ISSN2472-1972 Distribution of Salivary Testosterone in Men and Women in a British General Population-Based Sample: The Third National Survey of Sexual Attitudes and Lifestyles (Natsal-3) Brian G. Keevil,1 Soazig Clifton,4 Clare Tanton,4 Wendy Macdowall,5 Andrew J. Copas,4 David Lee,2 Nigel Field,4 Kirstin R. Mitchell,5,6 Pam Sonnenberg,4 John Bancroft,7 Cath H. Mercer,4 Anne M. Johnson,4 Kaye Wellings,5 and Frederick C. W. Wu3 1DepartmentofClinicalBiochemistry,UniversityHospitalSouthManchester,ManchesterAcademic HealthScienceCentre,2CathieMarshInstituteforSocialResearch, SchoolofSocialSciences,and3AndrologyResearchUnit,ManchesterCentre ofEndocrinologyandDiabetes,ManchesterAcademicHealthScienceCentre,TheUniversityof Manchester,ManchesterM139PL,UnitedKingdom; 4ResearchDepartmentofInfectionandPopulationHealth,University CollegeLondon,LondonWC1E6BT,UnitedKingdom; 5DepartmentofSocialandEnvironmentalHealthResearch,LondonSchoolof HygieneandTropicalMedicine,LondonWC1E7HT,UnitedKingdom; 6MedicalResearchCouncil/ChiefScientistOfficeSocialandPublicHealthSciencesUnit, UniversityofGlasgow,GlasgowG40SF,UnitedKingdom;and 7KinseyInstitute,IndianaUniversity,Bloomington,Indiana47405 Introduction:Measurementofsalivarytestosterone(Sal-T)toassessandrogenstatusoffersimportant potentialadvantagesinepidemiologicalresearch.Theutilityofthemethoddependsontheinterpretationof theresultsagainstrobustlydeterminedpopulationdistributions,whicharecurrentlylacking. Aim:Todetermineage-specificSal-Tpopulationdistributionsformenandwomen. Methods: Morning saliva samples were obtained from participants in the third National Survey of SexualAttitudesandLifestyles,aprobabilitysamplesurveyoftheBritishgeneralpopulation.Sal-Twas measuredusingliquidchromatography-tandemmassspectrometry(LC-MS/MS).Linearandquantile regressionanalyseswereusedtodeterminetheage-specific2.5thand97.5thpercentilesforthegeneral population(1675menand2453women)andthepopulationwithhealthexclusions(1145menand1276 women). Results:Inthegeneralpopulation,themeanSal-Tlevelinmendecreasedfrom322.6pmol/Lat18years ofageto153.9pmol/Lat69yearsofage.Inwomen,thedecreaseinthegeometricmeanSal-Tlevelwas from39.8pmol/Lat18yearsofageto19.5pmol/Lat74yearsofage.Theannualdecreasevariedwith age,withanaverageof1.0%to1.4%inmenand1.3%to1.5%inwomen.Forwomen,the2.5thpercentile fell below the detection limit (,6.5 pmol/L) from age 52 years onward. The mean Sal-T level was approximately6timesgreaterinmenthaninwomen,andthisremainedconstantovertheagerange. TheSal-Tlevelwaslowestformenandhighestforwomeninthesummer.Theresultsweresimilarfor thegeneralpopulationwithexclusions. Abbreviations: b,lowerbound;BMI,bodymassindex;b ,upperbound;LC-MS,liquidchromatography-tandemmassspectrometry; l u Natsal,NationalSurveyofSexualAttitudesandLifestyles;Sal-T,salivarytestosterone;SD,standarddeviation;SHBG,sexhormone bindingglobulin. Received21October2016 January2017|Vol.1,Iss.1 Accepted14December2016 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|14–25 Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|15 Conclusions:Toourknowledge,thisisthefirststudytodescribethesex-andage-specificdistributions forSal-TinalargerepresentativepopulationusingaspecificandsensitiveLC-MS/MStechnique.The presentdatacaninformfuturepopulationresearchbyfacilitatingtheinterpretationofSal-Tresultsasa markerofandrogenstatus. ThisarticlehasbeenpublishedunderthetermsoftheCreativeCommonsAttributionLicense(CC BY;https://creativecommons.org/licenses/by/4.0/),whichpermitsunrestricteduse,distribution,and reproductioninanymedium,providedtheoriginalauthorandsourcearecredited.Copyrightforthis articleisretainedbytheauthor(s). Freeform/KeyWords:saliva,testosterone,liquidchromatography-tandemmassspectrometry, LC-MS,population The use of saliva in the investigation of testosterone status is attractive because sample collection is convenient, requires minimal training, and can be easily undertaken at home. Measurementofsalivarytestosterone(Sal-T),therefore,offersgreatpotentialinfacilitating epidemiological and biomedical research at the population level. Most testosterone circulating in the blood is bound to sex hormone binding globulin (SHBG)andalbumin,renderingonlyasmallfree(unbound)fraction(~1%to2%)[1]ableto diffuse across capillaries into target tissues, where it exerts biological activity. Direct measurementofserumfreetestosterone(thereferencestandard)istechnicallychallenging and expensive; hence, serum free testosterone is usually derived from mathematical formulasusingassociationconstantsoftestosteronewithitsbindingproteins[2].However, the relationship of calculated serum free testosterone to directly measured free testos- terone and the clinical significance have not been universally accepted [3]. Testosterone circulatinginthebodyreadilydiffusesacrosscapillariesandsalivaryducts,resultingina salivary fraction containing free unbound testosterone [4]. Measurement of Sal-T might thus provide an alternative to measuring serum total testosterone, free testosterone, or bioavailabletestosteroneintheassessmentofandrogenstatus.Concernshavebeenraised regardingthereliabilityofSal-Tmeasurementusingimmunoassaymethods[5].However, recentmethodologicaladvanceshaveallowedSal-Ttobereliablyandaccuratelymeasured usingmorespecificandsensitiveliquidchromatographytandemmassspectrometry(LC- MS/MS)[6–8].Inbothmenandwomen,Sal-Tcorrelateswellwiththecalculatedserumfree testosteronelevel[8]anddoesnotcorrelatewithSHBG[9].AhighcorrelationbetweenSal- T and serum free testosterone measured by equilibrium dialysis in both men and women has also been confirmed; however, a substantial systematic positive bias was present in women, which might reflect the influence of salivary protein binding to the lower female concentrations of Sal-T [8]. Whether Sal-T can be a surrogate for circulating free testos- terone or a valid measure of tissue bioavailable testosterone can now be investigated further. ApplicationofSal-Tmeasurementsfortheassessmentofandrogenstatusinmenand women is critically dependent on the interpretation of results against rigorously de- termined age-specific population distributions. Using relatively small numbers of samples from hospital personnel or clinic attenders for this purpose is convenient but problematic owing to inherent selection bias and inadequate statistical power. Pop- ulation ranges based on probability samples are more representative of the general population. They have only become available recently for serum testosterone mea- surementsinbothmen[10]andwomen[11]and,asyet,havenotbeenwidelyused.The presentstudyaimedtodeterminetheage-specificpopulationdistributionsforSal-Tina large sample of adult men and women from the general population in Britain using a highly sensitive and specific LC-MS/MS method. We have provided population distri- butions for the general population with exclusions (excluding those with self-reported medical conditions or using medications that can alter the testosterone levels) and the generalpopulationacrossthefullagerangetomaximizeitsusefulnessforabroadrange of research studies. Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 16|JournaloftheEndocrineSociety|doi:10.1210/js.2016-1029 1. Methods A. Study Population The third National Survey of Sexual Attitudes and Lifestyles (Natsal-3) is a stratified probability sample survey of 15,162 men and women aged 16 to 74 years and resident in Britain, which used the postcode address file as its sampling frame. Participants were interviewed between September 2010 and August 2012 using computer-assisted personal interviewing,includingacomputer-assistedself-interviewforthemoresensitivequestions. Theresponseratewas57.7%.Fulldetailsofthemethodsusedhavebeendescribedpreviously [12, 13]. Aftertheinterview,asubsampleofmenandwomenaged18to74years,whodidnot regularly work night shifts, were invited to provide a saliva sample to test for tes- tosterone, without a return of the results. Consenting participants were given a self- collectionpackandaskedtoprovidetheirsamplebefore10AMtominimizethediurnal variation in testosterone [7]. They were asked not to brush their teeth, eat, or chew before giving the sample and to spit directly into a plain polystyrene tube. The saliva sampleswere posted to the laboratory, where they were prepared and frozenat 280°C untilanalysis[7].Onreceiptofthesample,theparticipantsweresenta£5voucherasa token of appreciation. Of 13,431 participants aged 18 to 74 years who did not regularly work at night, 9170 wereinvitedtoprovideasalivasample.Atotalof4591sampleswerereceivedandmatched tothesurveydata(50.1%ofthoseinvitedtoprovideasample).Ofthesamples,463(10.1%) were excluded (insufficient volume, n = 154; sample discolored or bloody, n = 91; sample recorded as taken after 10:30 AM, n = 34; .5 days between the sample being taken and receivedbythelaboratoryorintervalunknownbecausedateofcollectionmissing,n=172; andnottestedbecauseoferror,n=12),leaving4128samples(45.0%)withatestosterone result. Theanalysisforthegeneralpopulationincludedall4128participants(1675menand2453 women) with usable testosterone results. To generate the distribution for a general pop- ulationwithexclusions(thosewhodidnotreporthealthconditionsortakingmedicationthat can influence testosterone levels), 530 men and 1177 women were excluded from analysis (individualscouldbeexcludedfor.1reason).Thereasonsincludedprostatecancer(13men), prostateenlargement(90men),prostatesurgery(20men),andpolycysticovaries(35women). Theexclusionsalsoincludedtreatmentofanyofthefollowinginthepreviousyear:cancer,25 men and 49 women; thyroid conditions, 27 men and 183 women; testicular or pituitary conditions, 16 men; and ovarian or pituitary conditions, 23 women. Also, we excluded par- ticipantsiftheyweretakingprescriptionmedicationforepilepsy(15menand15women),had undergone hysterectomy and were taking hormone replacement therapy (to indicate oo- phorectomy;181 women), and becauseofunpromptedreporteduse oftestosterone(1 man). We did not ask participants directly regarding their use of testosterone. Additionally, we excluded363menwithabodymassindex(BMI),18.5or.30kg/m2and118womenwitha BMI,18.5or.40kg/m2.Womenreportingthecurrentuseofeitherhormonalreplacement therapy(62women)orhormonalcontraception(pill,intrauterinedevice,injections,implants, orpatch;535women)andthosewhowerecurrentlypregnant(42women)werealsoexcluded. Finally,thosewhodidnotansweranyoftheabovequestionswereexcluded(42menand134 women),leaving1145menand1276womenfortheanalysisofthegeneralpopulationwith exclusions. B. Measurements The LC-MS/MS Sal-T assay was developed using strict validation criteria [7, 14]. Sample preparationusingliquid–liquidextractionentailedaddingsample(200mL),D -testosterone 5 internalstandard(10mL;340pmol/L),andmethyl-tert-butylether(1mL).Aftervortexing Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|17 for 5 minutes, the organic layer was transferred and evaporated and the residue recon- stituted with a 500-mL/L methanol mobile phase (80 mL) and transferred to a 96-well microtiter plate. Liquid chromatography was performed with an ACQUITY Ultra Performance Liquid Chromatography system coupled to a Xevo TQ-S mass spectrometer (Waters Corporation, Manchester,UK)operatedinpositiveionizationmode.Thelowerlimitofquantificationwas 6.5 pmol/L, and the assay was linear to $52,000 pmol/L. The interassay coefficient of var- iation6standarddeviation(SD)andbiaswas12.9%61.7%and1.2%;9.8%62.5%and0.4%; and4.5%612.0%and1.9%ataconcentrationof12.9,26.0,and260pmol/L,respectively.The intra-assaycoefficientofvariation6SDandbiaswas9.5%61.3%and0.8%;5.5%61.6%and 12.6%; and 2.1% 6 6.2% and 11.1% at a concentration of 12.9, 26.0, and 260 pmol/L, re- spectively. Recovery was 104% (range, 98.3% to 108.9%) [7]. C. Statistical Analysis StatisticalanalyseswereperformedusingSTATA,version13.1(StataCorp,CollegeStation, TX),accountingforthecomplexsurveydesign(stratification,clustering,andweightingofthe sample). We applied 2 weights when analyzing the data. The survey weight corrected for unequal probability of selection and differential response (by age, sex, and region) to the survey itself, and the saliva weight corrected for unequal probability of selection and dif- ferentialresponsetothesalivasample.Anumberoffactorswereassociatedwithprovidinga sample,includingageatinterview,ethnicity,generalhealth,andsexualfunctionmeasured usingtheNatsalsexualfunctionquestionnaire[15].Thefulldetailsoftheseweightsandtheir calculation have been previously reported [12]. We used 2 statistical approaches to estimate the 2.5th to 97.5th percentiles for the pop- ulation distributions for Sal-T levels in men and women: linear regression and quantile regression,aspreviouslyreportedforcalculatingtheserumtestosteronereferenceranges[10, 11]. Both analyses were performed to produce the distribution limits for the general pop- ulation and the general population with exclusions. Linear regression, as a parametric technique, can be unduly affected by extreme values. Therefore, very high Sal-T values were censored such that for each 10-year age group stratifiedbysex,valuesgreaterthanthe99thpercentilewerereplacedbythe99thpercentile (17menand26women).The99thpercentilevaluesrangedfrom587.4pmol/Lintheyoungest mento352.6pmol/Lintheoldestmenandfrom233.2pmol/Lintheyoungestwomento104.6 pmol/L in the oldest women, respectively. The Sal-T data for men were approximately normallydistributed;however,thedistributionforwomenwasskewed.Thus,thevalueswere transformedonthenaturallogscaleforanalysisandback-transformedtogeneratethefinal population distribution limits.Becausequantile regression isa nonparametric approach, it wasnotnecessarytocensortheextremehighvaluesofSal-Tortotransformthedataforthe women. Threemen(allaged.60years,allincludedinthegeneralpopulationwithexclusions)and 76women(distributedacrossthe18to74-year agerange,33ofwhomwere included inthe general population with exclusions) had Sal-T levels less than the limit of detection (,6.5 pmol/L).Intervalregressionwasused,assigningthesecasestotherangeof0to6.5pmol/Lfor the linear regression for men. The lower bound for the women was set as 0.5 to allow the values to be log transformed. For quantile regression, these cases were assigned a value of 3.25 pmol/L (one-half the limit of detection). Forbothmenandwomen,theSDofSal-Twasnotconstantwithage.Therefore,afterfitting the linear regression for the mean values, we calculated the SD of the Sal-T levels for each year of age and used these values as the outcome in a second linear regression analysis to predicttheSDasafunctionofage.Thepredicted2.5thand97.5thpercentilesforeachyearof age were calculated as the predicted mean Sal-T minus the predicted SD for that age multipliedbythelowerbound(b)andthepredictedmeanplusthepredictedSDmultipliedby l theupperbound(b ),respectively,withb andb selectedsuchthatacrossallages,2.5%ofthe u l u Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 18|JournaloftheEndocrineSociety|doi:10.1210/js.2016-1029 populationhadtestosteronevalueslessthanthelowerboundsand2.5%ofthepopulationhad testosterone values greater than the upper bounds. We tried different values for each multiplier,b andb ,startingwith1.96,whichcorrespondedtothenormaldistribution,and l u iteratively increasing or decreasing the values until we achieved the desired coverage. For meninthegeneralpopulation,thevalueswereb of2.00andb of2.30,andforwomeninthe l u generalpopulation,theywereb of2.11andb of1.96.Thevaluesforthemeninthegeneral l u population with exclusions were b of 2.09 and b of 2.25, and for women, b of 2.10 and b l u l u of 1.96. Formen,theSDofSal-Tdecreasedwithageuptoapoint(fromapproximatelyage70years) and increased again in the oldest age group. We were unable to adequately model this in- creaseintheSDtoaccuratelycalculatethe2.5thand97.5thpercentiles(whicharebasedon theSD)andconsequentlytruncatedthepopulationdistributionanalysisformenatage69.No equivalent increase in the SD was found among older women; therefore, the data are pre- sentedforthefullagerange,18to74years.Truncationwasnotnecessaryfortheanalysisof the mean testosterone levels, including associations with seasonal changes. To allow for a possible nonlinear relationship between Sal-T and age, we explored 2 dif- ferent functions of age (in addition to a linear function) in both the linear and the quantile regressionanalyses:aquadraticfunctionandarestrictedcubicsplinefunction.Forthelatter, 3knotswerespecifiedatthe10th,50th,and90thpercentilesofage(thedefaultplacementfor 3knots).Thepopulationdistributionproducedbythemodelsusingthequadraticandcubic splinefunctionswassimilar;therefore,weoptedtousethesimplerquadraticfunctioninthe finalmodels.Forwomen,theanalyseswereperformedonlog-transformeddataandthedata were back-transformed; therefore, the geometric mean values are presented. To assess the seasonal variation in testosterone, the mean (geometric mean for women) testosteroneand95%confidenceintervalswereplottedbyseasonforthegeneralpopulation, and linear regression was used to test for differences. Each season was defined as winter (December, January, and February), spring (March, April, and May), summer (June, July, and August), and autumn (September, October, and November). To explore potential geo- graphical differences, the participants were grouped into 3 broad regions of residence: Scotland and North of England, Midlands and Wales, and East and South of England (in- cluding London). D. Ethics Statement The OxfordshireResearch Ethics CommitteeAapprovedNatsal-3 (reference no.09/H0604/ 27).Allparticipantsprovidedwritteninformedconsentforanonymizedtestingofthesaliva samples, without a return of the results. 2. Results Distributionsofthemean6SDandmedianandinterquartilerangeoftheSal-Tlevelsinthe generalpopulationby10-yearagegrouparelistedinTable1andforthegeneralpopulation withexclusionsinSupplementalTable1.TheSal-Tlevelsforbothmenandwomenshoweda distinct age-related decline, with a clear demarcation in the mean levels between men and women.ThemeanSal-Tconcentrationwasapproximately6timesgreaterinthementhanin thewomen;thisrelationshipremainedconstantoverthe6decadesstudiedinboththegeneral population and the general population with exclusions (Table 1; Supplemental Table 1). The Sal-Tdistributions accordingtothelinear and quantileregression analyses formen andwomeninthegeneralpopulationareshowninFig.1.Forbothmenandwomen,thelinear and quantile regression analyses produced similar population distributions. Supplemental Table2showstheage-specificvaluesforthe2.5thand97.5thpercentilesofthedistribution for the general population produced by the linear regression (those produced by quantile regression analysis not shown). The Sal-T distributions for men and women in the general populationwithexclusionsareshowninSupplementalFig.1,andthevaluesforthe2.5thand Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|19 Table1. MeanandMedianSalivaryTestosteronebyAgeGroupandSexinGeneralPopulation Sal-T(pmol/L) Denominator Variable Mean6SD Median(IQR) UWt Wt Men 18–24 314.86111.6 314.9(246.3–384.1) 187 244 25–34 266.76102.5 264.6(198.6–325.9) 249 335 35–44 232.6691.5 229(178.4–285.3) 244 376 45–54 207.5680.2 203.2(155.3–248.9) 305 397 55–64 174.4664.7 175.9(130.6–214.9) 347 350 65–69 157.6658.5 152.0(119.3–190.1) 194 153 Women 18–24 51.1645.1 39.2(21.7–65.6) 247 268 25–34 42.6632 37.1(24.3–49.6) 441 403 35–44 41.1631.7 32.4(21–50.7) 425 414 45–54 33.9628.5 26.6(17.9–40.5) 451 430 55–64 27.6618.6 22.9(15.3–35.8) 462 368 65–74 27.5620.2 23.2(14.8–33.2) 427 284 Abbreviations:IQR,interquartilerange(25to75thpercentiles);UWt,unweighted;Wt,weighted. 97.5thpercentilesofthedistributionarelistedinSupplementalTable2.Forwomen,the2.5th percentile fell below the limit of detection (,6.5 pmol/L) from age 52 years onward in the generalpopulationandage54yearsonwardinthegeneralpopulationwithexclusions;thus, these data are not provided. TherangeofSal-Tvaluesgreaterthanthe97.5thpercentileamongwomenaged,55years was wide; however, for those aged .55 years, most of the high values were clustered just abovethe97.5thpercentileline(Fig.1).Althoughdetailedinformationonmenstrualphase was not collected, our questionnaire enabled the identification of women who had provided salivasampleswithin7daysofstartingtheirlastmenstrualperiod(presumedearlyfollicular phase). Very few of the high values in the premenopausal women were among those in the early follicular phase (data not shown), suggesting that they might ay reflect mid-cycle testosterone peaks [16]. Forthefullagerangeexamined,themeanSal-Tlevelsdecreasedbyapproximately50%to 60% in both the general population with exclusions and the general population of men and women. Because our models of the association between Sal-T and age included a nonlinear functionofage,thepredictedyear-by-yeardeclineintestosteronevariedbyage.Formenin thegeneralpopulation,thepredicteddecreaseintheaverageSal-Tlevelforeachyearofage was1.3%to1.5%.Thepredicteddeclinebetweenage18and19was1.4%(range,322.6to318.0 pmol/L),betweenage45and46was1.5%(range,216.9to212.7pmol/L),andbetweenage68 and 69 was 1.3% (range, 156.0 to 153.9 pmol/L). For women in the general population, the predicteddecreaseintheaverageSal-Tlevelforeachyearofagewas1.0%to1.4%.Thedecline betweenage18and19was1.0%(range,39.8to39.4pmol/L),betweenage45and46was1.4% (range,28.9to28.5pmol/L),andbetweenage73and74was1.0%(range,19.7to19.5pmol/L). SeasonaldifferencesinthemeanSal-Tlevelswereobserved(P,0.0001forbothmenand women;Fig.2);however,thesedifferedbysex,withthelowestlevelsinthesummerformen andthehighestlevelsinthesummerforwomen.Wefoundnoassociationsbetweenthemean Sal-T level and the broad geographical region (P = 0.2432; Fig. 2). 3. Discussion To our knowledge, the present study is the first to establish age-specific population distri- butions for LC-MS–analyzed Sal-T in men and women from a large general population sample.Ourfindingsshowedonlyaminoroverlapbetweentheage-specificmaleandfemale Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 20|JournaloftheEndocrineSociety|doi:10.1210/js.2016-1029 Figure1. Distributionofsalivarytestosteronein(A)menand(B)womeninthegeneral population.Curvescreatedusinglinearregression(solidline)forthefittedmean(men)or geometricmean(women)forthe2.5thand97.5thpercentilesandquantileregression(dashed line)forthemedian,2.5thpercentile,and97.5thpercentile.Observedvalues(x)for1526men and2543womendisplayed. populationdistributions,mirroringthoseseenwithserumtestosterone,andlendingsupport tothevalidity ofourSal-T measurements.The finding ofsixfold greaterSal-T levelsinthe mencomparedwiththewomenwasalsosimilartothatobservedforserumtestosterone[17], reflecting the markedly greater daily testosterone blood production rate in men [18]. A distinct age trend in Sal-T levels was observed in both sexes. The rate of cross-sectional declineinSal-TwithagewassimilartothedeclineinSal-Twithageinothersmallerstudies ofmen[19–21]andwomen[20]butgreaterthanthereporteddeclineinserumtestosteronein men [22–24] and women [11, 25, 26]. The age-associated decline in serum testosterone has been implicated in a variety of physiologicalchangesinagingmen[27,28].However,thishasbeendisputedbysome[29,30], who have suggested that the apparent decline is largely due to comorbidity, with healthy elderlymenshowinglittlechangeintheircirculatingtestosteronelevels.Althoughwefound that men aged .45 years who had not reported any of the exclusion health conditions had slightlygreaterlevelsofSal-Tcomparedwiththewholesample,theSal-Tlevelsinthesemen hadneverthelessdecreasedbyone-halffromage18to69years.Thissuggeststhatthewidely reportedserumtotalandfreetestosteronedecreasesduringthelifecourseof17%and35%, Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|21 Figure2. Mean(men)andgeometricmean(women)salivarytestosterone(pmol/L)byseason [(A),men;(B)women]andregion[(C)men;(D)women]inthegeneralpopulation. respectively[22–24],mightunderestimatetheaging-associateddeclineintesticularfunction or testosterone bioavailability at the tissue level. An important corollary of this compelling age trend in Sal-T is to reinforce the view that a Z-score approach, using age-specific pop- ulation ranges, might be more appropriate and physiologically meaningful than the pre- viously preferred testosterone score approach using comparisons with ranges derived from young (age ,40 years) healthy men [10]. Inpremenopausalwomen,weobservedsomeextremehighvaluesofSal-T,extendingfar above the 97.5th percentile, which possibly reflected the midmenstrual cycle peaks in tes- tosterone[16,26,31].Wedidnotcollectdetailedinformationonthemenstrualphase;thus,we were unable to control for variations in testosterone across the menstrual cycle in our analysis.Inbroadagreementwiththeserumtestosteronelevelsfromotherlargepopulation- based studies [11, 25, 26], we found that the decline in Sal-T in women was steepest in the early reproductive years and subsequently flattened out in midlife. In agreement also with the serum testosterone findings from other studies [11, 26, 32], we did not observe a sub- stantial effect of the menopausal transition on Sal-T levels. The percentage of change in serumtestosteronepreviouslyfoundinhealthywomenaged20to60yearswas30%[11].In contrast, the percentage of change in Sal-T in our study was ;60% for a similar age range. Thus,justasinmen,theage-relateddecreaseinSal-Tlevelsinwomenwhodidnotreportany of the exclusion health conditions was appreciably greater than that observed for serum testosterone.Theprincipalsourcesofandrogensinpostmenopausalwomenaretheadrenal gland and the ovary [33]. An increase in free testosterone could also arise from a relative decrease in SHBG compared with testosterone, a finding consistent with the trend of de- creasing SHBG across the menopausal transition [34]. TheseasonalvariationinSal-Tobservedinmenshowedtheoppositetrendtothatseenin women, with an increase in the summer and a decrease in the winter in women. Previous studiesexaminingseasonalvariationsinserumtestosteronelevelsinmenandwomenhave yieldedinconsistentresults,witheithernoseasonalvariationfound[35]orwithpeaklevels Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 22|JournaloftheEndocrineSociety|doi:10.1210/js.2016-1029 foundinthewinter[36]orthesummer[37].IntheonlySal-Tstudy,peaklevelswerefoundin October and December for the women and men, respectively [38]. Although statistically significant,themagnitudeoftheobservedseasonaldifferencesinSal-Twasrelativelysmall (~20pmol/Linmenand~8pmol/Linwomen),andthevariationmightnotbebiologicallyor clinicallyimportant.Giventheseinconsistencies,wedonotbelieveitwouldbeappropriateto provide separate Sal-T population distributions stratified by season. Natsal-3isbroadlyrepresentativeoftheBritishpopulation,includingintermsofethnicity [13],butwasnotdesignedspecificallytoexamineethnicvariationsintestosterone.Wefound noassociationwiththebroadgeographicalregions,whichisperhapsunsurprisinggiventhat Britainisasmallcountryintermsofareaandpreviousresearchintogeographicalvariation has been on a global scale [39]. Thestrengthsofthepresentstudyarethelargegeneralpopulationsamplesize,thestate- of-the-artLC-MS/MSmeasurementofSal-T,andtherigorousstatisticalanalysistechniques. To enable the fullest application in future investigations, we established population distri- butions,notonlyfortheentiregeneralpopulation,butalsoafterexclusionofconditionsand medications that can affect Sal-T levels. This ensured applicability of the presented in- formation to a wide range of epidemiological and biomedical studies in the future. Thepresentstudyalsohadsomelimitations.Thehealthconditionswereself-reported,and single morning saliva samples cannot account for intraindividual variations resulting from circhoral,diurnal,andcircannualrhythms.Thelackofaccurateinformationonthetimingof samples in relation to the menstrual cycle and clinical information on the presence of polycystic ovarian syndrome among women could have introduced added “noise” in the distributions.Althoughoursamplewassimilartothecensuswithrespecttoethnicity,health, andmaritalstatusafterweighting[12,13],justaswithanygeneralpopulationsurvey,our dataweresusceptibletosomeparticipationbiases.Forinstance,individualsinresidentialor nursing care were not included in the sampling frame, and poor health could have affected subjects’ willingness to participate (i.e., our population distributions for the general pop- ulationmightrefertoaslightlyhealthiersamplethanthetrueBritishgeneralpopulation). Thefinalresponseratetothesalivastudywas45%;therefore,thesalivadatawereweighted during analysis to minimize the potential for a nonresponse bias [12]. Age- and sex-specific population distributions are important as a baseline against which otheranalysesandresearchstudiescanbecompared.Thearrayofbackgroundinformation, in particular, with respect to age and BMI, will be important when considering important researchquestions,suchasthevariationsinSal-Tatthepopulationlevelwithrespecttothe frequency of sexual activity at the extremes of the age spectrum, sexual satisfaction, and number of sexual partners. Some of these questions are being addressed in our ongoing analyses. ThepresenteddatadescribethedistributionofSal-Tinthegeneralpopulationaspartofa largestudytoinvestigatethedeterminantsofvariationsinsexuallifestyleandpracticesin menandwomen.Theinformationisnotintendedtobeappliedtotheclinicalsetting(without further stringent clinical evaluation), particularly with respect to hormone replacement therapyforolderindividuals.TheverycleardeclineinSal-Tlevelswithagelendssupportto theviewthatlowertestosteronelevelsareaphysiologicalchangeandargueagainsttheuseof hormone replacement therapy for older individuals. We have determined age-specific population distributions for Sal-T in a large, represen- tative population of men and women using a highly specific and sensitive LC-MS/MS technique. The relative simplicity of saliva collection has important implications for large population-based studies, in which serum collection has been impractical or too expensive. These population data, which can be harmonized with those from other laboratories using validated LC-MS/MS methods, provide a benchmark for ensuring the appropriate in- terpretationandcomparisonsofSal-Tresultsinfutureresearch.Anessentialstephasnow beentakentoallowtheapplicationofSal-Tlevelsininvestigatingthepotentialimportanceof androgen exposure in many aspects of sexual behavior and general health in largescale population surveys of men and women. Downloaded from https://academic.oup.com/jes/article-abstract/1/1/14/2890811 by London School of Hygiene & Tropical Medicine user on 15 January 2018 doi:10.1210/js.2016-1029|JournaloftheEndocrineSociety|23 Acknowledgments Theauthorsexpresstheirappreciationforthecontributionstothisworkofouresteemedcolleaguethelate Dr.MichaelWallace.Wealsothankthestudyparticipants,theteamofinterviewersfromNatCenSocial Research,operations,andcomputingstafffromNatCenSocialResearch,andthestudyfunders.Natsal-3 isacollaborationamongUniversityCollegeLondon,theLondonSchoolofHygieneandTropicalMedicine, NatCen Social Research, Public Health England (formerly the Health Protection Agency), and the UniversityofManchester.WegratefullyacknowledgetheimportanttechnicalcontributionsofHalina McIntyreandAnneKelly,DepartmentofClinicalBiochemistry,RoyalInfirmary,Glasgow,Scotland,UK, andPhilipMacdonald,Departmentof ClinicalBiochemistry, UniversityHospital SouthManchester, ManchesterUK. Address all correspondence to: Brian Keevil, MSc, Department of Clinical Biochemistry, Uni- versity Hospital South Manchester, Southmoor Road, Manchester M23 9LT, UK. E-mail: brian. [email protected]. ThepresentstudywassupportedbygrantsfromtheMedicalResearchCouncil(GrantG0701757)and theWellcomeTrust(Grant084840),withcontributionsfromtheEconomicandSocialResearchCouncil and Department of Health. S.C. is supported by the National Institute for Health Research (NIHR Research Methods Programme, Fellowships and Internships; Grant NIHR-RMFI-2014-05-28). N.F. is supportedbyanacademicclinicallectureship.SinceSeptember2015,K.M.hasbeencorefundedbythe UKMedicalResearchCouncil,MedicalResearchCouncil/ChiefScientistOfficeSocialandPublicHealth Sciences Unit, University of Glasgow (Grant MC_UU_12017-11). The views expressed in this publi- cationarethoseoftheauthorsandnotnecessarilythoseoftheNationalHealthService,theNational InstituteforHealthResearch,ortheDepartmentofHealth. DisclosureSummary:A.M.J.hasbeenagovernoroftheWellcomeTrustsince2011.F.C.W.W.hasacted asaconsultantforBayer-Schering,EliLilly,andBesinsHealthcareandparticipatedinadvisoryboard meetings and lectured on their behalf; has received lecture fees from Bayer-Schering and Besins Healthcare;andreceivedgrantsupport(2010–2014)fromBayerScheringAGandBesinsHealthcare. Theremainingauthorshavenothingtodisclose. 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