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JournalofChromatographyB,829(2005)56–68 Detection, quantification and confirmation of anabolic steroids in equine plasma by liquid chromatography and tandem mass spectrometry Fuyu Guana, Cornelius E. Uboha,b,∗, Lawrence R. Somaa, Yi Luoa, Jeffery Rudyb, Thomas Tobinc aUniversityofPennsylvania,SchoolofVeterinaryMedicine,DepartmentofClinicalStudies,NewBoltonCenterCampus, 382WestStreetRoad,KennettSquare,PA19348,USA bPAEquineToxicologyandResearchCenter,DepartmentofChemistry,WestChesterUniversity, 220EastRosedaleAvenue,WestChester,PA19382,USA cMaxwellH.GluckEquineResearchCenterandDepartmentofVeterinaryScience, UniversityofKentucky,Lexington,KY40546,USA Received5August2005;accepted23September2005 Availableonline10November2005 Abstract Anabolicandrogenicsteroidsarerelatedtothemalesexhormonesandareabusedinequinesports.Inanefforttodetertheabuseofanabolic steroids,asensitiveLC–MS/MSmethodwasdevelopedfordetection,quantificationandconfirmationofeightmajoranabolicsteroids(testosterone, normethandrolone,nandrolone,boldenone,methandrostenolone,tetrahydrogestrinone(THG),trenbolone,andstanozolol)inequineplasma.For- mationofsolventadductionsoftheanalyteswasobservedunderelectrosprayionization(ESI)conditions,anddesolvationofthesolventadductions bysourcecollision-induceddecomposition(CID)increasedtheabundanceofthe[M+H]+ionsaswellasthemultiple-reactionmonitoring(MRM) signals.ESI(+)andAPCI(+)werecomparedwithrespecttosensitivityfortheanalytesandtheformerprovidedbettersensitivity.Thematrix effectonionsuppressionorenhancementwasevaluated,andwasnegligible.Confirmationoftheanalyteswasperformedusingcriteriaofthreeion transitionsandLCretentiontimeofeachanalyte.Thelimitofdetection(LOD)andquantification(LOQ)was25pg/mL.Thelimitofconfirmation (LOC)was25pg/mLforboldenone;50pg/mLfornormethandrolone,nandrolone,andmethandrostenolone;and100pg/mLfortestosterone,THG, trenbolone,andstanozolol.Theanalyteswereevaluatedforstabilityandfoundtobestableinplasmafor24hatroomtemperature,13daysat 4◦C,and34daysat−20and−70◦C.Themethodwassuccessfullyappliedtoanalysesofequineplasmasamplesforpharmacokineticsstudy. Thismethodissensitiveandusefulfordetection,quantificationandconfirmationoftheseanabolicsteroidsinequineplasma. ©2005ElsevierB.V.Allrightsreserved. Keywords: Anabolicsteroid;LC–MS;Plasma;Horse;Dopingcontrol;THG;Testosterone;Boldenone 1. Introduction bythelatestreportsonsteroidabuse[5,6]andtherecentdiscov- eryof“designer”steroids,tetrahydrogestrinone(THG)[7]and Anabolicandrogenicsteroidsaresyntheticsubstancesrelated norbolethone [8]. The use of these agents in sports is prohib- to the male sex hormones (androgens). These agents promote itedbytheInternationalOlympicCommitteeviaitsanti-doping growthofskeletalmuscle(anaboliceffects)anddevelopmentof arm,theWorldAnti-DopingAgency[9].Theyarealsoprohib- malesexualcharacteristics(androgeniceffects).Theyareused ited in the horseracing industry by the Association of Racing intreatingdelayedpuberty,selectimpotence,andwastingofthe Commissioners International [10]. To enforce the prohibition bodycausedbysomediseases[1].However,anabolicsteroids onanabolicsteroidabuse,effectivemonitoring,detection,iden- canbeabusedinhumanandanimalsports[2–4],asevidenced tificationandconfirmationmethodsarerequired.Forscreening andconfirmationofanabolicsteroids,GC–MSisthetechnique commonlyusedfortheanalysisofurinesamplesbyanti-doping ∗ Correspondingauthor.Tel.:+16104363501;fax:+16104363504. oranalyticaltoxicologylaboratories[8,11–15]. E-mailaddress:[email protected](C.E.Uboh). 1570-0232/$–seefrontmatter©2005ElsevierB.V.Allrightsreserved. doi:10.1016/j.jchromb.2005.09.045 F.Guanetal./J.Chromatogr.B829(2005)56–68 57 Fig.1. Chemicalstructuresofnineanabolicsteroidsusedinthestudy. With the advance of LC–MS technology, the emphasis has Stock solution (1.0mg/mL) of all the steroids, and shifted in favor of this new technology. There are reports of methenolone(internalstandard)wasindividuallypreparedfrom LC–MS methods for quantitative determination of anabolic drychemicalpowderofeachanalytestandardbydissolvingin ◦ steroids such as testosterone, nandrolone, and trenbolone in methanol,andstoredat4 C.Anintermediatesolutionofmix- humanorbovineplasmaorserum[16–19],inbovineorequineor ture of the eight analytes each at 10(cid:1)g/mL was prepared by humanurine[20–28]andinhumansaliva[29–31].Toourknowl- adding 50(cid:1)L of each stock solution (1.0mg/mL) to 4600(cid:1)L edge,thereisnoreportonLC–MSmethodsforqualitativeand ofmethanolina7mLvial.Workingsolutionsoftheeightana- quantitativedeterminationofanabolicsteroidsinequineplasma. lytes mixed at 100, 10 and 1.0ng/mL were prepared from the ThepurposeofthispaperwastodevelopasensitiveLC–MS/MS intermediate mixture solution of the analytes by dilution with ◦ methodforscreening,quantificationandconfirmationofeight methanol,andstoredat4 C. major anabolic steroids (testosterone, normethandrolone, nan- Stockformatebuffercomprising1.0mol/mLofammonium drolone,boldenone,methandrostenolone,tetrahydrogestrinone formateand1.0mol/mLofformicacidwaspreparedfromthe (THG), trenbolone, and stanozolol, the chemical structures of drychemicalpowderandconcentratedformicacid,andthepHof whichareshowninFig.1)inequineplasma.Theseagentswere thebufferwas3.4.Workingformatebuffersolutioncontaining chosenforthisstudybasedontheirpotentialforabuseinrace- 2mmol/L of ammonium formate and formic acid, used as LC horses. mobilephase,waspreparedbydilutingthestockformatebuffer withHPLCgradewater. 2. Experimental 2.2. Drugadministrationandsamplecollection 2.1. Chemicalsandreagents Female and castrated male horses ranging in age from 4 to All the steroids in this study, except THG, were purchased 10 years with an average weight of 550±49kg were used in fromSteraloids(Newport,RhodeIsland,USA).THGwassyn- thestudy.TheUniversityofPennsylvaniaInstitutionalAnimal thesized at the Maxwell H. Gluck Equine Research Center, CareandUseCommitteeapprovedthestudyprotocol.Asingle UniversityofKentucky,Lexington,USA[32].Ammoniumfor- dose(1.1mg/kg)ofboldenoneundecylenate(FortDodge,Madi- mate (Certified), HPLC grade methanol and water and methyl son,NJ,USA)wasintramuscularlyadministeredtoeachofsix tert-butyl ether (MTBE) were obtained from Fisher Scientific horses.Bloodsampleswerecollectedbeforedrugadministration (Pittsburgh, Pennsylvania, USA). Formic acid was purchased andatvariousintervalspost-drugadministration.Thesamples fromEMScience(Gibbstown,NewJersey,USA). werecentrifuged(2500–3000rpmor776–1318×g)at4◦Cfor 58 F.Guanetal./J.Chromatogr.B829(2005)56–68 15mintoobtainplasma.Theplasmasamplesweretransferred tures (25, 4, −20 and −70◦C) for evaluation of stability of intoseparatetubes,frozenandstoredat−70◦Cpendinganal- theanalytes.Thesetemperatureswerechosenbasedonsample ysis. A single dose (1.1mg/kg) of nandrolone decanoate (Fort collection,handling,shipmentandstorageconditionstowhich Dodge, Madison, NJ, USA) was intramuscularly administered the samples could be exposed before and after receipt at the to a horse, and plasma samples were collected and similarly laboratory.Toassessstabilityoftheanalytesatambienttemper- ◦ treated. THG (15mg) was intramuscularly administered to a ature (25 C), the plasma samples in test tubes were allowed horse(539kg),andplasmasampleswerecollectedandtreated to remain on benchtop for 2, 4, 6 and 24h, spiked with IS asdescribedabove. (1000pg), extracted, and analyzed. For assessment of the sta- bilityatothertemperatures,theplasmasamplescontainingthe 2.3. Preparationofplasmasamples analyteswerestoredat4◦Cfor13days,andat−20and−70◦C for34days,thawed,broughttoambienttemperature,spikedwith Control equine plasma used in this study was collected IS(1000pg),extracted,andanalyzedatdifferenttimeintervals. from drug-free mares, and was determined to be free of the Themeanconcentrationofeachanalytefromtriplicatesamples analytes, using the same LC–MS/MRM method described in ateachtemperatureandtimepointwasdetermined. this paper. Plasma calibrators for internal calibration quan- tification were prepared by spiking plasma aliquots of 1mL 2.7. Instrumentationandoperatingparameters each with the working solutions of the mixed eight analytes and the internal standard, containing each analyte at 25, 50, SampleanalyseswereperformedbyLC–MS(ThermoElec- 100, 250, 500, 1000, 2500, 5000 and 10,000pg/mL, and IS at tron Corp., San Jose, CA, USA) consisting of a Surveyor LC 1000pg/mL. Plasma calibrators were freshly prepared shortly pump with an on-line degasser, a Surveyor autosampler, and beforeuse.Qualitycontrol(QC)plasmasamples(1.0mL)con- a TSQ Quantum triple stage quadrupole mass spectrometer tainingISat1000pg/mLandtheeightanalytes,eachat50,500 equippedwithanelectrosprayionization(ESI)sourceoperated and5000pg/mL,weresimilarlyprepared.Testplasmasamples inpositiveionmode. (1.0mL) from drug administration or racehorses were spiked LC separations were performed on an Ace C column 8 withIS(1000pg). (2.1mm×50mm,5(cid:1)m)(Mac-ModAnalytical,ChaddsFord, PA, USA) with an Ace C guard column (2.1mm×12.5mm) 8 2.4. Extractionoftheanalytesfromplasmasamples (Mac-Mod Analytical) that was at ambient temperature. LC mobile phase gradient in both composition and flow rate Analyteswereextractedfromplasmabyliquid–liquidextrac- (Table1)wasusedforresolutionoftheanalytes. tion (LLE). To each of the prepared plasma samples, MTBE TSQQuantummassspectrometerwascalibratedwithasolu- (5mL)wasaddedandgentlymixedbyrotorack(Thermolyne, tion of polytyrosine-1,3,6 according to the manufacturer. The Dubuque, Iowa) for 5min and centrifuged at ∼3000rpm ESIsourceparameterswereoptimizedfornandroloneatLCflow (∼1409×g) for 5min. The organic layer (top) was decanted of300(cid:1)L/minbasedonpreliminaryresultsindicatingthatnan- into a fresh glass tube (16mm×100mm) and dried at 50◦C drolonewastheanalyteforwhichthemethodhadthelowestsen- (Techne Dri-Block DB·3, Duxford, Cambridge, UK) under a sitivity.Theoptimizedsourceparameterswereasfollows:sheath steady stream of nitrogen. The dried extract was reconstituted gaspressure,45psi;auxiliarygasflow,23(arbitraryunits);spray in100(cid:1)Lof60%methanolinformatebuffer(2mmol/mL,pH voltage,4500V;capillarytemperature,300◦C;tubelensoffset, 3.4)anda20(cid:1)LaliquotwasanalyzedbyLC–MS. 178V;andsourcecollision-induceddecomposition(CID),20V. For quantification, the mass spectrometer was set to the data 2.5. Intra-andinter-dayprecisionandaccuracy acquisitionmodeofmultiple-reactionmonitoring(MRM),and thespecifiedacquisitionparametersareshowninTable2.The Forevaluationofintra-dayprecisionandaccuracy,threesets acquisitionparameterscommontoallanalyteswere:scanwidth ofsixduplicateplasmasamplescontainingIS(1000pg/mL)and (m/z)0.70,scantime0.4s,peakwidth(FWHM)0.7forbothQ1 theeightanalytesatthelow(50pg/mL),medium(500pg/mL) andQ3,andcollisiongaspressure1.5mTorr.Dataacquisition andhigh(5000pg/mL)concentrationswereprepared,extracted, and analyzed on the same day. As for inter-day precision and Table1 accuracy,threesetsoftwoduplicateplasmasamplescontaining LCmobilephasegradientincompositionandflowrate IS(1000pg/mL)andtheeightanalytesatthesamelow,medium LCruntime Formate Methanol Flow rate andhighconcentrationswereprepared,extracted,andanalyzed (min) buffera(%) (%) ((cid:1)L/min) perdayfor3days(sixsamplesintotalforeachconcentration). 0 40 60 300 4.0 40 60 300 2.6. Evaluationofstabilityoftheanabolicsteroidsin 8.0 10 90 300 equineplasma 8.1 40 60 300 8.2 40 60 400 The eight anabolic steroids in equine plasma (1.0mL) at 10.4 40 60 400 10.5 40 60 300 threedifferentconcentrationsof50,500and5000pg/mLwere prepared as described above, and stored at different tempera- a Ammoniumformate,2mM,pH3.4. F.Guanetal./J.Chromatogr.B829(2005)56–68 59 5) 21, and analysis were accomplished with Xcalibur software v.1.3 ol 29(3 29,1 (ThermoElectronCorp.,SanJose,CA,USA). Stanozol 7.89→3293 →3293107(40) 3. Resultsanddiscussion 3.1. ESI(+)MSspectraandsolventadductions 5) 41, 1 2 1( 6, Intheearlyphaseofthemethoddevelopment,sevenanabolic 4 6 →2 →215) steroids were studied with flow injection into the LC with a THG 6.93313 313239( flow of 300(cid:1)L/min of methanol/HCOONH4 (2mmol/L, pH 3.4) (60/40, v/v). Testosterone (Fig. 2a), normethandrolone 7 (Fig. 2b), and nandrolone (Fig. 2c) formed [M+H]+ ions at 8 1 m/z 289, 289 and 275, respectively, as well as solvent adduct → IS 6.00303(15) Iionncso[nMtra+sHt,b+oCldHe3nOonHe]+(Fwigit.h2md)e,thmaentohlaantdmro/szt3e2n1o,lo3n2e1(aFnidg.320e7). 3 and stanozolol (Fig. 2g) formed abundant [M+H]+ ions at handrolone 213(18) 253,231,21 (imoF/nizgs.2[8M27f),+3fHo0r1+mCaendHd3dO3o2mH9]i,n+raeansttpme[Mc/zti+v3e1Hl9y],,+3b3iuo3tnwanaetdakm36/sz1o.l2vT7er1netnwbaiodthldoounucett met → → noticeable solvent adduct ion [M+H+CH OH]+ at m/z 303. Nor 4.57289 289(18) The tendency of the analytes to form [M+3H]+ ion and sol- ventadductionsisrelatedtotheirchemicalstructures(Fig.1). 6) 09, Forexample,trenbolonehasfourconjugateddoublebondsand 1 1 sterone →109( →253,6) bthoelsdeendoonuebalendbomnedtshasntadbroilsizteenothloen[eMha+vHe]t+hrieoenssufcohrmboenddsu,nadnedr Testo 4.46289 28997(1 tbhaeseE)SthIatcosntadbitiiloizne.sSthtaeno[Mzo+loHl ]h+asioan.pHyorawzeovleer,ritnegsto(satewroenaek, ne 21 normethandrolone and nandrolone have only two conjugated o 1 ostenol 1(15) 3,149, idoonusb,leanbdonthdusst,hsaotlmveanyt naodtduscutffiicoinesnt[lMy s+taHbi+lizCeHt3hOeH[M]++wHe]r+e dr 12 17 formed because solvent molecules can stabilize positive ions an → → Meth 3.92301 301(15) (eaxiwsteilnlaknhoywdrnateexdafmorpmle).iIsntshhaotrmt,ethtaelmioinnosridnifafqeureenocuesisnocluhteimon- icalstructuresofthesevenanabolicsteroidsmentionedabove, 17) 145, specifically the number of conjugated double bonds, accounts Nandrolone 3.39→275109( →275239,109(17) afodrdItunhceatddiodifniftseior[enMntc+oeHcinh+efomCrHimc3aaOltipoHrn]o+opfedrtethsieecsr[iMboefd+thHaeb]o+avnieoa.bnoslaicndstseorloviednst, the organic solvent used in LC mobile phase also had an 5) 35, effect on formation of solvent adduct ions and, thus, affected e 1(1 3,1 intensity of the [M+H]+ ions. Compared with methanol, ace- n 2 7 Boldeno 2.99→2871 →2871121(15) titoorannisotrfwilteihtheshtaohnweaelaydntaeabsosaltcircqounsigtreeerrdoitdwesni,dthaesnaccryeevttoeonailfteordirlmebyinsothltvheeeMnLtSCadsfldpueoccw-t uisitionoftheanalytes Trenbolone 2.98→271199(20) →271227,199,183(20) m(vnadFteoa/innzrgmmtt.a3/esz3d3ot)hd0l.2vau,8neUc3n9dtn3t,irloo0ian2klods8eand9[neumMdcaet(+nt3Fh[d1HiMag6n.2+,o+7lCr35,HebH.sa)+pc3,AeCeCctcaNoHtenint]v3do+ieCtnrlwNyiinlt,iaer]tin+hblfeduotiretorosamnltlnoosseonosdwtee[fdirMoto(ohrFnmm+iebgieHo(n.dFla]din+3geatc.nb)i3soouoannnal)es--t, Table2ParametersforMRMacq Retentiontime(min)mzIontransition(/)forquantification(collisionenergy,V)mzIontransitions(/)forconfirmation(collisionenergy,V) (ataastieFtndcvrneiddoegdtulno.esycgntn.3taeTicdntriyrh)ooi,eplnzteomrost,oelfeniotaosotdnlhrnedmr(aeFnnal7cisadfgy.otfir9.eloonvd3esfieVgttateyn)ocntfaeotoattthhldoroamednnnmiui/retzcermpitt3(lhrFee2ioaoti8athgnno,na.osnd3nl3t4omhae[2l3af),e,fi,n3t3na]thmr)n1iae:td2nyenatobahc(tlonhPeatlAdutnooosonf3n=loe7i.hrt80Tarm(.i,sF2hlersiiehegosVhsi.lrgpvae3heesflfoncae)a--rrt, 60 F.Guanetal./J.Chromatogr.B829(2005)56–68 Fig.2. ESI(+)MSspectraoftestosterone(a),normethandrolone(b),nandrolone(c),boldenone(d),methandrostenolone(e),trenbolone(f),andstanozolol(g)showing formationof[M+H]+ionsaswellassolventadduct[M+H+CH3OH]+ionswithmethanol.Spectraa–garefromtoptobottom.[M+H]+and[M+H+CH3OH]+ ionsarem/z289and321fortestosterone(a)andnormethandrolone(b),m/z275and307fornandrolone(c),m/z287and319forboldenone(d),m/z301and333 formethandrostenolone(e),m/z271fortrenbolone(f),andm/z329and361forstanozolol(g),respectively.Eachanabolicsteroid(10(cid:1)g/mL)wasintroducedby syringeinfusionat20(cid:1)L/minintoLCmobilephase(CH3OH/HCOONH4,60/40,v/v)flow(300(cid:1)L/min)tothemassspectrometer.Thetemperatureoftheion transfercapillarywas275◦C. tionship is in agreement with Field’s rule [34]. Understanding CID was used for desolvation to improve sensitivity for the oftherelationshipbetweenprotonaffinityofanorganicsolvent analytes. anditstendencytoformsolventadductionsishelpfulinselect- ingLCsolventforLC–MSstudiesofanalytesthatmaynotform 3.2. ESI(+)MS/MSspectra stable[M+H]+ions. Abundant [M+H]+ ions are always desired for sensitive, Product ion spectra of the anabolic steroids are shown in qualitativeandquantitativemethods.Conversely,solventadduct Fig. 4. Testosterone and normethandrolone are different com- ionsareundesirablesincetheydecreaseabundanceof[M+H]+ poundswiththesamemolecularformulaand[M+H]+ion(m/z ions.Tominimizeformationofsolventadductionsinthisstudy, 289). However, their product ion spectra were different from methanol was chosen over acetonitrile as solvent for the LC eachother(Fig.4aandb).Testosteronehadanabundantproduct mobile phase. To desolvate the undesired solvent adduct ions ionatm/z97thatwasveryweakintheproductionspectrumof [M+H+CH3OH]+, temperature of the ion transfer capillary, normethandrolone; normethandrolone had two abundant prod- thedesolvationdeviceofthemassspectrometer,wasincreased uctionsatm/z231andm/z213thatwereveryweakintheprod- ◦ from 275 to 350 C. The increase in temperature reduced the uctionspectrumoftestosterone.Testosterone,nandrolone,and intensitybutdidnotcompletelyabolishformationofthesolvent boldenonearesimilarinchemicalstructure,butweredifferent adduct ions. This result indicated that the increase in temper- inproductionspectra(Fig.4a,candd).Normethandroloneand ature alone was not sufficient for desolvation of the solvent nandrolone,ahomologouspair,resultedinspectrawithdiffer- adductions.However,carefulselectionofthesourceCIDvolt- entproductionprofile(Fig.4bandc).However,boldenoneand agewassuccessfulindesolvationofthesolventadductionsbut methandrostenolone,anotherhomologouspair,showedspectra didnotfragmentthe[M+H]+ ions.Forthisreason,thesource withsimilarproductionprofile(Fig.4dande).Thoughsimilar F.Guanetal./J.Chromatogr.B829(2005)56–68 61 Fig.3. ESI(+)MSspectraoftestosterone(a),normethandrolone(b),nandrolone(c),boldenone(d),methandrostenolone(e),trenbolone(f),andstanozolol(g) showingformationofsolventadduct[M+H+CH3CN]+ionswithacetonitrileatm/z330,330,316,328,342,312and370,respectively.Spectraa–garefromtop tobottom.Eachanabolicsteroid(10(cid:1)g/mL)wasinfusedbysyringeat20(cid:1)L/minintoLCmobilephase(CH3CN/HCOONH4,60/40,v/v)flow(200(cid:1)L/min)tothe massspectrometer.Thetemperatureoftheiontransfercapillarywas275◦C. instructure,THGandtrenboloneproduceddifferentproduction rather unexpected since APCI is considered suitable for neu- profiles(Fig.4fandg).Inshort,thedifferencesinproduction tralandsmallmoleculeswithoutanyaminoorcarboxylgroup spectraofstructurallysimilaranabolicsteroidsorinm/zvalue and is commonly used for determination of anabolic steroids of[M+H]+ionsofthehomologouspairsprovidesolidbasisfor [19,25,35].However,ourresultsagreewiththoseofotherinves- differentialdetectionandconfirmationoftheanabolicsteroids. tigators [22,36] showing that ESI is equally suitable for deter- BasedontheMS/MSspectra,specificproductionsoriontransi- minationofanabolicsteroidsandthus,itwaschosenforusein tionswerechosenfordetection,quantificationandconfirmation thisstudy. of the anabolic steroids by MRM. The selected ion transitions forMRMoftheanabolicsteroidsaresummarizedinTable2. 3.4. Extraction Theanabolicsteroidswereextractedfromequineplasmaby 3.3. ESIversusAPCI liquid–liquid extraction. These agents are neutral compounds andwereextractedfromequineplasmabyMTBEwithoutany The two commonly used atmospheric-pressure ionization adjustmentinpH.MTBEwasused,basedonitsusefulnessin (API) modes, electrospray ionization (ESI) and atmospheric- theextractionofbeclomethasone,asyntheticcorticosteroid,ina pressurechemicalionization(APCI),wereevaluatedforsensi- previousstudybyourlaboratory[37].Theextractionefficiency tivity in determining the analytes. With ESI, the lowest quan- ofMTBEfortheanabolicsteroidswasabove74%(Table3). tity of the injected analyte standards detectable by MRM was 5pg each of normethandrolone, nandrolone, boldenone, 3.5. Matrixeffect—ionsuppressionorenhancement methandrostenolone, trenbolone and stanozolol; whereas with APCI, that quantity was 20pg each, which was four times as Matrix effect is a special phenomenon associated with highasthatbyESI.ThisresultshowedthatESIprovidedhigher LC–MS/MSdeterminationofdrugsfrombiologicalfluidssuch sensitivity for the analyte standards than APCI. The result is asplasmaandurine[38–40].Endogenouscomponentsextracted 62 F.Guanetal./J.Chromatogr.B829(2005)56–68 Table3 Extraction efficiency, accuracy and reproducibility (coefficient of variation, CV) for quantification of testosterone, normethandrolone, nandrolone, boldenone, methandrostenolone,THG,trenboloneandstanozololinequineplasma Added(pg/mL) Testosterone Normethandrolone Nandrolone Boldenone Methandrostenolone THG Trenbolone Stanozolol Extractionefficiency(%)a 50 95 105 96 92 92 81 94 82 500 89 86 88 89 86 85 83 74 5000 83 84 84 84 84 80 86 77 Intra-dayaccuracy(%)b 50 112 114 106 106 108 114 104 100 500 105 106 105 104 104 105 101 114 5000 93 97 94 93 93 93 95 111 Inter-dayaccuracy(%)c 50 96 84 108 90 56 100 92 90 500 101 106 105 102 103 102 104 103 5000 98 100 99 98 98 100 97 99 Intra-dayCV(%)b 50 21 24 19 14 20 19 22 5.8 500 3.3 5.4 5.1 5.0 4.4 7.8 6.3 8.6 5000 4.7 4.3 4.3 4.6 4.4 5.4 4.5 4.4 Inter-dayCV(%)c 50 20 18 38 11 10 25 10 8.0 500 8.0 5.0 9.0 7.0 7.0 13 8.0 12 5000 4.2 5.6 3.8 4.8 4.7 5.8 4.6 8.4 a Extractionefficiency=peakareaofananalyteextractedfromplasma/peakareaoftheanalytestandardaddedtotheextractofblankplasma.Thevaluewasthe resultaveragedfromsixduplicatesamplesanalyzedonthesameday. b Intra-dayaccuracyandprecisionresultswereobtainedfromsixduplicatesamples(n=6)foreachconcentrationoftheanalyteanalyzedonasingleday. c Inter-dayaccuracyandprecisionresultswereobtainedbyanalyzingsixduplicatesamplesforeachconcentrationoftheanalyteonthreeseparatedays(two sampleseachday). along with analytes from plasma or urine may suppress or arepresentedinFig.5.Alltheanalyteswerewellresolvedeither enhance ionization of the analytes in electrospray source if chromatographically(Fig.5)ormassspectrometrically(Fig.4). theyco-elutewiththeanalytesfromLCcolumn.Matrixeffect Inthechromatogramsofblankplasmaextract,thoughtherewas mayimpairaccuracyandreproducibility.Forthisreason,matrix apeak(att =7.34min)intheiontransitionchannelforTHG,it R effectwasevaluatedundertheexperimentalconditionsusedin waswellseparatedfromthatofTHGanddidnotinterferewith this study, and the results are shown in Table 4. Negative val- determination of THG. Quantification of the analytes was not uesrepresentionenhancement,andpositivevaluesrepresention interferedwithbyendogenouscomponentsintheplasma. suppression.Ionenhancementorsuppressionwaslessthan13%, Confirmationoftheanabolicsteroidsinequineplasmawas whichwouldbewithinacceptablerandomexperimentalerrors, performedusingcriteriaofthreeiontransitionsandLCretention exceptinthecaseofTHGatlowconcentration(50pg/mL).In timeofeachanabolicsteroid(Table2).Specifically,therelative total, this result indicates that matrix effect caused by plasma intensitiesofthreemajorproductionsofagivenanalytewere wasnegligible. unique(Table5)andtheydidnotappreciablychangeoverthe concentrationrangetestedandsowereusedforconfirmationof 3.6. LC–MS/MRMfordetection,quantificationand thepresenceoftheanalytesinplasma.Variationoftherelative confirmation ionintensitieswithin20%isusuallyacceptableforconfirmation purposes[28]. TheLC–MS/MRMchromatogramsofblankplasmaextract Internal standard calibration quantifications of the analytes andtheeightanalytesspikedintoequineplasmaandextracted wereperformed,andaplotoftheratioofthechromatographic Table4 Ionsuppressionorenhancement(%)showingmatrixeffectonESILC–MS/MSoftheanabolicsteroidsa Added(pg/mL) Testosterone Normethandrolone Nandrolone Boldenone Methandrostenolone THG Trenbolone Stanozolol 50 −4.0 8.8 12 0.3 −5.9 −27 −7.4 11 500 −5.8 −9.3 −9.2 −4.9 −8.3 −5.3 −12.3 4.9 5000 −6.1 −7.0 −4.6 −6.0 −6.9 0.6 −7.7 1.8 a Ionsuppression(%)=[1−(Aextr/Ast)]×100,whereAstisthechromatographicpeakareaofacertainquantityofadrugstandardandAextristhepeakareaofthe samequantityofthedrugstandardaddedtotheextractof1.0mLofequineplasma.Eachvalueistheaveragedresultofthreeduplicatesamples.Thenegativesign indicatesionenhancement,whereasthepositivesignindicatesionsuppression. F.Guanetal./J.Chromatogr.B829(2005)56–68 63 Fig.4. MS/MSspectraoftestosterone(a),normethandrolone(b),nandrolone (c), boldenone (d), methandrolone (e), THG (f), trenbolone (g), stanozolol (h), and methenolone (i). Each of the analytes at concentration of 1(cid:1)g/mL inCH3OH/HCOONH4 (2mmol/L,pH3.4)(50/50,v/v)wasintroducedinto theESIsourcebysyringeinfusionat5(cid:1)L/min.Collisionenergywas16Vfor testosterone;18Vfornormethandrolone;17Vfornandrolone;15Vforbolde- none,methandrostenolone,THG,andmethenolone;and40Vforstanozolol. SourceCIDvoltagewas20Vforalltheanalytes. Fig.5. LC–MS/MRMchromatogramsofblankequineplasmaextractandeight anabolicsteroidanalytes(250pgeach)spikedintoequineplasma(1.0mL)and peakareaofeachanalytetothatofISagainsttheanalytecon- extracted.Thepeak(tR=7.34min)intheiontransitionchannelforTHGwas from an unknown endogenous plasma component but did not interfere with centrationwaslinearintherangeof25–10,000pg/mLforeach determinationoftheanalyte(tR=6.97min). oftheanabolicsteroidsspikedintoequineplasma.Inthispaper, we define the limit of detection (LOD) as the lowest concen- trationofananabolicsteroidspikedintoplasmathatresultedin theselectedreactionmonitoring(SRM)signalfivetimesgreater 64 F.Guanetal./J.Chromatogr.B829(2005)56–68 Table5 Productionintensityratios(%)usedforconfirmationoftheanabolicsteroidsa Concentration(pg/mL) Mean S.D. 25 50 100 250 500 1000 2500 50000 100000 Testosterone m/z109/97 100 86 76 89 85 82 87 87 8 m/z253/97 19 24 20 21 23 22 23 22 2 Normethandrolone m/z231/213 77 76 70 67 77 77 77 74 4 m/z253/213 61 71 68 71 82 75 77 72 7 Nandrolone m/z145/109 48 59 59 56 53 51 53 55 54 4 m/z239/109 45 43 52 57 53 54 53 54 51 5 Boldenone m/z173/121 32 31 25 28 28 29 28 28 28 29 2 m/z135/121 56 60 51 54 53 55 54 54 53 54 3 Methandrostenolone m/z149/121 92 86 89 93 90 86 90 89 89 2 m/z173/121 22 18 19 20 19 20 20 20 20 1 THG m/z239/241 51 60 49 52 49 54 51 52 4 m/z266/241 35 32 34 37 35 33 34 33 4 Trenbolone m/z183/199 36 22 33 28 28 27 27 29 5 m/z227/199 49 43 55 48 47 46 46 47 4 Stanozolol m/z107/329 21 21 22 22 22 22 23 22 3 m/z121/329 27 26 26 27 27 27 28 27 3 a Theanabolicsteroidswerespikedintoequineplasmaandextractedpriortoanalysis. thannoise,thelimitofquantification(LOQ)asthelowestquan- (25pg/mL) by this method. This method is also more sensi- tifiableconcentrationofananabolicsteroidspikedintoplasma, tivethantheLC–MSmethodsfordeterminationofsomeofthe andthelimitofconfirmation(LOC)asthelowestconcentration anabolicsteroidsinhumanorbovineplasmareportedbyother of an anabolic steroid spiked into plasma that was confirmed investigators[16–19]. by the criteria of LC retention time (Table 2) and product ion intensityratio(Table5).LODandLOQwere25pg/mLforall 3.7. Stabilityoftheanabolicsteroidsinequineplasma the analytes. LOC was 25pg/mL for boldenone; 50pg/mL for understorageconditions normethandrolone, nandrolone, and methandrostenolone; and 100pg/mL for testosterone, THG, trenbolone, and stanozolol. Thestabilityresultsshowedthattheanabolicsteroidsspiked The accuracy of this method was within 84–114% for all the intoequineplasmawerestablefor24hatambienttemperature, analytes,andtheprecisionexpressedascoefficientofvariation for13daysat4◦C,andfor34daysat−20and−70◦C(Table6). (CV)waswithin13%(Table3)exceptinthecaseoflowcon- Thenumberofdayschosenforstabilitystudywasbasedonthe centration (50pg/mL) where it was higher because variations maximumnumberofdaysasamplewaslikelytobestoredprior werehigherattheconcentrationclosetothelimitofquantifica- to analysis by the laboratory. Stability of the anabolic steroid tion.ItshouldbenotedthattheLOQ(25pg/mL)fortheanalytes extractsinthesamplesolventonautosamplerduringovernight spikedintoplasmawasinagreementwiththatfortheauthentic analysis of samples was also observed over a 24h period, and analytestandards(5pginjectedontocolumn),giventhefactthat theanalyteswerestablefortheperiodofobservation. onefifthoftheanalytesspikedintoandextractedfromplasma (20(cid:1)Loutof100(cid:1)Lofsolutionoftheextractedanalytes)was 3.8. Preliminaryapplicationsforspecificityofthemethod usedforanalysisbyLC–MS. Radio immunoassay (RIA) is a very sensitive technique The method described above was successfully applied and is widely used for quantitative determination of testos- to analyses of: (1) plasma samples collected from horses teroneinplasma.TheLC–MS/MRMmethoddevelopedinthis post administrations of boldenone, nandrolone, and THG study is more sensitive for testosterone than RIA when the for pharmacokinetic studies; (2) official racehorse samples LOD(4ng/dL=40pg/mL)andLOQ(20ng/dL=200pg/mL)by for THG screening; and (3) stallion plasma samples for RIA [41] are compared with the LOD (25pg/mL) and LOQ quantification of endogenous testosterone in research horses. F.Guanetal./J.Chromatogr.B829(2005)56–68 65 Table6 Stabilityoftheanalytesunderdifferentstorageconditionsa Added Time Testosterone Normethandrolone Nandrolone Boldenone Methandrostenolone THG Trenbolone Stanozol (pg/mL) (pg/mL) (pg/mL) (pg/mL) (pg/mL) (pg/mL) (pg/mL) (pg/mL) (pg/mL) Ambienttemperature 50 2h 57 47 61 54 56 51 49 21 50 4h 50 54 55 54 55 47 57 21 50 6h 52 61 56 53 55 49 49 32 50 24h 42 49 44 44 48 37 47 39 500 2h 530 543 541 538 530 510 504 230 500 4h 562 577 555 569 566 536 518 303 500 6h 579 597 588 573 590 530 510 347 500 24h 532 530 509 535 543 527 505 450 5000 2h 5210 5165 5143 5176 5112 5026 4670 2284 5000 4h 5199 5245 5166 5214 5173 4908 4705 2866 5000 6h 5565 5669 5521 5598 5561 5182 4900 3446 5000 24h 4955 5018 4637 4952 4951 4768 4538 4029 4◦C 50 3days 48 55 52 50 52 45 51 31 50 4days 61 53 60 38 41 38 46 48 50 12days 43 48 53 44 51 51 50 46 50 13days 48 37 51 45 48 42 38 48 500 3days 552 499 547 547 532 514 507 511 500 4days 519 477 488 488 484 471 465 516 500 12days 456 421 450 452 449 461 424 469 500 13days 463 446 453 463 471 448 457 416 5000 3days 5148 5010 5251 5251 5045 5092 4972 4822 5000 4days 4939 4920 5110 5110 4968 4999 4838 5236 5000 12days 4546 4585 4448 4603 4617 4438 4488 4696 5000 13days 4734 4663 4738 4735 4735 4094 4523 3658 −20◦C 50 13days 44 46 46 44 44 35 45 55 50 20days 46 52 50 45 42 46 46 50 50 27days 47 45 50 52 48 54 46 43 50 34days 52 47 43 47 49 50 47 50 500 13days 465 482 475 469 465 451 445 461 500 20days 475 491 492 477 483 458 464 527 500 27days 457 462 461 467 466 435 456 453 500 34days 438 450 425 438 435 418 397 456 5000 13days 4821 4788 4781 4771 4751 4598 4599 4503 5000 20days 4687 4723 4638 4674 4656 4581 4469 4729 5000 27days 4387 4370 4377 4345 4370 4227 4041 4232 5000 34days 4084 4103 4099 4071 4116 4214 3950 4243 −70◦C 50 13days 43 46 37 41 42 43 39 47 50 20days 45 53 69 43 41 45 37 47 50 27days 49 50 48 47 42 47 46 40 50 34days 52 50 55 46 51 52 48 47 500 13days 465 474 453 458 468 467 455 466 500 20days 486 503 494 468 471 479 466 497 500 27days 451 479 460 439 436 464 435 428 500 34days 443 453 452 420 436 444 453 421 5000 13days 4611 4716 4620 4488 4567 4585 4587 4697 5000 20days 4478 4514 4379 4192 4387 4310 4135 4650 5000 27days 4573 4763 4570 4422 4471 4467 4486 4418 5000 34days 4124 4298 4158 4032 4093 4216 4387 4144 a Eachvaluerepresentstheresultaveragedfromtriplicatesamples(n=3).

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steroids, a sensitive LC–MS/MS method was developed for detection, quantification and confirmation of eight major anabolic steroids (testosterone,.
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