Effectiveness of the postcoital test: randomised controlled trial

BMJ 1998;317:502-505 ( 22 August )

Papers

Effectiveness of the postcoital test: randomised controlled trial

S Guid Oei, gynaecologist, ^a Frans M Helmerhorst, senior lecturer, ^b Kitty W M Bloemenkamp, registrar, ^b Frederieke A M Hollants, medical officer, ^b Debbie E M Meerpoel, medical officer, ^b Marc J N C Keirse, professor. ^c

^a Department of Obstetrics and Gynaecology, Saint Joseph Hospital, 5500 MB Veldhoven, Netherlands, ^b Department of Obstetrics, Gynaecology and Reproductive Medicine, Leiden University Medical Center, PO Box 9600, 2300 RC Leiden, Netherlands, ^c Department of Obstetrics and Gynaecology, Flinders University of South Australia, Adelaide, SA 5042, Australia

Correspondence to: Dr Helmerhorst helmerhorst{at}rullf2.medfac.leidenuniv.nl

Abstract

Top
Abstract
Introduction
Methods
Results
Discussion
References

Objectives: To investigate the impact of the postcoital test on the pregnancy rate among subfertile couples and onthe number of other diagnostic tests andtreatments.
Design: Randomised controlledstudy.
Setting: A university and two non-university teaching hospitals in theNetherlands.
Subjects: New couples at infertility clinics, 1 March 1993 to 1 October 1995; randomisation to an intervention group(series of infertility investigations that include the postcoitaltest) or to a control group (series excluding the test).
Main outcome measure: Cumulative pregnancyrate.
Results: Of 736 consecutive new couples, 444 fulfilled the inclusion criteria and consented to participate (interventiongroup, 227; control group, 217). Treatment was given more oftenin the intervention group than in the control group (54% v 41%;difference 13% (95% confidence interval 4% to 22%)). Yet cumulativepregnancy rates at 24 months in the intervention group (49% (42%to 55%)) and the control group (48% (42% to 55%)) were closelysimilar (difference 1% ( $-$ 9.0% to 9.0%)).
Conclusion: Routine use of the postcoital test in infertility investigations leads to more tests and treatments buthas no significant effect on the pregnancyrate.

Key messages

The postcoital test dates back to 1866
The test is widely used in infertility investigations but has limited diagnostic potential and poor predictive value
Treatments for abnormal test results vary but have not been shown to be effective
This first randomised controlled trial comparing infertility investigations with and without the postcoital test showed closely similar cumulative pregnancy rates at 24 months
Incorporation of the postcoital test in standard infertility investigations increases the number of tests and treatments but has no effect on the pregnancy rate

	Introduction

Top Abstract Introduction Methods Results Discussion References

First introduced in 1866,¹ postcoital testing of cervical mucus for the presence of progressively motile sperm has becomean important part of infertility investigations. It is used routinelyin nearly half of the fertility clinics in Britain and in twothirds of such clinics across Europe.² Yet observational studiesshow that the diagnostic and prognostic power of the postcoitaltest is limited ³ ⁴ $---$ so is its value for assessing and treatingcervical hostility to sperm.² Various treatments are used incases of abnormal postcoital test results, with intrauterine inseminationa clear favourite despite the fact that its effectiveness hasnot been shown.^5-8 Theoretically, however, it is possible tofind a significant effect of treatment even if it is based ona test with poor diagnostic and prognostic properties. Againstthis background we conducted a randomised controlled trial comparinginfertility investigations with and without postcoital testingto assess the usefulness of such testing for routine fertilityinvestigations.

	Methods

Top Abstract Introduction Methods Results Discussion References

We compared a series of infertility investigations that routinely included the postcoital test (intervention group) and aseries of investigations that excluded the test unless cliniciansfelt a definite need for it (control group). Cumulative pregnancyrates were the primary outcome of interest. The secondary outcomewas the number of other diagnostic tests and treatments in thetwo groups. To avoid bias clinicians were not told about thesesecondary outcomes. Apart from the postcoital test, they werefree to apply whatever diagnostic tests and treatments they consideredto beappropriate.

Patients and randomisation procedure
From 1 March 1993 to 1 October 1995, subfertile couples attending the reproductive medicine units at Leiden University Hospital,Westeinde Hospital (The Hague), and Groene Hart Hospital (Gouda)were candidates for participation in the study. To avoid biasat all subsequent stages, a sequentially numbered, opaque, sealedenvelope was assigned to each woman's case notes before she wasseen or as soon as a fertility problem was presented. Coupleswere excluded if the woman had been referred for in vitro fertilisation,donor insemination, intrauterine insemination, or tubal surgeryor if she had any health problem unrelated to fertility. If theexclusion criteria did not apply, informed consent was requested.Envelopes for women who were excluded or did not consent werereturned to the central randomisation office and discardedunopened.

The study protocol was approved by the institutional review boards of the hospitals. It foresaw predicted a 1:1 randomisationof women to the intervention and controlgroups.

Postcoital test procedure
The postcoital test was planned 14-16 days before menstruation and 6-18 hours after intercourse. We asked the couples to haveintercourse as usual on the night before the test; we gave noinstructions on prior abstinence, postcoital rest, or posture.A non-lubricated speculum was used to expose the cervix. Endocervicalmucus was collected by suction in a narrow 1 ml disposable syringe.Mucus was considered to be good if it was abundant ( $>=$ 0.3 ml),highly ductile ( $>=$ 100 mm), and mostly clear to the nakedeye.

The number of sperms moving forward per high power field (×400 magnification) was recorded. A negative or abnormal ("absent"or "non-motile") sperm result was considered valid only if themucus was in good condition or if the test had been repeated andtimed by ultrasonic measurement of follicles and serum oestradiolconcentration in a later cycle. Positive or normal results wereaccepted whatever the state of the mucus.

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Table 1. Reasons for exclusion of 292 women from study after sealed envelopes were assigned

Infertility treatments
Treatment for negative postcoital test results was in accordance with standard clinical practice.² Intrauterine inseminationwas performed with the aid of ovarian stimulation with 100 mgclomiphene citrate daily from days 3 to 7 of the cycle, followedby injection of 10 000 IU human chorionic gonadotrophin (timedby cycle monitoring). This was followed, 40-44 hours later, byintrauterine insemination of sperm after sperm collection witha discontinuous Percoll gradient method. In vitro fertilisationwas performed as described by Van de Berg et al.⁹ Artificialinsemination with donor semen was performed after luteinised hormonedetection in urine (Ovuquick, Quidel, San Diego, CA) in a natural cycle.

Diagnosis of pregnancy was based on a positive pregnancy test in urine (Pregstik 50/1000, Nourypharma, Oss, Netherlands) 15days or more afterovulation.

Statistical methods
Descriptive statistics were used to assess the similarity of the groups. Cumulative pregnancy rates were calculated as forlife table analysis and compared with the Gehan-Wilcoxon test.Categorical data, including cumulative pregnancy rates at 24 months,were assessed by the $chi$ ² test and continuous variables by Student's t test (P<0.05 wasconsidered significant). With the smallest difference in successrate set at 10% (with an $alpha$ error of 0.05 and a $beta$ error of 0.20),350 couples were required in eacharm.

	Results

Top Abstract Introduction Methods Results Discussion References

Of 736 consecutive couples with presumed infertility, 287 were excluded according to the criteria, and 5 did not consent (table1). The remaining 444 couples were randomised to the intervention(n=227) and control (n = 217) groups. The characteristics of theparticipants did not differ significantly between the two groups(table 2 ²).

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Table 2. Characteristics of couples participating in study

Follow up either to pregnancy or for 24 months was complete in both groups. At the end of the study the postcoital test hadbeen performed in 146 of the 227 (64%) couples in the interventiongroup, with an average frequency of 1.3 times (range 1-4) percouple. Reasons for not performing a postcoital test were pregnancy(n=57), anovulation (n=9), bilateral tubal occlusion (n=9), orazoospermia (n=6). In the control group 3 of the 217 (1%) coupleshad undergone a postcoitaltest.

Table 3 shows the infertility investigations performed in both groups. Hysterosalpingography was used in 114 (50%) womenin the intervention group and in 117 (54%) in the control group.Thirty two (14%) women in the intervention group and 44 (20%)in the control group underwent laparoscopy. Hysterosalpingographywas performed 4.7 (range 2.2-8.3) months after the first visitin the intervention group and 3.8 (2.1-7.8) months after the firstvisit in the control group. The corresponding time intervals forlaparoscopy after the first visit were 8.3 (3.4-13.2) months and6.6 (3.3-12.8) months.

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Table 3. Number (percentage) of infertility investigations performed in intervention group and control group

Table 4 shows the treatments for infertility in both groups. Intrauterine insemination was performed in 49 (22%) women inthe intervention group, starting 8.4 (3.6-18.3) months after thefirst visit and in 36 (17%) in the control group, starting 8.6(3.7-19.2) months after the first visit. Indications for intrauterineinsemination in the control group were low sperm count and unexplainedinfertility. Twenty two (10%) couples in the intervention groupand 14 (6%) in the control group underwent in vitro fertilisation.Overall, 122 (54%) couples in the intervention group receivedtreatment, compared with 89 (41%) in the control group, a differenceof 13% (95% confidence interval 4% to 22%).

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Table 4. Numbers (percentages) of treatments given in intervention group and control group

The cumulative pregnancy rate at 24 months was 48% (42% to 55%) in the intervention group and 49% (42% to 55%) in the controlgroup, a difference of 1% ( $-$ 9% to 9%). Pregnancy rates at giventimes throughout study did not differ significantly either (figure).Analysis based on the couples in the intervention group who underwentthe postcoital test and on those in the control group who didnot have a postcoital test showed a significantly lower pregnancyrate in the intervention group (53/146 (36%)) than in the controlgroup (105/214 (49%)).Although this represents a difference of13% (3% to 23%), the difference is partially due to those conceivingbefore the postcoital test had been performed.

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Cumulative pregnancy rates for 227 couples in intervention group (which included postcoital test) and 217 couples in control group (which excluded the test)

Of the 146 women in the intervention group who underwent the postcoital test, 79 had a normal result, of whom 30 (38%) becamepregnant; of the 67 women who had an abnormal result, 23 (34%)conceived, a difference of only 4% ( $-$ 19% to 12%). Of the threecontrol women who underwent a postcoital test, one had a normalresult and two an abnormal one; none of themconceived.

	Discussion

Top Abstract Introduction Methods Results Discussion References

We conducted a randomised study to assess the usefulness of the postcoital test in investigating infertility. Because theusefulness of the test was uncertain, ² ¹⁰ we justified excludingit from the standard series of infertility investigations. Thismade it possible to conduct a randomised comparison of two infertilityprotocols that were identical except for inclusion and exclusionof the postcoitaltest.

Intention to treat principle
Although 190 postcoital tests were performed in 146 couples in the intervention group, 36% of the 227 couples in that groupdid not undergo the test. To deal with this and the fact thatthree couples underwent a postcoital test in the control group,our analysis was based on the groups as randomised, followingthe "intention to treat"principle.

Original power calculation envisaged 350 couples in each group. In the middle of 1995 changes in staff were foreseen thatwould affect the daily trial management and the enrolment of couples,and therefore the consistency and reliability of the study. Consequently,we ended enrolment on 1 October 1995, thereby accepting a lowerpower for the study. By that time 444 subfertile couples wereparticipating, each group containing 130 less than the originalpower calculations required. Given the absolute equality of aclose to 50% pregnancy rate in both groups, a pregnancy rate ofabout 75% would have been required in the next 130 women in theintervention group to achieve overall significance at the 5% level.The chances of this happening were very small, given a successrate less than 50% in the first 220 women. As the binomial probabilityof such an occurrence is less than 1 in 100, it is extremely unlikelythat continuing the study would have altered the conclusions thatcan be drawn fromit.

More treatments but no effect on pregnancy rate
Except for in vivo and in vitro testing of the interaction between cervical mucus and semen $---$ which are closely linked to thepostcoital test (table 3) $---$ there were no significant differencesin other infertility investigations between the intervention andcontrol groups. Although the results show that the interventiongroup underwent more treatments than the control group (table4), the cumulative pregnancy rates at 24 months were closelysimilar in the two groups. Routine use of the postcoital testin infertility investigations seemed to lead to a larger numberof treatments with no effect on the cumulative pregnancyrate.

Poor predictor of fertility
In this study the postcoital test was a poor predictor of fertility. In the intervention group 38% of women with a normaltest result conceived, compared with 34% of those with an abnormalresult, a difference that is not significant despite the treatmentsgiven for abnormal results. These poor test properties are consistentwith the findings of meta-analyses and systematic reviews publishedon this subject. ³ ⁴

Conclusion
The simple availability of a test, fear of missing a crucial diagnosis, and simple zeal for the attainment of diagnostic certaintyare all inducements to test what can be tested.^11-13 For both clinicaland economic reasons it may be wise, however, for every test tobe preceded by a conscious decision to test, based on solid evidencethat the test is needed. Good arguments exist, too, for not usingtests that offer little chance of changing the scope of diagnosticpossibilities.¹⁴ On the basis of both systematic review of itstest properties ³ ⁴ and this randomised trial, it is difficultto justify the postcoital test as an essential procedure in standardinfertility investigations.

	Acknowledgments

We thank Professor J P Vandenbroucke for critical reading and advice.

Contributors: SGO initiated and designed the study, reviewed the literature, supervised recruitment at Westeinde and Groene Hart Hospitals, oversaw data collection, analysed data, and jointly wrote the paper with FMH, KWMB, and MJNCK. FMH initiated and designed the study, supervised recruitment at Leiden University Hospital, supervised data collection, and analysed data. KWMB helped to develop the trial and collect data, and analysed data. FAMH and DEMM were responsible for completing data sheets and data entry. Marc Keirse helped in the study design; was responsible for power calculation, central randomisation, and termination of enrolment; reviewed data; and edited the paper.

Funding: Financial support was received from the participating institutionsonly.

Conflict of interest:None.

References

Top
Abstract
Introduction
Methods
Results
Discussion
References

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(Accepted 13 May 1998)

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