The fate of trenbolone acetate and melengestrol acetate after application as growth promoters in cattle: environmental studies. (Articles).The steroids trenbolone acetate (TbA) and melengestrol acetate melengestrol acetate an effective oral progestational agent used as a feed additive in cattle to promote growth. (MGA (1) (Monochrome Graphics Adapter) A display adapter that employs Hercules Graphics, combining graphics and text on a monochrome monitor. (2) (Matrox Graphics Accelerator) A trade name used by Matrox Graphics Inc. ) are licensed as growth promoters for farm animals in several meat-exporting countries. Although many studies have explored their safety for both animals and consumers, little is known about their fate after excretion by the animal. Our study aimed to determine the residues and degradation of trenbolone and MGA in solid dung, liquid manure, and soil. In animal experiments lasting 8 weeks, cattle were treated with TbA and MGA. Solid dung and, in case of trenbolone, liquid manure were collected and spread on maize fields after 4.5 and 5.5 months of storage, respectively. Determination of the hormone residues in all samples included extraction, clean-up (solid-phase extraction), separation of metabolites Metabolites Substances produced by metabolism or by a metabolic process. Mentioned in: Interactions and interfering substances by HPLC HPLC high-performance liquid chromatography. HPLC high performance liquid chromatography. HPLC High-performance liquid chromatography Lab instrumentation A highly sensitive analytic method in which analytes are placed (RP-18), and quantification by sensitive enzyme immunoassay Immunoassay An assay that quantifies antigen or antibody by immunochemical means. The antigen can be a relatively simple substance such as a drug, or a complex one such as a protein or a virus. . Procedures were validated by mass spectrometry mass spectrometry or mass spectroscopy Analytic technique by which chemical substances are identified by sorting gaseous ions by mass using electric and magnetic fields. (MS) methods. During storage of liquid manure the level of trenbolone decreased from 1,700 to 1,100 pg/g (17[alpha]-isomer), corresponding to a half-life of 267 days. Before storage, the concentrations in the dung hill ranged from 5 to 75 ng/g TbOH and from 0.3 to 8 ng/g MGA. After storage, levels up to 10 ng/g trenbolone, and 6 ng/g MGA were detected. In the soil samples trenbolone was traceable up to 8 weeks after fertilization, and MGA was detected even until the end of the cultivation period. The results show that these substances should be investigated further concerning their potential endocrine-disrupting activity in agricultural ecosystems. Key words: degradation, dung, growth promoter, manure, melengestrol acetate, soil, trenbolone. Environ Health Perspect 109:1145-1151(2001). [Online 2 November 2001] http://ehpnet1.niehs.nih.gov/docs/2001/109p1145-1151schiffer/abstract.html For several years we have known that sex hormones excreted via human and/or animal feces can exhibit endocrine-disrupting activity; for example, estrogens Estrogens Hormones produced by the ovaries, the female sex glands. Mentioned in: Acne, Polycystic Ovary Syndrome estrogens (es´trōjenz), n. present in chicken manure caused hyperestrogenism when fed to cattle (1). Natural and synthetic estrogens such as estradiol-17[beta] and ethinylestradiol-17[alpha] were frequently detected in lower nanogram nanogram /nano·gram/ (ng) (nan?o-gram) one billionth (10-9) of a gram. nan·o·gram n. Abbr. ng One billionth (10-9) of a gram. per liter ranges in discharges of sewage treatment plants, caused by their incomplete removal during passage through the sewage treatment plants (2). Exposure of fish to sewage treatment plant effluents increased plasma levels of vitellogenin Vitellogenin (Vg) (from latin vitellus = yolk and gener = to produce) is a synonymous term for the gene and the expressed protein. The molecule is classified as a glyco-lipo-protein, having properties of a sugar, fat and protein. , a protein synthesized by the liver of oviparous oviparous /ovip·a·rous/ (o-vip´ah-rus) producing eggs in which the embryo develops outside the maternal body, as in birds. oviparous producing eggs in which the embryo develops outside of the maternal body, as in birds. fish in response to estradiol stimulation (3). Public concern focuses especially on the synthetic estrogen and progestin progestin /pro·ges·tin/ (-jes´tin) progestational agent. pro·ges·tin n. 1. A natural or synthetic progestational substance that mimics some or all of the actions of progesterone. components of oral contraceptives Oral Contraceptives Definition Oral contraceptives are medicines taken by mouth to help prevent pregnancy. They are also known as the Pill, OCs, or birth control pills. , which have high physiologic activity at low doses. Compared with the natural hormones, they show a relatively greater stability in aqueous media (4) and a greater resistance to microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. degradation (5). These properties pose the potential for accumulation and persistence in the environment. It can be presumed that other structurally related xenobiotic xen·o·bi·ot·ic adj. Foreign to the body or to living organisms. Used of chemical compounds. n. A xenobiotic chemical. xenobiotic any substance, harmful or not, that is foreign to the animal's biological system. hormones that are used for veterinary treatment show a similar behavior. The synthetic steroids trenbolone acetate [TbA (17[beta]-acetoxyestra-4,9,11-triene-3-one); Figure 1] and melengestrol acetate [MGA (17[alpha]-acetoxy-6-methyl- 16-methylene-pregna-4,6,-diene-3,20-dione); Figure 2] are licensed as growth promoters for farm animals in the United States and Canada. TbA is administered as a subcutaneous implant either alone or in combination with an estrogenic compound. The anabolic anabolic pertaining to or arising from anabolism. anabolic steroid steroids with a tissue-building effect. Testosterone is an example of a natural anabolic steroid with the, sometimes undesirable, effect of causing masculinization. effect of TbA, which is 8-10 times stronger than that of testosterone propionate propionate /pro·pi·o·nate/ (pro´pe-o-nat) any salt of propionic acid. pro·pi·o·nate n. A salt or ester of propionic acid. propionate any salt of propionic acid. (6), is based on androgenic androgenic /an·dro·gen·ic/ (an?dro-jen´ik) 1. producing masculine characteristics. 2. pertaining to an androgen. and antiglucocorticoid activity (7,8). After its release from the depot into the blood circulation, TbA is hydrolyzed to the active trenbolone-17[beta] (TbOH-17[beta]). In the heifer, only one major metabolic route occurs, oxidation of TbOH-17[beta] to trendione (TbO), followed by reduction to TbOH-17[alpha] (Figure 1). The epimerization strongly decreases the compound's biologic efficacy; the anabolic potency of TbOH-17[alpha] is only about 5% of that of TbOH-17[beta] (9), and the affinity to the recombinant human androgen receptor (rhAR) is reduced to about 4% (10). [FIGURES 1-2 OMITTED] Melengestrol acetate (MGA), an orally active gestagen, can be used for estrus estrus Period in the sexual cycle of female mammals, except the higher primates, during which they are in heat (ready to accept a male for mating). Some animals (e.g., dogs) have only one heat during a breeding season; others (e.g. synchronization and/or induction in cattle (11). It is also marketed as a feed additive for feedlot feedlot a management system in which naturally grazing animals are confined to a small area which produces no feed and are fed on stored feeds. See also dry lot. backgrounding feedlot heifers to improve feed efficiency and rate of weight gain. The administered daily dose of 0.5 mg per cow allows ovarian follicular fol·lic·u·lar adj. 1. Relating to, having, or resembling a follicle or follicles. 2. Affecting or growing out of a follicle or follicles. development while inhibiting estrus and ovulation ovulation /ovu·la·tion/ (ov?u-la´shun) the discharge of a secondary oocyte from a graafian follicle.ov´ulatory o·vu·la·tion n. The discharge of an ovum from the ovary. (12). MGA exerts both progestional and glucocorticoid glucocorticoid /glu·co·cor·ti·coid/ (-kor´ti-koid) 1. any of the group of corticosteroids predominantly involved in carbohydrate metabolism, and also in fat and protein metabolism and many other activities (e.g. activity (11). Its progestional activity was about 125 times greater than that of progesterone progesterone (prōjĕs`tərōn'), female sex hormone that induces secretory changes in the lining of the uterus essential for successful implantation of a fertilized egg. as measured by estrus cycle inhibition in cattle (13); anti-inflammatory assays in rats showed that its glucocorticoid activity was comparable with that of hydrocortisone hydrocortisone (hī'drəkôr`tĭzōn'), another name for the steroid hormone cortisol, more especially used to refer to preparations of this hormone used medicinally. (14). The anabolic mode of action of MGA is assumed to be due to stimulation of the ovarian synthesis of endogenous estradiol (15). Androgenic side effects Side effects Effects of a proposed project on other parts of the firm. are probably not of concern because a recent study has shown that the binding affinity of MGA to the rhAR is only about 1% of testosterone and 0.3% of dihydrotestosterone dihydrotestosterone /di·hy·dro·tes·tos·te·rone/ (DHT) (-tes-tos´te-ron) an androgenic hormone formed in peripheral tissue by the action of 5 on testosterone; thought to be the androgen responsible for development of male primary sex (10). Although many studies have been performed on the safety of TbA and MGA for both animals and consumers (11,13,16), little is known about their fate after excretion by animals. It is possible that these substances and/or their metabolites accumulate in soil or find their way into surface or even ground water via dung or manure. The intention of our studies was to determine the residues and degradation of TbOH and MGA, respectively, in solid dung, liquid manure, and soil. Material and Methods Animal Experiments, Manure Collection, and Field Experiments All animals used in our research have been treated according to the Code of Ethics Code of Ethics can refer to:
. There is also another Declaration of Helsinki, dealing with the Information Society.[1] Introduction The Declaration of Helsinki,[2] was developed by the World Medical Association[3] ) and the guiding principles in the Guide for the Care and Use of Laboratory Animals, National Institutes of Health (17). Study I: Degradation of TbOH in liquid manure. We implanted 41 cattle (Holstein Friesian) with commercially available anabolic preparations containing TbA. The total amount of TbA applied to the animals was 3,340 mg. The liquid manure was collected in a manure collection canal and pumped into the cylindric manure storage pit, open at the top, every 2 weeks. In the collection canal the material was not homogeneous, whereas in the manure storage a stirring propeller achieved good homogeneity before sampling. The manure was stored under anaerobic anaerobic /an·aer·o·bic/ (an?ah-ro´bik) 1. lacking molecular oxygen. 2. growing, living, or occurring in the absence of molecular oxygen; pertaining to an anaerobe. conditions. After the end of the animal experiments the total volume of the manure in the storage was about 170 [m.sup.3] and contained all animal excrement excrement /ex·cre·ment/ (eks´kri-mint) 1. feces. 2. excretion (2). ex·cre·ment n. Waste matter or any excretion cast out of the body, especially feces. , the stablecleaning water, and atmospheric precipitations (rain, snow) that also reached the storage. The estimated mass of excrement was 100 tons. Samples of liquid manure were taken every second week from the collection canal (to survey the conditions immediately after the manure formation), every 2 or 4 weeks from the manure storage tank, and before spreading on the fields. A small fraction of the total amount was spread on an experimental field in November after the end of the animal experiments. The majority was used for fertilization in spring after 5.5 months of storage. We took samples of the stored manure every month. All samples were stored at -25 [degrees] C. Study II: Stability of TbOH in solid dung. We implanted 12 Holstein Friesian heifers with commercially available TbA preparations. The total amount of TbA applied in the experiment was 5,600 mg. For cleaning of the stables, the excrement of the animals was removed in a traditional procedure with the help of straw, and a dung hill was erected. After the end of the animal experiments, the dung hill contained the excrement of the 12 animals from day 31 before treatment to day 56 after treatment. The estimated total volume of the dung hill was 40 [m.sup.3]; the estimated mass of excrement was 20 tons. After finishing the animal experiments, we took samples of solid dung from four different locations of the dung hill, representing different regions (top, middle, bottom, and liquid effluent). In November the solid dung was transferred to a sealed storage ground. Mixing of the dung hill during transportation was inevitable. After 4.5 months of storage, samples were again taken from different regions (top, middle, and bottom). All samples were kept at -25 [degrees] C. Study III: Residues of melengestrol acetate in feces and solid dung. We treated 13 Holstein Friesian heifers with MGA, served as feed premix premix a finite mixture of nutritional supplements such as minerals and vitamins, usually combined with a carrier and ready for mixing with a total ration. that was prepared from reference material (ICN ICN International Council of Nurses. Biomedicals, Eschwege, Germany) at the Institute of Animal Nutrition at the Technical University of Munich-Weihenstephan, Germany. The total amount of MGA applied in the experiment was 840 mg. The excrement was removed with the help of straw similar to study II, but the dung hill was erected automatically by pressing the fresh dung from the bottom of the dung plate into the dung hill. After the end of the animal experiments, the dung hill contained about 20 tons of excrement in an estimated total volume of 60 [m.sup.3]. Samples of feces were taken twice per week from each animal. Sampling and storage of solid dung were performed analogously to study II. Studies IV and V: Steroid residues and stability in soil. At our experimental farm the liquid manure and solid dung from the hormone treatment experiments were used to fertilize fields on which maize was cultivated according to good agricultural practices The term Good Agricultural Practices can refer to any collection of specific methods, which when applied to agriculture, produce results that are in harmony with the values of the proponents of those practices. . Liquid manure containing TbOH was spread on one section of the fields in November (fresh manure) and on another section in March (stored manure). Solid dung from studies II and III was brought out also in March. Soil samples were collected from three representative locations of each experimental section of the fields, some immediately after fertilization, and regularly every month (first 3 months) or every second month, respectively, until the end of the cultivation period (i.e., ploughing of the fields in October). All samples were stored at -25 [degrees] C. Chemicals All solvents and chemicals used during extraction and quantification were at least of analytic-reagent grade. TbOH-17[alpha] and TbO were provided by Roussel-Uclaf (Paris, France), TbOH-17[beta] was purchased from Sigma (Deisenhofen, Germany), and MGA from ICN. Testosterone-[d.sub.3] and MGA-[d.sub.3] were provided by RIVM RIVM Rijksinstituut voor Volksgezondheid en Milieu (Bilthoven, Netherlands). Equipment The HPLC system used for studies I, II, IV, and V included a pump module (model 420; Kontron Instruments, Neufahrn, Germany), an injector (model 210-A Valve; Beckman, Munchen, Germany), a column oven (Jetstream Plus; Beckman), a fraction collector (model Frac-100; Pharmacia, Uppsala, Sweden), and an RP-18 column (studies I, II and IV: LUNA Luna Any of a series of unmanned Soviet lunar probes, launched between 1959 and 1976, responsible for various lunar “firsts.” Luna 2 (1959) was the first spacecraft to strike the Moon; Luna 3 (1959) was the first to circle the Moon and took the first , 250 mm x 4.6 mm, 5 [micro]m, Phenomenex, Aschaffenburg, Germany; study V: NUCLEOSIL EC 150/4.6, 100-5 C18, Macherey-Nagel, Duren, Germany). For gas chromatography gas chromatography (GC) Type of chromatography with a gas mixture as the mobile phase. In a packed column, the packing or solid support (held in a tube) serves as the stationary phase (vapour-phase chromatography, or VPC) or is coated with a liquid stationary phase (study I) a GC-8000 apparatus (Fisons/Carlo-Erba, Altrincham, UK) and a DB-5 column, size 15 m x 0.25 mm, 0.25 [micro]m film thickness, (J&W Scientific, Folsom, CA, USA) were used with helium (5.0; Linde, Wiesbaden, Germany) as carrier gas. We performed liquid chromatography (study III) using a pump module (model 2248; Pharmacia) with an injector (Rheodyne, Rohnert Park, CA, USA)and an RP-18 column (NUCLEOSIL CC 125/2, 120-5 C18; Macherey-Nagel). We performed mass spectrometry (study I and III) on a Fisons/Micromass Platform II (Altrincham, UK). For enzyme immunoassay analysis (study I, II, IV and V), we used a photometer Photometer An instrument used for making measurements of light, or electromagnetic radiation, in the visible range. In general, photometers may be divided into two classifications: laboratory photometers, which are usually fixed in position and yield results (model Spectra Image) from Tecan (Crailsheim, Germany). Quantification of TbOH in Liquid Manure and Solid Dung We performed steroid extraction and purification using a method previously described for feces (18). The eluate eluate /el·u·ate/ (el´u-at) the substance separated out by, or the product of, elution or elutriation. el·u·ate n. The solution of solvent and dissolved matter resulting from elution. of the solid-phase extraction was completely dried in vacuum, and the residue was resolved in 600 [micro]L 20% methanol. We separated TbOH-17[alpha] from its metabolites TbOH-17[alpha] and TbO by HPLC on a C18 reverse-phase column. The injection volume was 500 [micro]L (of the purified extract) and the column was eluted at 25 [degrees] C with a mixture of methanol/water (65/35, v/v) at a flow rate of 1 mL/min. The fraction size was 330 [micro]L. We quantified the hormone concentration in the HPLC fractions by enzyme immunoassay following the procedure described in literature (18,19). In liquid manure and solid dung samples before storage, we calibrated cal·i·brate tr.v. cal·i·brat·ed, cal·i·brat·ing, cal·i·brates 1. To check, adjust, or determine by comparison with a standard (the graduations of a quantitative measuring instrument): the assay for the main metabolite metabolite, organic compound that is a starting material in, an intermediate in, or an end product of metabolism. Starting materials are substances, usually small and of simple structure, absorbed by the organism as food. TbOH-17[alpha]. We calculated the concentrations of TbOH-17[beta] and TbO by their cross-reaction in relation to TbOH-17[alpha] (e.g., a measured concentration of 45 pg/g TbOH-17[beta] corresponded to an actual content of 31 pg/g; the cross-reaction of TbOH-17[beta] compared to TbOH-17[alpha] was 144%). In solid dung samples after storage, we quantified TbOH-17[alpha], TbOH-17[beta], and TbO using the corresponding specific calibration curves. Quantification of TbOH in Soil Because of the dilution effect when manure or dung is spread on the fields, only low concentrations of TbOH and its metabolites could be expected in soil, and analyte enrichment had to be performed. Therefore, 50 g of soil were suspended in 25 mL water and extracted twice with 15 mL tert-butyl methyl ether (TBME TBME Transactions on Biomedical Engineering (IEEE) ) (overnight at 20 [degrees] C, using an overhead shaker). The TBME phases of both extractions were combined and completely evaporated (60 [degrees] C, shaking water bath), and the residue was resolved in 0.5 mL 80% methanol. Purification and quantification proceeded as described above. We measured the concentrations of TbOH-17[alpha] and TbOH-17[beta] using the corresponding specific calibration curves, and we determined TbO by its cross-reaction in relation to TbOH-17[beta]. Validation of TbOH Determination Validation was performed for the major metabolite TbOH-17[alpha]. We determined the limit of detection, which corresponds to the smallest measurable content of analyte, by analyzing negative samples and calculating the mean plus the 3-fold standard deviation In statistics, the average amount a number varies from the average number in a series of numbers. (statistics) standard deviation - (SD) A measure of the range of values in a set of numbers. of the resulting values. Accuracy and precision were determined as the recovery in fortified fortified (fôrt  ´fīd),adj containing additives more potent than the principal ingredient. blank samples (carried out in triplicate) and the variation coefficient of these recovery experiments, respectively (Table 1). The poor and varying recovery rates demanded internal standardization, but it was not possible to find standard substances that behaved proportionally to the analyte during extraction and purification. Therefore we had to perform external standardization by the mean recovery rates of 42, 32, or 30%, depending on the matrix. Confirmation Analysis To confirm the identity of TbOH residues, we analyzed two representative liquid manure samples with gas chromatography-mass spectrometry (GC-MS GC-MS Gas chromatography-mass spectroscopy. See there. ): one sample from the manure canal and one from the manure storage. Extraction and clean-up occurred as described above; we determined the heptafiuorobutyryl derivatives similarly to a method described elsewhere (20). From the manure sample from the canal we measured the following concentrations: 6.7 ng/g TbOH-17[alpha] and 0.20 ng/g TbOH-17[beta] with GC-MS compared to 4.1 ng/g TbOH-17[beta] and 0.18 ng/g TbOH-17[beta] with HPLC/enzyme immunoassay. In the manure sample from the storage tank, the agreement of the results was just as satisfactory: 3.1 ng/g TbOH-17[alpha] and 0.065 ng/g TbOH-17[beta] detected with GC-MS, compared to 1.6 ng/g TbOH-17[alpha] and 0.055 ng/g TbOH-17[beta] detected with HPLC/enzyme immunoassay. Interferences made us unable to determine the TbO contents with GC-MS. Quantification of Melengestrol Acetate in Feces We analyzed fecal samples from study III by liquid chromatography (LC)-MS to identify the parent compound MGA excreted in feces. After addition of 5 ng internal standard (MGA-[d.sub.3]) per gram of sample, an aliquot aliquot (al-ee-kwoh) adj. a definite fractional share, usually applied when dividing and distributing a dead person's estate or trust assets. (See: share) of 4 g feces was suspended in 6 mL water and extracted twice with 10 mL petroleum ether (PE) under gentle rotation (at 40 [degrees] C overnight and for 1 hr, respectively). The residue of the combined PE phases was resolved in 1 mL acetonitrile/water (95/5, v/v) and defatted defatted 1. fat is removed from the tissue by fat solvents. 2. deprived of fat as a food. twice with 2 mL PE. After the acetonitrile acetonitrile /ac·e·to·ni·trile/ (as?e-to-ni´tril) a colorless liquid with an etherlike odor used as an extractant, solvent, and intermediate; ingestion or inhalation yields cyanide as a metabolic product. phase was evaporated (in vacuum) and the residue was resolved in 0.5 mL 80% methanol, purification proceeded as described above. The eluate of the solid phase extraction Solid-phase extraction (SPE) is a separation process that is used to extract compounds (called analytes) from a mixture of impurities. Analytical laboratories use solid phase extraction to concentrate and purify samples for analysis. was evaporated to dryness (in vacuum) and the residue resolved in 30 [micro]L acetonitrile. For LC-MS analysis we injected 20 [micro]L of the purified steroid extract under the following conditions: Acetonitrile/water/formic acid (50/50/1, v/v/v) served as mobile phase at a flow rate of 0.6 mL/min. Retention times were 6.72 min for MGA and 6.70 min for MGA-d3. The monitored ions after electrospray ionization were 397, 438, and 337 for MGA and 400, 441, and 340 for MGA-[d.sub.3]. We identified the substances by the corresponding retention time and the relative peak area of selected ions. For quantification we calculated the area of the base peak of MGA (m/z 397) and MGA-[d.sub.3] (m/z 400) and compared their ratio to a linear calibration curve, which we obtained by measuring a range of at least five standards. Quantification of Melengestrol Acetate in Solid Dung We determined MGA in solid dung analogously to its determination in feces, but with some modifications: We extracted 3 g of solid dung; after evaporation of the combined PE extracts we redissolved the residue in 0.5 mL 80% methanol and then defatted it twice; we eluted the solid-phase extraction columns with 1.5 mL 80% methanol; the eluate was evaporated to dryness and the residue resolved in 15 [micro]L acetonitrile; injection volume for LC-MS analysis was 10 [micro]L, and flow rate was 0.3 mL/min. Validation of LC-MS Analysis Accuracy, precision, and limit of detection followed the principles described for TbOH determination. The detection limit was 0.2 ng/g (signal to noise ratio 5:1). For validation parameters, see Table 1. Quantification of MGA in Soil Analysis of soil samples focused on MGA. Only small concentrations of MGA could be expected in soil, and analyte enrichment had to be performed. Because the sensitivity of LC-MS for the determination of MGA in soil was not sufficient, we had to apply enzyme immunoassay for quantification. We extracted 50 g of soil with 30 mL methanol overnight and afterward centrifuged the sample. The supernatant supernatant /su·per·na·tant/ (-na´tant) the liquid lying above a layer of precipitated insoluble material. supernatant the liquid lying above a layer of precipitated insoluble material. was transferred to new extraction vials, diluted with water to a final concentration of 40% methanol, and extracted overnight with 15 mL PE. After the emulsion was centrifuged and frozen, the PE phase was decanted and evaporated to dryness in a shaking water bath (at 70 [degrees] C). The residue was resolved in 1 mL 80% methanol. After adding 2 mL water, we performed solid-phase extraction as described for solid dung samples. The eluate was evaporated to dryness (in vacuum) and resolved in 600 [micro]L 20% methanol. We separated MGA from interfering substances by HPLC on a C18 reverse-phase column. HPLC conditions (injection volume, mobile phase, flow rate, and column temperature) were the same as applied for analysis of TbOH samples; however, the fraction size was 250 [micro]L. The MGA content in the HPLC fractions was quantified by enzyme immunoassay (21) with a commercially available EIA-Kit (R-Biopharm, Darmstadt, Germany). Validation of MGA Determination in Soil The validation followed the principles described for TbOH determination. Table 1 shows the validation parameters. Similar to TbOH, internal standardization with structurally related steroids was not possible because all tested substances showed a different extraction effectiveness compared to MGA. For external standardization, all results were corrected by the mean recovery rate of 25%. Results TbOH Residues in liquid manure. Figure 3 shows the residues of TbOH in liquid manure during collection in the manure canal (all values were corrected by the recovery rate). In the canal the manure was heterogeneous, and two samples collected at the same date represented different areas of the canal. As expected, TbOH-17[alpha] was the dominant metabolite, followed by TbOH-17[beta] and TbO. On average, the amount of TbOH-17[alpha] was 22 and 49 times as high, respectively, as the amount of TbOH-17[beta] and TbO. [FIGURE 3 OMITTED] Previous studies with implanted calves indicated that the mean plasma concentrations of TbA were relatively constant due to a constant release of TbA from the implant (22). This correlation probably explains our observation that the measured concentrations of the three detected metabolites reflected the number of treated animals in the stable. At the beginning of the collection, the manure canal contained manure from both treated and untreated animals because the collection reservoirs were emptied only every 2 weeks. On 23 September the maximum number of hormone preparations was applied to the animals. Afterward the animals were slaughtered consecutively, so that 13 fewer treated heifers contributed to the manure on 7 October. The degradation of TbOH during 5.5 months of manure storage is illustrated in Figure 4 (all results were corrected by the recovery rate). The level of TbOH decreased from 1,700 pg/g in the beginning to 1,100 pg/g (17[alpha]-isomer) and from 160 pg/g to 100 pg/g (17[beta]-isomer). These values corresponded to a half-life of 267 and 257 days, respectively, whereas for TbO we observed no decline, possibly because of oxidation of TbOH-17[alpha] and -17[beta]. [FIGURE 4 OMITTED] The half-lives of TbOH-17[alpha] and TbOH-17[beta] were calculated according to the following formula, usually applied for radioactive decay kinetics: c(t) = c(0) x [e.sup.-[lambda]t], where t is time; c(t) is concentration at time t; c(0) is concentration at the beginning; and [lambda] is the constant of decay. Thus, the half-life is given by [t.sub.1/2] = -ln (1/2)/[lambda]. Contents in Solid Dung. As in liquid manure, TbOH-17[alpha] was the main metabolite of TbOH in solid dung. However, in 4 of 10 analyzed samples the amount of TbO exceeded that of TbOH-17[beta] (Table 2). Compared to liquid manure the TbOH contents in solid dung before storage were 5-70 times higher, depending on the position in the dung hill. TbOH was eluted with rainwater passing the dung hill and gathering at the effluent. Although TbOH was partly degraded during 4.5 months of storage, it could be detected in four of six samples (levels up to 10 ng/g TbOH-17[alpha], 0.3 ng/g TbOH-17[beta], and 0.8 ng/g TbO). The huge variation of the measured concentrations reflected the heterogeneity of the dung hill caused by erection and transportation procedures. Residues in Soil TbOH-17[alpha], TbOH-17[beta], and TbO could be detected in soil fertilized fer·til·ize v. fer·til·ized, fer·til·iz·ing, fer·til·iz·es v.tr. 1. To cause the fertilization of (an ovum, for example). 2. with liquid manure and solid dung. The dilution effect when manure and dung were spread on the fields made the maximum concentrations in soil markedly lower (Table 3). The first soil samples were taken 31 days after fertilization with fresh liquid manure in autumn. Assay of these samples indicated that TbOH residues originating from liquid manure were stable for less than a month. We confirmed this result by analyzing the soil samples fertilized in spring with stored manure. TbOH was traceable 8 days after spreading on the fields, but could not be quantified after 40 days. TbOH concentrations in soil fertilized with stored solid dung were lower than in soil fertilized with liquid manure. However, residues were detectable 58 days after fertilization. This potential greater stability might be caused by adsorption adsorption, adhesion of the molecules of liquids, gases, and dissolved substances to the surfaces of solids, as opposed to absorption, in which the molecules actually enter the absorbing medium (see adhesion and cohesion). of TbOH to straw material, which possibly protected the substances from degradation or leaching. MGA Residues in feces. The data in Table 4 demonstrate that MGA residues in feces were clearly dose dependent. Average levels during 1-, 3-, and 10-fold treatment were 2.1, 5.9, and 16.2 ng/g, respectively. The concentrations 24 hr after feeding were approximately 1.4 times higher than after 12 hr, reflecting the passage through the digestive tract digestive tract n. See alimentary canal. Digestive tract The organs that perform digestion, or changing of food into a form that can be absorbed by the body. . Contents in solid dung. The MGA amounts in solid dung before storage ranged between 260 and 7,760 pg/g. After 4.5 months of storage the concentrations still ranged between 420 and 6,030 pg/g (Table 5). In comparison with TbOH the decrease was not so clear, owing to a greater stability of MGA. But like TbOH, the varying MGA concentrations reflected the heterogeneity of the dung hill caused by erection and transportation conditions. Residues in Soil. In soil samples MGA originating from solid dung was traceable from spring until the end of the cultivation period in October (Table 3). The experimental fields were thoroughly ploughed 195 days after fertilization; thus continuation of sampling seemed inappropriate. As described for TbOH, the maximum MGA concentrations in soil were definitely lower than for solid dung because of the dilution effect when dung was spread on the fields. Discussion After the use of TbA and MGA as growth promoters, we analyzed the degradation of their residues in solid dung and liquid manure. In soil fertilized with solid dung, TbOH and MGA were traceable for 58 and 195 days, respectively. Studies I and II After excretion via feces, TbOH could be detected in liquid manure and solid dung in significant concentrations. With the help of a simplified model calculation illustrated in Table 6, we tried to estimate the recovered fraction of the total applied dose. The determined values between 3 and 42% are significant, considering the fact that in the United States, for example, presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. several tons of TbA are applied every year. In some circumstances, discussed below, the total concentration of TbOH metabolites was probably even higher. In cows the biliary excretion of TbOH predominates. Ten metabolites with 3-oxotriene-structure and three additional compounds that had lost their 3-oxotriene-structure could be identified in cow bile (9). However, our quantification system is validated and suitable only for the metabolites TbOH-17[alpha], TbOH-17[beta], and TbO. TbOH is known for its ability to bind to to contract; as, to bind one's self to a wife s>. See also: Bind biologic macromolecules Macromolecules A large molecule composed of thousands of atoms. Mentioned in: Gene Therapy macromolecules , especially proteins. Studies with radiolabeled TbA implants in heifers proved that about 90% of the total radioactivity could not be extracted with commonly used organic solvents and either was water-soluble or an insoluble tissue-bound residue (24). If TbOH residues are also bound to fecal compounds, the extraction and measuring methods we applied in our studies underestimated the actual concentrations in liquid manure and solid dung. Studies on the stability of TbOH in bovine urine showed that storage of urine samples in direct sunlight led to decreased TbOH concentrations (25). Storage of feces samples at room temperature in some cases caused partial or complete loss of the TbOH-17[alpha] content (26). Throughout our experiments, dung hills, the manure collection canal, and storage pit were neither cooled nor protected from sunlight. Because other steroid hormones (e.g., estrone estrone /es·trone/ (es´tron) an estrogen isolated from pregnancy urine, human placenta, palm kernel oil, and other sources, also prepared synthetically; for properties and uses, see estrogen. ) can be catabolized by microorganisms (27), microbial degradation of TbOH is conceivable as well. However, knowledge of microbial metabolism of steroids is still scarce. In an in vitro in vitro /in vi·tro/ (in ve´tro) [L.] within a glass; observable in a test tube; in an artificial environment. in vi·tro adj. In an artificial environment outside a living organism. study performed with Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. and Clostridium perfringens Clostridium per·frin·gens or Clostridium welchii n. Gas bacillus. Clostridium perfringens Infectious disease An anaerobic gram-positive spore-forming rod, widely distributed in nature and present in the as representative intestinal microorganisms, no specific effect on the concentration of the hormone 4-pregnene-20[beta]-ol-3-one was observed (28). Finally, the actual amount of metabolites may have been higher because small amounts of TbOH were eluted with rainwater passing over the dung hill, and the adsorption of TbOH to straw material cannot be excluded. Previous studies performed by Haase et al. (29) and Rumsey et al. (30) demonstrated that synthetic hormones (namely, diethylstilbestrol diethylstilbestrol: see DES. ) were stable in liquid manure stored under anaerobic conditions. Similarly, degradation of TbOH occurred rather slowly. Its half-life in liquid manure without ventilation was approximately 260 days. In a dung hill erected with excrement from pregnant heifers and stored for several months, estrogen concentrations up to 780 ng/g were measured (31). In this study, however, more degradation was observed in the anaerobic lower layers of the dung hill. Study III As for TbOH, we attempted to evaluate the recovered fraction of the total applied dose of MGA using a simplified model (Table 7). The calculated excretion rate via feces (12%) confirmed preceding observations that about 15% of the daily administered dose passed through the gastrointestinal tract gastrointestinal tract n. The part of the digestive system consisting of the stomach, small intestine, and large intestine. Gastrointestinal tract unabsorbed. Bile cannulation can·nu·la·tion or can·nu·li·za·tion n. Insertion of a cannula. cannulation introduction of a cannula into a tubelike organ or body cavity. studies showed that the primary route of excretion from the body was via the bile. However, the metabolic fate of MGA in heifers has not been investigated in detail until now. Although MGA was primarily excreted unmodified, several metabolites were found in the non-MGA fraction in liver (11). At least three of them are hormonally active substances; they exhibited binding affinities to the bovine uterine progestin receptor (bPR) between 28 and 85% in comparison to progesterone (10). Because our measurement method was specific only for the parent compound, our results cannot give a complete picture concerning the actual total residues. Microbial degradation and adsorption to straw might also have contributed to a reduced recovery of the parent substance in relation to the total applied dose. Studies IV and V TbOH and MGA originating from contaminated excrement were detectable in soil up to several months after fertilization. From our field experiments we cannot deduce the mechanisms of how these hormones disappear from soil, but it is known that steroids can interact with humic substances and form stable products (32). By comparing to the behavior of other well-known agricultural or industrial soil pollutants, we can speculate on the fate of TbOH and MGA. They can be degraded by soil bacteria and/or photochemical reactions (UV light). Rain might wash the substances into lower soil horizons or directly into surface water without passing the soil column. Both processes might be promoted by dissolved organic matter that can bind the steroids and enhance their solubility and mobility in the aqueous phase aqueous phase n. The water portion of a system consisting of two liquid phases, one that is primarily water and a second that is a liquid immiscible with water. . Strong adsorption of hydrophobic hydrophobic /hy·dro·pho·bic/ (-fo´bik) 1. pertaining to hydrophobia (rabies). 2. not readily absorbing water, or being adversely affected by water. 3. compounds to soil particles is well documented for many agricultural and industrial chemicals. Thus, persistent organic chemicals accumulate, whereas weaker adsorption might result in transposition transposition /trans·po·si·tion/ (trans?po-zish´un) 1. displacement of a viscus to the opposite side. 2. to ground and surface water. Big hydrophobic molecules are generally more strongly adsorbed than small hydrophilic hydrophilic /hy·dro·phil·ic/ (-fil´ik) readily absorbing moisture; hygroscopic; having strongly polar groups that readily interact with water. hy·dro·phil·ic adj. molecules (33,34). In conclusion, research on the stability and degradation of sex hormones should be a crucial element of an environmental risk evaluation.
Table 1. Determination of TbOH-17 [alpha] and MGA: validation
parameters.
Liquid
manure Solid dung
TbOH-17 TbOH-17
[alpha] [alpha]
Parameter (a) (a) MGA (b)
Detection limit
(pg/g) 4 5 200
Spikes (pg/g) 100/450/ 1,000/ 5,000 (d)
1,800 (c) 4,750/
18,500
(c)
Mean recovery
(%) 42 (f) 32 (f) 102.6 (g)
Mean precision
(%) 30 10 2.8
Soil Feces
TbOH-17
Parameter [alpha] (a) MGA (a) MGA (b)
Detection limit
(pg/g) 0.4 0.2 200
Spikes (pg/g) 3/45/ 4/20/40 (e) 1,000/5,000/
240 (c) 10,000 (c)
Mean recovery
(%) 30 (f) 25 (f) 100.8 (g)
Mean precision
(%) 12 12 5
(a) Performed with enzyme immunoassay.
(b) LC-MS analysis.
(c) Performed intriplicate.
(d) Performed inquintuplicate.
(e) Performed inquadruplicate.
(f) Not corrected by standardization.
(g) Corrected by internal standar dization.
Table 2. Residues of trenbolone in solid dung before and after storage.
TbO
Sample TbOH-17[alpha] TbOH-17[beta] (pg/g)
(position within dung hill) (pg/g) (a) (pg/g) (a) (a)
Solid dung before storage
Fresh (~1 m below top) 13,820 1,000 1,225
Medium (height 2.5 m) 75,400 4,265 4,700
Old (height 0.5 m) 4,726 484 405
Effluent 227 19 10
Solid dung before spreading
on the fields
Top of hill (n = 2) ND/ND 11/ND ND/ND
Middle of hill (n = 2) 10,100/ND 292/ND 824/ND
Bottom of hill (n = 2) 100/318 60/14 70/ND
ND, not detectable (below limit of detection).
(a) Values were corrected by the recovery rate.
Table 3. Residues of trenbolone and MGA in soil.
Sample
(days after TbOH-17[alpha] TbOH-17[beta]
fertilization) (pg/g) (a) (pg/g) (a)
Soil fertilized in autumn
with fresh liquid manure
31 days ND ND
Soil fertilized in spring
with stored liquid manure
A-B (b) (1) (c) 248/164 8.1/5.1
C-E (8) (d) 11/8.6/48 ND/ND/2.4
F (40) ND ND
Soil fertilized in spring
with stored solid dung
A-C (26) (d) 5.8/3.3/11 0.7/0.4/1.0
D-F (58) (d) 3.4/1.2/ND 1.0/0.5/ND
G-I (93) (d) ND ND
J-L (159) (d) -- --
M-O (194) (d) -- --
Sample
(days after TbO MGA
fertilization) (pg/g) (a) (pg/g) (a)
Soil fertilized in autumn
with fresh liquid manure
31 days ND --
Soil fertilized in spring
with stored liquid manure
A-B (b) (1) (c) 21/18 --
C-E (8) (d) 2.2/1.0/15 --
F (40) ND --
Soil fertilized in spring
with stored solid dung
A-C (26) (d) 2.6/1.3/4.1 34/11/17
D-F (58) (d) 1.2/0.9/ND 1.5/1.4/3.8
G-I (93) (d) ND 1.7/4.9/7.3
J-L (159) (d) -- 0.6/ND/0.5
M-O (194) (d) -- 2.4/ND/6.2
ND, not detectable (below limit of detection).
(a) Values were corrected by the recovery rate.
(b) Capital letters represent samples taken from different
locations of the same field.
(c) n = 2.
(d) n = 3.
Table 4. Residues of MGA in feces (mean [+ or -] SD).
MGA (ng/g) (a) MGA (ng/g) (a)
Treatment 24 hr after feeding 12 hr after feeding
Control (n = 2) ND ND
1-fold dose (b)
(n = 2) 2.5 [+ or -] 0.2 1.6 [+ or -] 0.1
3-fold dose (n = 2) 6.5 [+ or -] 0.1 5.3 [+ or -] 0.6
10-fold dose (n = 2) 18.5 [+ or -] 0.1 13.8 [+ or -] 1.8
ND, not detectable (below limit of detection).
(a) Values were corrected by internal standardization.
(b) 1-fold dose = 0.5 mg/day.
Table 5. Residues of MGA in solid dung samples before and after storage
Sample MGA
(position within dung hill) (pg/g) (a)
Solid dung before storage
Top (n = 4) 380/658/3,419/731
Higher middle (n = 4) 260/4,200/5,104/3,037
Lower middle (n = 4) 7,760/417/1,351/741
Bottom (n = 3) 6,524/2,619/4,076
Solid dung before spreading on the fields
Upper level (n = 2) 3,470/1,600
Middle level (n = 2) 374/6,028
Lower level (n = 2) 421/1,493
(a) Values were corrected by internal standardization.
Table 6. Model calculation for the recovered fraction of trenbolone
in liquid manure and solid dung.
Liquid manure Solid dung
Total amount of applied TbA 3,340 mg 5,600 mg
TbA remaining in implantation
sites (a) 1,000 mg 1,400 mg
TbA equivalents excreted 2,340 mg 4,200 mg
Trenbolone excreted 2,025 mg 3,635 mg
TbOH concentration (b) 1,700 pg/g (c) 4,730 (d)/75,400
(e) pg/g
Total amount of excrement 100 tons 20 tons
Total trenbolone 170 mg 95/1,510 mg
Estimated recovery 8% 3/42%
(a) Data from a study based on the same animal experiments (23).
(b) Values refer to TbOH-17[alpha].
(c) Concentration at the beginning of storage.
(d) Minimum concentration before storage.
(e) Maximum concentration before storage.
Table 7. Model calculation for the recovered fraction of MGA
in feces and solid dung.
Recovered fraction
Feces
Daily administered dose of MGA 0.5 mg/cow (1-fold treatment)
MGA concentration in feces (a) 2 ng/g
Estimated production of feces per cow 30 kg/day
MGA excreted per cow 60 [micro]g/day
Excretion rate via feces 12%
Solid dung
Total amount of applied MGA 840 mg
MGA concentration 260 (b)/7,760 (c) pg/g
Total amount of excrement 20 tons
Total MGA 5/155 mg
Estimated recovery 0.6/18%
(a) Average level during 1-fold treatment.
(b) Minimum concentration before storage.
(c) Maximum concentration before storage.
REFERENCES AND NOTES (1.) Shore LS, Shemesh M, Cohen cohen or kohen (Hebrew: “priest”) Jewish priest descended from Zadok (a descendant of Aaron), priest at the First Temple of Jerusalem. The biblical priesthood was hereditary and male. R. The role of oestradiol Noun 1. oestradiol - the most powerful female hormone that occurs naturally; synthesized and used to treat estrogen deficiency and breast cancer estradiol Loestrin - trade name for an oral contraceptive containing estradiol and norethindrone and oestrone oestrone see estrone. in chicken manure silage silage (sī`lĭj) or ensilage (ĕn`səlĭj), succulent, moist feed made by storing a green crop in a silo. The crop most used for silage is corn; others are sorghum, sunflowers, legumes, and grass. in hyperoestrogenism in cattle. Aust Vet J 65:68 (1988). (2.) Ternes TA, Stumpf M, Mueller J, Haberer K, Wilken R-D R-D Rate Distortion , Servos M. Behavior and occurrence of estrogens in municipal sewage treatment plants. I. Investigations in Germany, Canada and Brazil. Sci Total Environ 225:81-90 (1999). (3.) Purdom CE, Hardiman PA, Bye VJ, Eno NC, Tyler CR, Sumpter JP. Estrogenic effects of effluents from sewage treatment works. Chem Ecol 8:275-285 (1994). (4.) Tabak HH, Bloomhuff RN, Bunch RL. Steroid hormones as water pollutants. II. Studies on the persistence and stability of natural urinary and synthetic ovulation-inhibiting hormones in untreated and treated wastewaters. Dev Ind Microbiol 22:497-519 (1981). (5.) Tabak HH, Bunch RL. Steroid hormones as water pollutants. Dev Ind Microbiol 11:367-376 (1970). (6.) Neumann F. Pharmacological and Endocrinological Studies on Anabolic Agents. In: Anabolic Agents in Animal Production (Lu FC, Rendel J, eds). Stuttgart:Georg Thieme Publishers, 1976;253-264. (7.) Meyer HHD (Hybrid Hard Drive) See hybrid drive. , Rapp M. Reversible binding of the anabolic steroid anabolic steroid (ăn'əbŏl`ĭk stĕr`oid, stĭr`–) or androgenic steroid (ăn'drōjĕn`ĭk) trenbolone to steroid receptors. Acta Endocrinol 108(suppl 267):t29 (1965). (8.) Danhaive PA, Rousseau GG. Binding of glucocorticoid antagonists to androgen androgen (ăn`drəjən): see testosterone. androgen Any of a group of hormones that mainly influence the development of the male reproductive system. and glucocorticoid hormone receptors in rat skeletal muscle. J Steroid Biochem 24:481-487 (1986). (9.) Pottier J, Cousty C. Differences in the biotransformation biotransformation /bio·trans·for·ma·tion/ (-trans?for-ma´shun) the series of chemical alterations of a compound (e.g., a drug) occurring within the body, as by enzymatic activity. of a 17[alpha]-hydroxylated steroid, trenbolone acetate, in rat and cow. Xenobiotica 11:489-500 (1981). (10.) Bauer ERS ERS, n.pr See extended rotated side-bent. , Daxenberger A, Petri T, Sauerwein H, Meyer HHD. Characterisation of the affinity of different anabolics and synthetic hormones to the human androgen receptor, human sex hormone binding globulin Sex hormone-binding globulin (SHBG) is a glycoprotein that binds to sex hormones, specifically testosterone and estradiol. Other steroid hormones such as progesterone, cortisol, and other corticosteroids are bound by transcortin. and the bovine gestagen receptor. APMIS APMIS Acta Pathologica, Microbiologica et Immunologica Scandinavica APMIS Automated Project Management Information System APMIS Automated Project Management System 108:838-846 (2000). (11.) Lauderdale JW, Goyings LS, Krzeminski LF, Zimbelman RG. Studies of a progestogen progestogen /pro·ges·to·gen/ (-jes´tah-jen) progestational agent. pro·ges·to·gen n. Any of various substances having progestational effects; a progestin. (MGA) as related to residues and human consumption. J Toxicol Environ Health 3:5-33 (1977). (12.) Patterson DJ, Kiracofe GH, Stevenson JS, Corah LR. Control of the bovine estrous cycle estrous cycle n. The recurrent set of physiological and behavioral changes that take place from one period of estrus to another. with melengestrol acetate (MGA): a review. J Anim Sci 67:1895-1906 (1989). (13.) Lauderdale JW. Use of MGA[R] (melengestrol acetate) in animal production. In: Proceedings of the Symposium on Anabolics in Animal Production: Public Health Aspects, Analytical Methods, and Regulation (Meissonnier E, Mitchell-Vigneron J, eds), 15-17 February 1983, Paris, France. Paris:Office International des Epizooties, 1983;193-212. (14.) Duncan GW, Lyster SC, Hendrix JW, Clark JJ, Webster HD. Biological effects of melengestrol acetate. Fertil Steril 15:419-432 (1964). (15.) Hageleit M, Daxenberger A, Kraetzl W-D, Kettler A, Meyer HHD. Dose-dependent effects of melengestrol acetate (MGA) on plasma levels of estradiol, progesterone and luteinizing hormone lu·te·in·iz·ing hormone n. Abbr. LH A hormone produced by the anterior lobe of the pituitary gland that stimulates ovulation and the development of the corpus luteum in the female and the production of testosterone by the interstitial in cycling heifers and influences on oestrogen oes·tro·gen n. Variant of estrogen. oestrogen see estrogen. residues in edible tissues. APMIS 108:847-854 (2000). (16.) Food and Agriculture Organization of the United Nations Noun 1. Food and Agriculture Organization of the United Nations - the United Nations agency concerned with the international organization of food and agriculture FAO, Food and Agriculture Organization . Hormones in animal production. FAO FAO, n See Food and Agriculture Organization. Animal Production and Health Paper 31. Rome:United Nations Food and Agriculture Organization, 1982. (17.) Institute of Laboratory Animal Resources. Guide for the Care and Use of Laboratory Animals. Washington, DC:National Academy Press, 1980. (18.) Meyer HHD, Hoffmann S. Development of a sensitive microtitration plate enzyme-immunoassay for the anabolic steroid trenbolone. Food Addit Contam 4:149-160 (1987). (19.) Meyer HHD. Enzymimmunologische Me[beta]verfahren zur Hormonanalytik. Stuttgart:Ferdinand Enke Verlag, 1989. (20.) Daeseleire E, de Guesdquiere A, van Peteghem C. Derivatisation and gas chromatographic-mass spectrometric detection of anabolic steroid residues isolated from edible muscle tissues. J Chromatogr 562:673-679 (1991). (21.) Hageleit M, Daxenberger A, Meyer HHD. A sensitive enzyme immunoassay (EIA (Electronic Industries Alliance, Arlington, VA, www.eia.org) A membership organization founded in 1924 as the Radio Manufacturing Association. It sets standards for consumer products and electronic components. ) for the determination of melengestrol acetate (MGA) in adipose adipose /ad·i·pose/ (ad´i-pos) 1. fatty. 2. the fat present in the cells of adipose tissue. ad·i·pose adj. Of, relating to, or composed of animal fat; fatty. and muscle tissues. Food Addit Contain 18:285-291 (2001). (22.) Evrad P, Maghuin-Rogister G, Rico AG. Fate and residues of trenbolone acetate in edible tissues from sheep and calves implanted with tritium-labeled trenbolone acetate. J Anita Sci 67:1489-1496 (1989). (23.) Daxenberger A, Lange IG, Meyer K, Meyer HHO HHO Hava Harp Okulu (Turkish Air Force Academy) HHO Hard HO (Handover) (telecommunications) HHO Hard Hand Off HHO Home and Home Office . Detection of anabolic residues in misplaced mis·place tr.v. mis·placed, mis·plac·ing, mis·plac·es 1. a. To put into a wrong place: misplace punctuation in a sentence. b. implantation sites in cattle. J Assoc Off Anal Chem 83:809-819 (2000). (24.) Ryan JJ, Hoffmann B. Trenbolone acetate: experience with bound residues in cattle tissues. J Assoc Off Anal Chem 61:1274-1279 (1978). (25.) van der Merwe PJ, Pieterse JW. Stability of zeranol, nandrolone nandrolone /nan·dro·lone/ (nan´dro-lon) an anabolic steroid with lesser androgenic effects; used as n. decanoate and n. and trenbolone in bovine urine. Analyst 119:2651-2653 (1994). (26.) Vogt K. Radioimmunologische Bestimmung von Trenbolon in Urin, Galle und Kot von Mastkalbern nach subkutaner Implantation von Revalor[R]. Arch Lebensmittelhyg 35:27-32 (1984). (27.) Groh H, Schade K, Horhold-Schubert C. Steroid metabolism with intestinal microorganisms. J Basic Microbiol 33:59-72 (1993). (28.) Schlenker G, Muller W, Glatzel P, Birkelbach C. Experimentelle Untersuchungen zum Einflu[beta] von Escherichia coli und Clostridium perfringens auf das Steroid 4-Pregnen-20[beta]-ol-3-on. Berl Munch Tierarztl Wschr 111:418-421 (1998). (29.) Haase E, Agthe O, Megnet R. Uber den Abbau von Diethylstilbestrol (DES) in Kalbergulle. Dtsch tierarztl Wschr 89:477-479 (1982). (30.) Rumsey TS, Miller RW, Dinius DA. Residue content of beef feedlot manure after feeding diethylstilbestrol, chlortetracycline chlortetracycline /chlor·tet·ra·cy·cline/ (-tet-rah-si´klen) a broad-spectrum antibiotic obtained from Streptomyces aureofaciens; used as the hydrochloride salt. and ronnel ronnel see fenchlorphos. and the use of stirofos to reduce population of fly larvae Larvae, in Roman religion Larvae: see lemures. in feedlot manure. Arch Environ Contam Toxicol 6:203-212 (1977). (31.) Mostl E, Dobretsberger A, Palme Pal·me , Olaf 1927-1986. Swedish politician. As premier (1969-1976 and 1982-1986) he was widely respected for his efforts toward peace and disarmament. Palme was assassinated in 1986. R. Ostrogenkonzentration im Stallmist trachtiger Rinder. Wien Tierarztl Mschr 84:140-143 (1997). (32.) Ziechmann W, Muller-Wegener U. Bodenchemie. Mannheim:BI-Wissenschaftsverlag, 1990. (33.) Scheffer F, Schachtschnabel P. Lehrbuch der Bodenkunde. Stuttgart:Ferdinand Enke Verlag, 1998. (34.) Blume H-P. Handbuch des Bodenschutzes. Landsberg/ Lech Lech (lĕkh), river, c.175 mi (280 km) long, rising in Vorarlberg, W Austria, and flowing NE into S Germany past Augsburg to the Danube River. The Wertach River is its chief tributary. :ecomed verlagsgesellschaft, 1992. Bettina Schiffer, (1) Andreas Daxenberger, (1) Karsten Meyer, (2) and Heinrich H.D. Meyer (1) (1) Institute of Physiology and (2) Institute of Animal Hygiene, TU Munchen-Weihenstephan, Freising-Weihenstephan, Germany Address correspondence to B. Schiffer, Institute of Physiology, TU Munchen-Weihenstephan, Weihenstephaner Berg 3, D-85354 Freising-Weihenstephan, Germany. Telephone: + 49 8161 715546. Fax: + 49 8161 714204. E-mail: schiffer@ weihenstephan.de These studies were financially supported by the European Union European Union (EU), name given since the ratification (Nov., 1993) of the Treaty of European Union, or Maastricht Treaty, to the European Community . Received 28 December 2000; accepted 19 April 2001. |
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