30% injectable solution was determined in lactating cows after intravenous, intramammary and intramuscular administration. Serum concentration-time data generated in the present study were analysed by non-compartmental methods based on statistical moment theory. Florfenicol half-life was 176 min, mean residence time 129 min, volume of distribution at steady-state 0.35 L/kg, and total body clearance 2.7 mL/min·kg after intravenous administration at 20 mg/kg. The absorption after intramuscular administration appeared slow and the kinetic parameters and the serum concentration vs. time curve were characteristic of absorption rate-dependent elimination. The absorption after intramammary administration of florfenicol at 20 mg/kg was good (53.9%) and resulted in serum concentrations with apparent clinical significance. The intramammary administration resulted in serum florfenicol concentrations that were significantly higher than the respective serum concentrations following Intravenous administration 4 h after administration and thereafter. Florfenicol absorption was faster from the mammary gland than from the muscle. The maximum serum concentrations ( C _max) were 6.9 μg/mL at 360 min after intramammary administration and 2.3 μg/mL at 180 min after intramuscular administration. The bioavailability of florfenicol was 54% and 38% after intramammary and intramuscular administration, respectively. The C _max in milk was 5.4 μg/mL at 180 min after intravenous and 1.6 μg/mL at 600 min after intramuscular administration.