Clinical success of IUI cycles with donor sperm is not affected by total inseminated volume: a RCT

Jorge Rodriguez-Purata, Laura Latre, Marta Ballester, Clara González-Llagostera, Ignacio Rodríguez, Iñaki Gonzalez-Foruria, Rosario Buxaderas, Francisca Martinez, Pedro N Barri, Buenaventura Coroleu, Jorge Rodriguez-Purata, Laura Latre, Marta Ballester, Clara González-Llagostera, Ignacio Rodríguez, Iñaki Gonzalez-Foruria, Rosario Buxaderas, Francisca Martinez, Pedro N Barri, Buenaventura Coroleu

Abstract

Study question: What is the impact on live birth rates (LBR) when a donor IUI (dIUI) cycle is performed with an insemination volume of 0.5 mL versus the usual 0.2 mL?

Summary answer: LBR after a dIUI cycle is no different when performed with 0.5 versus 0.2 mL.

What is already known: An IUI has an important role in the treatment of severe male infertility, and is often used in same-sex female couples and single parents. Different variables have been studied to determine factors correlated with clinical outcomes (IUI scheduling, ovarian stimulation, sperm parameters) but little is known about the inseminated volume. The use of conical bottom test tubes could contribute substantially to the loss of inseminated spermatozoa because it precludes the total recovery of the sample. Additionally, the insemination catheter could uphold this reduction causing sperm adhesion on the inner walls of the insemination catheter, decreasing even more the total inseminated volume. It is expected that utilizing an IUI approach that increases sperm volume in the fallopian tubes (0.5 mL rather than 0.2 mL) at the time of ovulation will lead to higher LBRs. To avoid bias related to sperm quality, the study population was restricted to dIUI cycles.

Study design size and duration: A parallel-group, double-blinded, RCT, including patients undergoing natural or stimulated dIUI, was performed between March 2013 and April 2015. dIUI cycles (n = 293) were randomized through a computer-generated list to undergo insemination with 0.2 mL (control group) or 0.5 mL (study group), of which 24 were excluded (protocol deviation) and 269 received the allocated intervention. Patients with the presence of tubal factor infertility, grades III-IV endometriosis, >3 previous dIUI cycles or with ≥3 follicles >14 mm were excluded. The study was designed with 80% power to detect a 5% difference in LBR with a reference of 15% and a two-tailed 5% significance level. The required sample size was 118 per group.

Participants/materials setting and method: There were 143 cycles (0.2 mL group) and 126 cycles (0.5 mL group). The primary end-point of the trial was LBR per dIUI cycle in both treatment groups. Clinical pregnancy rate and miscarriage rate were evaluated as secondary outcomes.

Main results and the role of chance: No adverse events were reported during the study trial. Study groups (0.2 versus 0.5 mL, respectively) were similar in age (35.8 ± 3.9 versus 35.4 ± 4.0 years: mean±SD), and had similar anti-Mullerian hormone levels (2.2 ± 1.8 versus 2.0 ± 1.5 ng/mL), basal antral follicle count (13.2 ± 6.4 versus 13.6 ± 6.0), BMI (23.5 ± 3.9 versus 23.7 ± 4.1 kg/m2), number of follicles >17 mm (1.1 ± 0.5 versus 1.1 ± 0.5), total gonadotrophin dose (553.1 ± 366.3 versus 494.6 ± 237.1 IU), and total motile sperm count (8.22 ± 7.1 versus 7.7 ± 5.7 million). Similar clinical pregnancy rates (18.9% (27/143) versus 19.8% (25/126), NS), LBRs (15.4% (22/143) versus 19.0% (24/126), NS) and miscarriage rates (18.5% (5/27) versus 4.0% (1/25), NS) were observed between groups.

Limitations reasons for caution: The study was not powered to detect differences in the secondary outcomes, clinical pregnancy and miscarriage rates. The randomization was performed at the dIUI cycle level, therefore, the results are reported as success rate per dIUI cycle rather than per patient.

Wider implications of the findings: This is the first RCT to show that the inseminated volume is not correlated with the probability of a live birth. The miscarriage rate was higher in the 0.2 mL group, although this difference was not statistically significant. If the lower miscarriage rate observed in the 0.5 mL group is confirmed, this could be related to the presence of uterine contractions similar of those generated during sexual intercourse, which may be implicated in the inception of early biochemical embryo-endometrium communication.

Study funding/competing interests: All authors declare having no conflict of interest with regard to this trial. No funding was received for this study. This research was performed under the auspices of 'Càtedra d'Investigació en Obstetrícia I Ginecologia' of the Department of Obstetrics, Gynaecology and Reproductive Medicine, Hospital Universitari Quiron-Dexeus, Universitat Autònoma de Barcelona.

Trial registration number: The trial was registered at clinicaltrials.gov (Identifier: NCT03006523).

Keywords: IUI; RCT; donor sperm; gamete donation; inseminated volumen; sperm quality.

Figures

Figure 1
Figure 1
Flow chart of patients in the RCT of donor IUI using two different volumes of sperm.

References

    1. Assisted reproductive technology in Europe Results generated from European registers by ESHRE. Hum Reprod 2011;2016:dev319.
    1. Besselink DE, Farquhar C, Kremer JA, Marjoribanks J, O’Brien P. Cervical insemination versus intra-uterine insemination of donor sperm for subfertility. Cochrane Database Syst Rev 2008. CD000317. .
    1. Blasco V, Prados N, Carranza F, González-Ravina C, Pellicer A, Fernández-Sánchez M. Influence of follicle rupture and uterine contractions on intrauterine insemination outcome: a new predictive model. Fertil Steril 2014;102:1034–1040.
    1. Blockeel C, Knez J, Polyzos NP, De Vos M, Camus M, Tournaye H. Should an intrauterine insemination with donor semen be performed 1 or 2 days after the spontaneous LH rise? A prospective RCT. Hum Reprod 2014;29:697–703.
    1. Boomsma CM, Heineman MJ, Cohlen BJ, Farquhar C Semen preparation techniques for intrauterine insemination. In: The Cochrane Collaboration, editor. Cochrane Database Syst Rev [Internet] 2007; John Wiley & Sons, Ltd: Chichester, UK. .
    1. Campana A, Sakkas D, Stalberg A, Bianchi PG, Comte I, Pache T, Walker D. Intrauterine insemination: evaluation of the results according to the woman’s age, sperm quality, total sperm count per insemination and life table analysis. Hum Reprod Oxf Engl 1996;11:732–736.
    1. Cantineau AE, Cohlen BJ, Heineman MJ, Marjoribanks J, Farquhar C Intrauterine insemination versus fallopian tube sperm perfusion for non-tubal infertility. In: The Cochrane Collaboration, editor. Cochrane Database Syst Rev [Internet] 2013; John Wiley & Sons, Ltd: Chichester, UK. .
    1. Cohlen B, Vandekerckhove P, te Velde E, Habbema J Timed intercourse versus intra-uterine insemination with or without ovarian hyperstimulation for subfertility in men. In The Cochrane Collaboration, editor. Cochrane Database Syst Rev [Internet] 1999; John Wiley & Sons, Ltd: Chichester, UK. .
    1. Dickey RP, Olar TT, Taylor SN, Curole DN, Rye PH, Matulich EM. Relationship of follicle number, serum estradiol, and other factors to birth rate and multiparity in human menopausal gonadotropin-induced intrauterine insemination cycles. Fertil Steril 1991;56:89–92.
    1. Do Amaral VF, Ferriani RA, Dos Reis RM, De Sala MM, De Moura MD. Effect of inseminated volume on intrauterine insemination. J Assist Reprod Genet 2001;18:413–416.
    1. Fanchin R, Olivennes F, Righini C, Hazout A, Schwab B, Frydman R. A new system for fallopian tube sperm perfusion leads to pregnancy rates twice as high as standard intrauterine insemination. Fertil Steril 1995;64:505–510.
    1. Fanchin R, Righini C, Olivennes F, Taylor S, Ziegler D, de, Frydman R. Uterine contractions at the time of embryo transfer alter pregnancy rates after in-vitro fertilization. Hum Reprod Oxf Engl 1998;13:1968–1974.
    1. Franco Júnior JG, Baruffi RL, Mauri AL, Stone SC. Radiologic evaluation of incremental intrauterine instillation of contrast material. Fertil Steril 1992;58:1065–1067.
    1. Goverde AJ, McDonnell J, Vermeiden JP, Schats R, Rutten FF, Schoemaker J. Intrauterine insemination or in-vitro fertilisation in idiopathic subfertility and male subfertility: a randomised trial and cost-effectiveness analysis. Lancet 2000;355:13–18.
    1. Gregoriou O, Pyrgiotis E, Konidaris S, Papadias C, Zourlas PA. Fallopian tube sperm perfusion has no advantage over intra-uterine insemination when used in combination with ovarian stimulation for the treatment of unexplained infertility. Gynecol Obstet Invest 1995;39:226–228.
    1. Kahn JA, Sunde A, Koskemies A, Düring V, von, Sørdal T, Christensen F, Molne K. Fallopian tube sperm perfusion (FSP) versus intra-uterine insemination (IUI) in the treatment of unexplained infertility: a prospective randomized study. Hum Reprod Oxf Engl 1993;8:890–894.
    1. Karande VC, Rao R, Pratt DE, Balin M, Levrant S, Morris R, Dudkeiwicz A, Gleicher N. A randomized prospective comparison between intrauterine insemination and fallopian sperm perfusion for the treatment of infertility. Fertil Steril 1995;64:638–640.
    1. Koyun Ok E, Dogan OE, Okyay RE, Gulekli B. The effect of post-wash total progressive motile sperm count and semen volume on pregnancy outcomes in intrauterine insemination cycles: A retrospective study. J Turk Ger Gynecol Assoc 2013;14:142–145.
    1. Kunz G, Beil D, Deiniger H, Einspanier A, Mall G, Leyendecker G. The uterine peristaltic pump. Normal and impeded sperm transport within the female genital tract. Adv Exp Med Biol 1997;424:267–277.
    1. Lan VTN, Khang VN, Nhu GH, Tuong HM. Atosiban improves implantation and pregnancy rates in patients with repeated implantation failure. Reprod Biomed Online 2012;25:254–260.
    1. Lesny P, Killick SR, Tetlow RL, Robinson J, Maguiness SD. Embryo transfer--can we learn anything new from the observation of junctional zone contractions? Hum Reprod Oxf Engl 1998;13:1540–1546.
    1. Li HWR, Yeung WSB, Lau EYL, Ho PC, Ng EHY. Evaluating the performance of serum antimullerian hormone concentration in predicting the live birth rate of controlled ovarian stimulation and intrauterine insemination. Fertil Steril 2010;94:2177–2181.
    1. Mamas L. Higher pregnancy rates with a simple method for fallopian tube sperm perfusion, using the cervical clamp double nut bivalve speculum in the treatment of unexplained infertility: a prospective randomized study. Hum Reprod Oxf Engl 1996;11:2618–2622.
    1. Nuojua-Huttunen S, Tuomivaara L, Juntunen K, Tomás C, Martikainen H. Comparison of fallopian tube sperm perfusion with intrauterine insemination in the treatment of infertility. Fertil Steril 1997;67:939–942.
    1. Ombelet W, Deblaere K, Bosmans E, Cox A, Jacobs P, Janssen M, Nijs M. Semen quality and intrauterine insemination. Reprod Biomed Online 2003;7:485–492.
    1. Osuna C, Matorras R, Pijoan JI, Rodríguez-Escudero FJ. One versus two inseminations per cycle in intrauterine insemination with sperm from patients’ husbands: a systematic review of the literature. Fertil Steril 2004;82:17–24.
    1. Suarez SS, Pacey AA. Sperm transport in the female reproductive tract. Hum Reprod Update 2006;12:23–37.
    1. van Loendersloot LL, van Wely M, Limpens J, Bossuyt PMM, Repping S, van der Veen F. Predictive factors in in vitro fertilization (IVF): a systematic review and meta-analysis. Hum Reprod Update 2010;16:577–589.
    1. van Rumste MME, Custers IM, van der Veen F, van Wely M, Evers JLH, Mol BWJ. The influence of the number of follicles on pregnancy rates in intrauterine insemination with ovarian stimulation: a meta-analysis. Hum Reprod Update 2008;14:563–570.
    1. Van Voorhis BJ, Barnett M, Sparks AE, Syrop CH, Rosenthal G, Dawson J. Effect of the total motile sperm count on the efficacy and cost-effectiveness of intrauterine insemination and in vitro fertilization. Fertil Steril 2001;75:661–668.
    1. Veltman-Verhulst SM, Cohlen BJ, Hughes E, Heineman MJ Intra-uterine insemination for unexplained subfertility. In: The Cochrane Collaboration, editor. Cochrane Database Syst Rev [Internet] 2012; John Wiley & Sons, Ltd: Chichester, UK. .
    1. Vermeylen A-M. The type of catheter has no impact on the pregnancy rate after intrauterine insemination: a randomized study. Hum Reprod 2006;21:2364–2367.
    1. Wainer R, Albert M, Dorion A, Bailly M, Bergère M, Lombroso R, Gombault M, Selva J. Influence of the number of motile spermatozoa inseminated and of their morphology on the success of intrauterine insemination. Hum Reprod Oxf Engl 2004;19:2060–2065.

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