Success of Controlled Ovarian Hyperstimulation and Intrauterine Insemination in couple with Unexplained Infertility

Article Information

Nazdar Raouf1*, Roj Hikmat2, Aveen Munib3, Maida Shamdeen4, Ramadhan Salahaldeen5, Hameed Abdullah6

1Duhok Obstetrics and Gynecology Teaching Hospital, Kurdistan, Iraq

2Senior Registrar, Duhok Obstetrics and Gynecology Teaching Hospital, Kurdistan, Iraq

3Infertility and IVF center, College of Pharmcy, Azadi Teaching Hospital, Duhok, Iraq

4Obstetrics and Gynecology Department, Duhok Medical College, Azadi Teaching Hospital, Iraq

5Duhok Medical College, Azadi Teaching Hospital, Kurdistan, Iraq

6Neonatal Intensive Care Unit, Hevi Pediatrics Teaching Hospital, Duhok, Iraq

*Corresponding Author: Nazdar Raouf, Duhok Obstetrics and Gynecology Teaching Hospital, Kurdistan, Iraq

Received: 05 April 2020; Accepted: 18 April 2020; Published: 23 April 2020

Citation:

Nazdar Raouf, Roj Hikmat, Aveen Munib, Maida Shamdeen, Ramadhan Salahaldeen, Hameed Abdullah. Success of Controlled Ovarian Hyperstimulation and Intrauterine Insemination in couple with Unexplained Infertility. Journal of Women’s Health and Development 3 (2020): 077-091.

Share at Facebook

Abstract

Background: Management of unexplained infertility remains largely empirical, the therapeutic approach should be individualized taking into account patient age and duration of infertility, treatments include expectant observation with timed intercourse and lifestyle changes, controlled ovarian hyperstimulation with intrauterine insemination, and in vitro fertilization. The aim of this study was to assess the pregnancy rate and outcome of couples with unexplained infertility treated with intrauterine insemination after controlled ovarian hyperstimulation and to evaluate the effect of various prognostic factors.

Results: In this study 198 cycles of controlled ovarian stimulated intrauterine insemination were analyzed for 110 couples with unexplained infertility. The overall pregnancy rate in our study was 30.9%.

Conclusion: Ovarian stimulation combined with intrauterine insemination is a cost-effective treatment for couple with unexplained infertility before jumping into in vitro fertilization, but recommend that couples be informed of all information about the chances of success as well as the costs and complications of this treatment.

Keywords

Unexplained Infertility; Intrauterine Insemination; Pregnancy rate

Unexplained Infertility articles Unexplained Infertility Research articles Unexplained Infertility review articles Unexplained Infertility PubMed articles Unexplained Infertility PubMed Central articles Unexplained Infertility 2023 articles Unexplained Infertility 2024 articles Unexplained Infertility Scopus articles Unexplained Infertility impact factor journals Unexplained Infertility Scopus journals Unexplained Infertility PubMed journals Unexplained Infertility medical journals Unexplained Infertility free journals Unexplained Infertility best journals Unexplained Infertility top journals Unexplained Infertility free medical journals Unexplained Infertility famous journals Unexplained Infertility Google Scholar indexed journals Intrauterine Insemination articles Intrauterine Insemination Research articles Intrauterine Insemination review articles Intrauterine Insemination PubMed articles Intrauterine Insemination PubMed Central articles Intrauterine Insemination 2023 articles Intrauterine Insemination 2024 articles Intrauterine Insemination Scopus articles Intrauterine Insemination impact factor journals Intrauterine Insemination Scopus journals Intrauterine Insemination PubMed journals Intrauterine Insemination medical journals Intrauterine Insemination free journals Intrauterine Insemination best journals Intrauterine Insemination top journals Intrauterine Insemination free medical journals Intrauterine Insemination famous journals Intrauterine Insemination Google Scholar indexed journals "Pregnancy rate articles Pregnancy rate Research articles Pregnancy rate review articles Pregnancy rate PubMed articles Pregnancy rate PubMed Central articles Pregnancy rate 2023 articles Pregnancy rate 2024 articles Pregnancy rate Scopus articles Pregnancy rate impact factor journals Pregnancy rate Scopus journals Pregnancy rate PubMed journals Pregnancy rate medical journals Pregnancy rate free journals Pregnancy rate best journals Pregnancy rate top journals Pregnancy rate free medical journals Pregnancy rate famous journals Pregnancy rate Google Scholar indexed journals " infertility articles infertility Research articles infertility review articles infertility PubMed articles infertility PubMed Central articles infertility 2023 articles infertility 2024 articles infertility Scopus articles infertility impact factor journals infertility Scopus journals infertility PubMed journals infertility medical journals infertility free journals infertility best journals infertility top journals infertility free medical journals infertility famous journals infertility Google Scholar indexed journals peritoneal factor articles peritoneal factor Research articles peritoneal factor review articles peritoneal factor PubMed articles peritoneal factor PubMed Central articles peritoneal factor 2023 articles peritoneal factor 2024 articles peritoneal factor Scopus articles peritoneal factor impact factor journals peritoneal factor Scopus journals peritoneal factor PubMed journals peritoneal factor medical journals peritoneal factor free journals peritoneal factor best journals peritoneal factor top journals peritoneal factor free medical journals peritoneal factor famous journals peritoneal factor Google Scholar indexed journals hysteroscopy articles hysteroscopy Research articles hysteroscopy review articles hysteroscopy PubMed articles hysteroscopy PubMed Central articles hysteroscopy 2023 articles hysteroscopy 2024 articles hysteroscopy Scopus articles hysteroscopy impact factor journals hysteroscopy Scopus journals hysteroscopy PubMed journals hysteroscopy medical journals hysteroscopy free journals hysteroscopy best journals hysteroscopy top journals hysteroscopy free medical journals hysteroscopy famous journals hysteroscopy Google Scholar indexed journals motile sperm articles motile sperm Research articles motile sperm review articles motile sperm PubMed articles motile sperm PubMed Central articles motile sperm 2023 articles motile sperm 2024 articles motile sperm Scopus articles motile sperm impact factor journals motile sperm Scopus journals motile sperm PubMed journals motile sperm medical journals motile sperm free journals motile sperm best journals motile sperm top journals motile sperm free medical journals motile sperm famous journals motile sperm Google Scholar indexed journals fertilization articles fertilization Research articles fertilization review articles fertilization PubMed articles fertilization PubMed Central articles fertilization 2023 articles fertilization 2024 articles fertilization Scopus articles fertilization impact factor journals fertilization Scopus journals fertilization PubMed journals fertilization medical journals fertilization free journals fertilization best journals fertilization top journals fertilization free medical journals fertilization famous journals fertilization Google Scholar indexed journals vaginal sexual articles vaginal sexual Research articles vaginal sexual review articles vaginal sexual PubMed articles vaginal sexual PubMed Central articles vaginal sexual 2023 articles vaginal sexual 2024 articles vaginal sexual Scopus articles vaginal sexual impact factor journals vaginal sexual Scopus journals vaginal sexual PubMed journals vaginal sexual medical journals vaginal sexual free journals vaginal sexual best journals vaginal sexual top journals vaginal sexual free medical journals vaginal sexual famous journals vaginal sexual Google Scholar indexed journals ovarian articles ovarian Research articles ovarian review articles ovarian PubMed articles ovarian PubMed Central articles ovarian 2023 articles ovarian 2024 articles ovarian Scopus articles ovarian impact factor journals ovarian Scopus journals ovarian PubMed journals ovarian medical journals ovarian free journals ovarian best journals ovarian top journals ovarian free medical journals ovarian famous journals ovarian Google Scholar indexed journals

Article Details

Background

The problem of infertility in the world is continuing to grow among women of reproductive age [1]. Infertility or sub-fertility is defined as no pregnancy after one year in women less than 35 years of age and in women more than 35 years old after six months of regular intercourse without the use of contraception [2]. Fecundability is the probability of achieving a pregnancy in one menstrual cycle [3].

There are different causes of infertility, one population-based study reported 28 percent is due to unexplained infertility, which is defined as a couple does not conceive after unprotected vaginal sexual intercourse with basic infertility evaluation shows no obvious abnormality in women less than 35 years old of age after one year of attempting conception or after six months in women 35years and older [2,4]. Investigations require to meet the definition includes (normal ovulatory function, normal semen analysis as well as sperm function tests, at least one patent fallopian, uterus assessed by transvaginal ultrasound, hysterosalpingography as well as hysteroscopy, assessment of peritoneal factor by laparoscopy and lastly adequate ovarian reserve) [5,6].

The management of unexplained infertility creates some complexity mainly because of the lack of a specific treatable abnormality. The treatment is generally empirical, it depends on the availability of resources, patients age, duration of infertility, balance the effectiveness against the cost and side effects.

The standard protocol is to Progress from simple as lifestyle changes or timed intercourse then move to complex treatment as controlled ovarian hyperstimulation plus intrauterine insemination then progression to assisted reproductive technique, if after three cycles of a specific fertility treatment does not result in pregnancy, alternative treatments should be considered [7,8,9].

Approximately 1 percent of couples with unexplained infertility will become pregnant per cycle with no intervention. Expectant management is an option for female partner of less than 32 years of age as an ovarian reserve decrease after the age of 37 years. Lifestyle change such as discontinuing cigarette smoking and achieving a normal body weight may increase fertility in women with unexplained infertility [10].

Initial active treatment of unexplained infertility is start with three to four cycles of clomiphene citrate plus controlled ovarian hyperstimulation with intrauterine insemination rather than gonadotropin injections because of the high pregnancy rate, low rate of multiple pregnancies, low cost, orally administer, no need for monitoring. Clomiphene citrate it enhances fertility by correcting a subtle defect in ovarian function, either follicular development or luteal phase defect as well as it increases the number of follicles that develop and consequently oocyte that is released [11].

During intrauterine insemination procedure, the processed and concentrated motile sperm is deposited as close to the oocyte as possible. The cervical mucus barrier is bypassed and there is an additional psychological benefit that the infertility is being treated. The requirements for performing the procedure are controlled ovarian hyper stimulation, patency of at least one fallopian tube, and absence of genital organ infection. Effectiveness of intrauterine insemination in the treatment of unexplained infertility 12-22% [12].

For couples with unexplained infertility who have failed three cycles of clomiphene citrate, gonadotropins are often administered it is less costly than an invitro fertilization cycle but less likely to result in a pregnancy and more likely to result in multiple pregnancy while, invitro fertilization results in the highest per-cycle pregnancy rate in the shortest time interval [13] .

When the in vitro fertilization is not an option for woman with unexplained infertility, especially symptomatic, as these women may have minimal or mild endometriosis or peritubal adhesion, laproscopic treatment of endometriosis is the next step, is associated with improved fertility after that a course of clomiphene citrate plus intrauterine insemination is starte . Last treatment options include ovulation induction with letrozole, donor-egg, surrogacy, adoption, and cessation of treatment. Both bromocriptine and danazol are not effective in treating a woman with unexplained infertility [14-16].

Methods

Design and Setting

This study was conducted at three infertility centers and private clinics in Duhok, Iraqi Kurdistan from November 2017 to August 2019, and reviewed retrospectively. The ethical approval from the Ethics and Scientific committee of the Kurdistan board for Medical Specialties was obtained. The written informed consent of all the participants was obtained. All couples with unexplained infertility planned to have intrauterine insemination after controlled ovarian hyperstimulation.

Measures

Full history was taken from all couples as well as clinical examination was done for all women. All women had tests for cervical smear, high vaginal swabs, and immunity against rubella. Preconception folic acid was given to all woman. The diagnosis of unexplained infertility was done through the absence of obvious causes for infertility. Inclusion criteria was maternal age less than 40 years old, normal semen analysis according to world health organization 2010, patent tubes confirmed by hysterosalpingography or laparoscopy, normal hormonal profile including day 3 FSH and LH, TSH, prolactine, anti mullerian hormone and day 21 progesterone, normal uterus evaluated by transvaginal ultrasound and hysteroscopy.

Exclusion criteria were the couple who refuse the procedure, Couple have obvious causes for infertility, presence of any ovarian cyst detected by ultrasound and women with sensitivity to ovarian stimulation agents.

The initial management were includes advice given on lifestyle, told couples to return after three months if they have still not achieve pregnancy, avoidance of stress, vaginal sexual intercourse every 2 to 3 days, stop smoking,try to achieve normal weight, avoidance of excessive (tea, coffee and colas) intake and avoidance of tight wearing underwear.

Controlled ovarian hyperstimulation (COH)

A baseline Trans vaginal ultrasound was performed on day 2 of the menstrual cycle to assess the presence of ovarian cysts. and to measure endometrial thickness to be 4 mm or less. In those cases with presence of ovarian cyst until the cyst disappear either spontaneously or after suppression with oral contraceptive pills ovarian stimulation was withholding. Counseling of couples regarding the complications and cycle cancellation if there was no response or if there were more than three follicles and advice to avoid unprotected intercourse. Each couple received 3-4 treatment cycles unless pregnancy occurred. Rest cycles were taken sometime between treatment cycles.

Controlled ovarian stimulation was done by clomiphene citrate letrozole and injectable gonadotropin. Clomiphene citrate was taken as 100 mg for five consecutive days beginning on day 2, while letrozole was taken as 5 mg/day beginning on day 3 to 7. Injectable gonadotropin was used on day 2 or day 3 of the cycle at doses of 75-300 units. For follicular development serial transvaginal ultrasound was taken to monitor the number and size of developing follicles and to time human chorionic gonadotropin (hCG) administration usually, performed every two or three days which was started from day 7.

Ovulatory trigger

When at least 2 follicles have reached an average diameter of ≥18 18 mm and the endometrial thickness is 8 mm,hCG was used to trigger ovulation, a dose of 250 mcg of recombinant hCG or 10,000 units of urinary hCG were used.

Semen collection and preparation

Fresh ejaculate was collected by masturbation after two or three days of sexual abstinence with avoiding usage of any lubricants. Sample was prepared by swim up technique with considering the woman and sperm sample for intrauterine insemination and maintain the specimen at body temperature until insemination.

Technique of intrauterine insemination

A single intrauterine insemination was planned 36 hours after hCG injection. Equipment were used during the procedure (disposable Speculum, 1ml sterile syringe and disposable soft polyethylene insemination catheter).

A woman lie on bed in dorsal lithotomy position, those with an anteverted uterus maintain a full bladder to facilitate straightening of the uterus, 1ml syringe was opened and draw up approximately 0.5 mL of air, then the processed sperm and its suspension media aspirated into the syringe. The sperm is suspended in a small volume of media, no more than 0.5 mL, to prevent uterine contractions and expulsion of fluid after it is inseminated into the uterus, attach the syringe to insemination catheter with an external flexible sheath.

Speculum was inserted, use of a tenaculum and touching the end of the catheter were avoided, the catheter was inserted through the cervical os to the endocervical canal, and into the uterus to a depth of approximately 6 cm and touch the fundus was avoided, as this will cause pain and bleeding which is toxic to embryo. The sperm was injected then slowly withdraw the catheter.

Woman was rest in supine position for 10-15 minutes following the procedure. Sometime for psychologically reassurance this time was extended for 30 minutes.

Post procedure care

Instructions were given to woman about, increase wetness, spotting, and for pelvic pain acetaminophen was prescribed. Woman return to normal activities and Patients may have intercourse after IUI if they wish to do so. Vaginal progesterone 400 mg daily for 15 days was prescribed to support the luteal phase with folic acid and continued till 12 weeks if pregnancy became positive.

A urinary or serum pregnancy test is performed two weeks after IUI. If the value exceeded 10 mIU per milliliter, the measurement was repeated at 48 hours. Pregnancy was indicated by an increase in the serum β-human chorionic gonadotropin. Ultrasonography was done at 6 weeks after last menstrual period to determine the clinical pregnancy rate (CPR) then to confirm the presence of fetal cardiac activity and followed up till delivery to determine the live birth rate (LBR).

Outcomes studied were clinical pregnancy rate, recorded parameters of maternal age, paternal age, duration of subfertility, type of subfertility (primary or secondary), number of dominant follicles, measured diameter of dominant follicles on the day of hCG, endometrial thickness, number of the total motile sperm, progressive motile sperm, and total sperm count all were used to determine the prediction value. Subsequently also recorded the outcome and complications of this intervention such as live birth, miscarriage, ectopic pregnancy, multiple pregnancy and ovarian hyperstimulaion syndrome.

Statistical analysis

The data were collected and statistically analyzed using a software package, current versions IBM (SPSS) Statistic, descriptive statistics for nominal variables were interpreted as number and percentage (%),while quantitative variables were expressed as mean ± standard deviation. Student’s t-test was applied to difference of mean of quantitative variables. Chi-square test was applied to study the difference of frequency. For interpretation of results, p value < 0.05 was considered significant.

Results

During the study period, from November 2017 to August 2019 there were 110 couples with unexplained infertility and planned to have intrauterine insemination after controlled ovarian stimulation. Initially they were 121 couples, but 11 couples were excluded from the study after they achieved pregnancy spontaneously during a period of 1 to 3 months of expectant management. In this study 198 cycles of controlled ovarian stimulated intrauterine insemination were analyzed. There were 34 cases achieved pregnancy and 39 baby were a product of this study, all newborns were examined by a neonatologists . The overall pregnancy rate in our study was 30.9%, cases of multiple pregnancies was reported , no case of ectopic pregnancy and ovarian hyperstimulation syndrome were recorded in this study.

Couples characteristics

The characteristics of couples with unexplained infertility selected for the controlled ovarian stimulation(COH) and intrauterine insemination (IUI) are summarized in Table1.The mean age of females in a positive pregnancy group was 23.8± 4.3, while for females in a negative pregnancy group was 26.2±2.2years.The mean age of males in a positive pregnancy group was 26.4±2.7, while for males in a negative pregnancy group was 28.1±4.6 years.

Characteristics Of Couples

Positive Pregnany Group (34)

Negative Pregnany Group (76)

P Value

Age of female (years)

23.8± 4.3

26.2±2.2

< 0.001

Age of male (years)

26.4±2.7

28.1±4.6

0.047

Duration of infertility (years)

6.71+ ± 2.79

28.51 ± 2.22

< 0.001

*Primary infertility

20 (18.1%)

41(37.2%)

0.046

*Secondary infertility

14(12.7%)

35(31.8%)

0.035

Data are presented as mean ± SD * Data are presented as number (percent), P < 0.05 = Significant, P < 0.001 highly significant

Table 1: Characteristics of couples with unexplained infertility selected for COH and IUI

The mean duration of infertility in a positive pregnancy group was 6.71+ ± 2.79 and it was 28.51 ± 2.22 in a negative pregnancy group.The type of infertility was primary infertility in 20 (18.1%) cases with a positive pregnancy group and in a negative pregnancy group was 41(37.2%) cases. In 14(12.7%) cases infertility was due to secondary type in a positive pregnancy group while in a negative pregnancy group was 35(31.8%) cases. .

There was statistically highly significant difference between the positive pregnancy group and negative pregnancy group regarding the effect of female age and the duration of infertility on pregnancy rate, type of infertility and paternal age were significantly affect the pregnancy rate.

Sonographic evaluation

The transvaginal sonographic evaluation on the day of triggering the ovulationin couples with unexplained infertility selected for the controlled ovarian stimulation (COH) and intrauterine insemination(IUI) and are summarized in Table 2.

Ultrasound

Parameters

Posative Pregnany Group (34)

Negative Pregnany Group (76)

P Value

Size of follicles (mm)

20.73±2.28

19.3±1.22

< 0.001

Number of follicles

3.2 ± 1.16

2.13 ± 0.71

< 0.001

Endometrial thickness (mm)

10.33±1.13

8.12±1.46

< 0.001

Data are presented as mean ± SD, P < 0.05 = Significant, P < 0.001 highly significant

Table 2: Sonographic evaluation in couples with unexplained infertility selected for the COH and IUI

The mean size of follicles in a positive pregnany group was 20.73±2.28, while in a negative pregnancy group was 19.3±1.22. The mean number of follicles was 3.2 ± 1.16 in a positive pregnany group and was 2.13 ± 0.71 in a negative pregnancy group .Thicker endometrium was noted in pregnant group10.33±1.13 than in non-pregnant group 8.12±1.46.

Pregnant women showed a highly significant number of follicles, larger follicles and thicker endometrium than non pregnant group.

Semen parameters

The semen parameters of male selected for the IUI and are summarized in Table 3. There was a highly significant difference between the two group regarding (total sperm count, sperms with progressive motility and total motile sperms) after processing, while there was a significant difference between the two groups regarding (total sperm count and sperms with progressive motility) before processing. No statistically significant difference was observed between the two group regarding total sperm motility before processing.

Pregnancy outcome

The pregnancy outcome and mode of delivery in couples with unexplained infertility selected for the controlled ovarian stimulation (COH) and Intrauterine insemination(IUI) and are summarized in Table 4. Among 34 pregnancies 27 (79.4%) cases were singleton pregnancy, 6(17.6 %) cases were twin pregnancy, one (2.9%) case was triple pregnancy, in another one (2.9%) case pregnancy was ended with miscarriage and no ectopic pregnancy was recorded in our study. In 11(32.3 %) cases type and mode of delivery was spontaneous vaginal delivery, while in 23(67.6 %) cases, deliver was elective cesarean delivery due to prolonged infertility.

Semen

Parameters

Posative Pregnany Group (34)

Negative Pregnany Group (76)

P-Value

Total sperm motility

Before

After

27.14±11.82

39.64± 15.22

22.15±15.13

23.83± 11.34

0.091

< 0.001

Progressive motility

Before

After

12.67±6.82

33.21± 4.41

10.21±5.41

22.71± 7.83

0.044

< 0.001

Total sperm number

Before

After

74.12±20.17

60.84±20.43

64.84±11.12

37.89± 16.32

0.002

< 0.001

Data are presented as mean ± SD, P < 0.05 = Significant, P < 0.001 highly significant

Table 3: Semen parameters of male with unexplained infertility selected for intrauterine insemination

Pregnancy Outcome

Values

Singleton

27 ( 79.4%)

Twine pregnancy

6(17.6 %)

Triple pregnancy

1 (2.9%)

Miscarriage

1(2.9%)

Ectopic

0(0 %)

Vaginal delivery

11(32.3 %)

Elective cesarean

23(67.6 %)

Table 4: Pregnancy outcome and mode of delivery in couples with unexplained infertility selected for COH and IUI

Newborn characteristics at delivery.

The characteristics of the newborn at delivery are summarized in Table 5. There were 39 baby born. The sex of the baby in 17 (43.5%) cases was male and in 22 (56.4%) cases was female. The gestational age at delivery was between (34-40weeks), in 6 (15.3%)cases was between 34-36weeks, while in 33 (84.6 %) cases was between 37-40weeks. The weight of the baby at birth was between 2.2kg-3.5kg, in 11 (28.2 %) cases was between 2.2 -2.5kg and, in 28 (71.7 %) cases was between 2.6-3.5kg.

Characteristics

Values

Numbers of newborn

39

Sex

· Male

· Female

17 (43.5%)

22 (56.4%)

Gestational age

· 34-36 weeks

· 37-40weeks

(34-40)weeks

6 (15.3%)

33 (84.6 %)

Birth weight

· 2.2-2.5kg

· 2.6-3.5kg

2.2-3.5kg

11 (28.2 %)

28 (71.7 %)

Table 5: Newborn characteristics at delivery

Discussion

This study outlines the pregnancy rate and outcome achieved by 198 cycles of controlled ovarian stimulated IUI and its related factors. The overall pregnancy rate in our study was 30.9%. In one study after 971 insemination cycles 47 successful pregnancies were obtained, with an overall pregnancy rate of 31 % [17]. in another study the overall pregnancy rate was 22% (77/350) [18]. In one paper presents the analysis of 901 cycles of intrauterine artificial insemination with the husband's spermatozoa (AIHIU) in 274 couples who obtained 80 pregnancies, the cumulative pregnancy rate after three cycles of AIHIU was 22% and reached 39% after six cycles [9]. In one research have been done the overall pregnancy rate was 22% in 350 IUI cycles [20].

Several studies confirmed the age of the couple, especially female age, was significant factor in successful outcome of IUI, this may be due to age related follicular depletion and bad quality of oocytes [21]. In our study a positive correlation was found between the female age and successful of IUI in the management of couples with unexplained infertility. In one study showed that The mean age in the pregnant group was significantly lower than that of the non-pregnant group [22]. In another study they found that no association between female age and successful outcome of IUI the management of couples with unexplained infertility [23].

In present study, a correlation was found between the duration of infertility in positive and negative group in couples with unexplained treated by of IUI, this disagreed with one study showed that the duration of infertility had no statistically significance in relation to pregnancy rate [24]. while our study was agreed with another study [25].

In our study, it was revealed that pregnancy rate was higher in primary infertility than in secondary infertility . There was one study supporting this data [26]. However in one study have been reported that pregnancy rates was 7.9% in the primary infertility group, whereas the rate was 21.4% in the secondary infertility group [27]. While in two another studies revealed that infertility type (primary or secondary) did not affect pregnancy rates [28,29].

In our study the number of dominant follicles/cycles was more among positive pregnancy group this agreed with one study [30]. In the meta-analysis containing 11599 cycles, reported that the development of two follicles increased the pregnancy rate more than that with one follicle development [31]. In another study reported that multi-follicular development in IUI did not improve the chances of pregnancy, but rather increased only the number of multiple gestation possibilities [32].

In our study the diameter of the dominant follicle was larger in pregnant group than in non- pregnant group this agreed with one study reported that the success rate in controlled ovarian stimulation and intrauterine insemination cycles closely related to obtaining of optimal size of follicles [33]. While another study reported that the diameter of the dominant follicle did affect the pregnancy rate [31].

In the present study there was significant difference between the pregnancy rate and endometrial thickness. In one study reported that endometrial thickness was greater in the gonadotropin group when compared to the letrozole groups [34]. Another study reported that, a non significant increase in endometrial thickness on the day of hCG administration was observed in the letrozole group [35].

There is a lack of agreement exists about the best semen parameters to predicate pregnancy rate after IUI [36]. Several studies reported the effect of semen parameters on IUI success [37,38]. In a retrospective cohort study failed to indicate such a relationship [39]. In our study, There were a significant difference between the two group regarding (total sperm count, sperms with progressive motility) before and after processing and also there was a significant difference between the two groups regarding total motile sperms ) after processing, while no significant difference was found between the two group regarding total sperm motility before processing.

In a systematic review, they observed that total motile sperm count was an important factor for predicting pregnancy rate [40]. Several studies have shown that progressive motility was considered important factor for pregnancy rate after sperm processing [41]. In our results showed that with the increase of progressive motile sperm increase the pregnancy rate similar with the results of some articles [42,43]. Several studies found no significant relationship between total sperm count and IUI success (pre and post semen processing) [44,45].

In our study seven cases of multiple pregnancies were recorded. Previous reports in the literature indicated high rate of multiple pregnancies in stimulated IUI [46,47]. No case of ectopic pregnancy was reported in our study, in one study reported that rate of ectopic pregnancy was 8% [48]. No cases of ovarian hypertimulation ovarian syndrome was reported in our study this is may be due to the absence of a defect in ovulation in unexplained infertility, which is believed to be the most important predisposing factor for ovarian hyperstimulation syndrome [49]. In our study rate of miscarriage was very low this rate is lower than rates reported by in vitro fertilization [50]. In our study no case of infection was reported , as the risk of infection with the use of modern methods of semen preparation is negligible [51].

There are three major limitations in this study that must be considered. The first, small sample size. Second, the study was reviewed retrospectively, no document was available about body mass index. The third limitation of this study was that LH surge was not used for ovulation trigger. The major strength of our study was, approximately most of the associated factors for predicting pregnancy rate in couple treated with controlled ovarian hyperstimulation and IUI were studied.

Conclusion

Infertile couple with absence major reasons for infertility and normal test results are considered to have unexplained infertility, but it certainly diagnostic testing available cannot identify all the reasons, so active treatment should be applied after three months of failed expectant management and not just wait and see especially in older woman however, couple should be involved in the final decision about which treatment method to use. Ovarian stimulation combined with IUI can be offered to the couples with unexplained infertility as a safe and cost-effective treatment before jumping into in vitro fertilization and, should be limited to a maximum of three cycles, but recommend that couples be informed of all information about the chances of success as well as the costs and complications of this treatment .Further accurate and well formulated various factors would help in future for decision making regarding treatment of couple with unexplained infertility.

Declarations

Ethics approval and consent to participate

The ethical approval from the Ethics and Scientific committee at the Kurdistan board for Medical Specialties was obtained. The ethics committee reference numbers was 32/0845 .The written informed consent of all the participants was obtained

Competing interests

There are no conflicts of interests to declare

Funding

There was no source of funding for this research.

Acknowledgements

We would like to thank the medical and technical teams from the three infertility centers for their help .We would also like to thank all for providing assistance with the manuscript preparation. We also thank everyone involved in the collection and interpretation of data.

References

  1. Mascarenhas MN, Flaxman SR, Boerma T, Vanderpoel S, Stevens GA. National, Regional, and Global Trends in Infertility Prevalence Since 1990: A Systematic Analysis of 277 Health Surveys. PLoS Med 9 (2012): e1001356.
  2. Practice Committee of American Society for Reproductive Medicine. Definitions of infertility and recurrent pregnancy loss. Fertil Steril 90 2008): S60.
  3. Nandi A, Bhide P, Hooper R, et al. Intrauterine insemination with gonadotropin stimulation or in vitro fertilization for the treatment of unexplained subfertility: A randomized controlled trial. Fertil Steril 107 (2017): 1329-1335.e2.
  4. Moghissi KS, Wallach EE. Unexplained infertility. Fertil Steril 39 (1983): 5.
  5. Zegers-Hochschild F, Adamson GD, Dyer S, Racowsky C, de Mouzon J, et al. The international glossary on infertility and fertility care. Hum Reprod32 (2017): 1786-1801.
  6. Reindollar RH, Regan MM, Neumann PJ, Levine BS, Thornton KL, et al. A randomized clinical trial to evaluate optimal treatment for unexplained infertility: the fast track and standard treatment (FASTT) trial. Fertil Steril 94 (2010): 888-899
  7. Hull MG. Effectiveness of infertility treatments: choice and comparative analysis. Int J Gynaecol Obstet 47 (1994): 99.
  8. Smith JF, Eisenberg ML, Millstein SG, et al. Fertility treatments and outcomes among couples seeking fertility care: data from a prospective fertility cohort in the United States. Fertil Steril 95 (2011): 79.
  9. Esteves SC, Schattman G, and Agarwal A. Definitions and relevance of unexplained infertility in reproductive medicine. in: L. Schattman, S.C. Esteves, A. Agarwal (Eds.) Unexplained Infertility: pathophysiology, evaluation and treatment. Springer, New York; 2015: 3-5.
  10. Hull MG, Glazener CM, Kelly NJ, et al. Population study of causes, treatment, and outcome of infertility. Br. Med. J. (Clin. Res. Ed.) 291 (1985): 1693-1697.
  11. Diamond MP, Legro RS, Coutifaris C, et al. Letrozole, Gonadotropin, or Clomiphene for Unexplained Infertility. N Engl J Med 373 (2015): 1230.
  12. Goverde AJ, Lambalk CB, McDonell J, Schats R, Homburg R, Vermiden JP. Further considerations on natural or mild hyperstimulation cycles for intrauterine insemination treatment: effects on pregnancy and multiple pregnancy rates. Hum Reprod 20 (2005): 3141-3146.
  13. Kansal-Kalra S, Milad MP, Grobman WA. In vitro fertilization (IVF) versus gonadotropins followed by IVF as treatment for primary infertility: a cost-based decision analysis. Fertil Steril 84 (2005): 600.
  14. Aboulghar MA, Mansour RT, Serour GI, et al. Management of long-standing unexplained infertility: A prospective study. Am J Obstet Gynecol 181 (1999): 371.
  15. Hughes E, Collins J, Vandekerckhove P. Bromocriptine for unexplained subfertility in women. Cochrane Database Syst Rev 2000: CD000044.
  16. Hughes E, Tiffin G, Vandekerckhove P. Danazol for unexplained infertilty. Cochrane Database Syst Rev 2000: CD000069.
  17. Sato H, Kaneko S, Kobayashi T, Oda T, Ohno T, Lizuka R. Improved semen qualities after continuous step density gradient centrifugation: application to artificial insemination and pregnancy outcome. Arch Androl 24 (1990): 87-93.
  18. Scemama H, Salat-Baroux J, Antoine JM, Saada H, Cohen-Bacrie P. L’hyperstimulation controlee du cycle associee a une insemination intrauterine de sperme migre du conjoint. Gynecologic 1 (1993): 125-3
  19. Mathieu C, Ecochard R, Bied V, Lornage J, Czyba JC. Cumulative conception rate following intrauterine artificial insemination with husband’s spermatozoa: influence of husband’s age. Hum Reprod 10 (1995): 1090-7.
  20. Paulmyer-Lacroix O, Molle L, Noizet A, Guérin A, Mollar M, Gamerre M, et al. Intrauterine insemination with the husband’s sperm: conclusions of five years experience. Contracept Fertil Sex 26 (1998): 300.
  21. Abdalla HI, Burton G, Kirkland A, Johnson MR, Leonard T, Brooks AA, et al. Age, pregnancy and miscarriage: uterine versus ovarian factors. Hum Reprod 8 (1993): 1512-7.
  22. Eftekhari Yazdi P, Zolfaghari Z. Evaluating The Effective Factors in Pregnancy after Intrauterine Insemination: A Retrospective Study. Int J Fertil Steril 9 (2015): 300-8.
  23. AM Isa, et al. Accurate diagnosis as a prognostic factor in intrauterine insemination treatment of infertile Saudi patients. Journal of Reproduction and Infertility 15 (2014): 184-189.
  24. PY Tay, et al. Prognostic factors influencing pregnancy rate after stimulated intrauterine insemination. Medical Journal of Malaysia 62 (2007): 286-289.
  25. M Ashrafi, et al. The role of infertility etiology in success rate of intrauterine insemination cycles: an evaluation of predictive factors for pregnancy rate. International Journal of Fertility and Sterility 7 (2013): 100-107.
  26. Zadehmodarres S, Oladi B, Saeedi S, Jahed F, Ashraf H. Intrauterine insemination with husband semen: an evaluation of pregnancy rate and factors affecting outcome. J Assist Reprod Genet 26 (2009): 7-11.
  27. Guven S, Gunalp GS, Tekin Y. Factors influencing pregnancy rates in intrauterine insemination cycles. J Reprod Med. 2008;53:257-65
  28. Ibérico G, Vioque J, Ariza N, Lozano JM, Roca M, Llácer J, et al. Analysis of factors influencing pregnancy rates in homologous intrauterine insemination. Fertil Steril 81 (2004): 1308-13.
  29. Dorjpurev U, Kuwahara A, Yano Y, Taniguchi T, Yamamoto Y, Suto A, et al. Effect of semen characteristics on pregnancy rate following intrauterine insemination. J Med Invest 58 (2011): 127-33.
  30. RP Dickey, et al. Effect of diagnosis, age, sperm quality, and number of preovulatory follicles on the outcome of multiple cycles of clomiphene citrate-intrauterine insemination. Fertility and Sterility 78 (2002): 1088-1095.
  31. van Rumste MM, Custers IM, van der Veen F, van Wely M, Evers JL, Mol BWJ. The influence of the number of follicles on pregnancy rates in intrauterine insemination with ovarian stimulation: a meta-analysis. Hum Reprod Update 14 (2008): 563-70.
  32. van Rumste MM, den Hartog JE, Dumoulin JC, Evers JL, Land JA. Is controlled ovarian stimulation in intrauterine insemination an acceptable therapy in couples with unexplained non-conception in the perspective of multiple pregnancies? Hum Reprod 21 (2006): 701-4.
  33. Fallah Tafti T,et al. Evaluation of the Appropriate Size of Follicles on Success Rate in Patient Undergoing Controlled Ovarian Stimulation and Intrauterine Insemination Cycles. Journal of Advanced Medical Sciences and Applied Technologies 3 (2017): 101-108.
  34. Quintero RB, et al. A Comparison of Letrozole to Gonadotropins for Ovulation Induction, in Subjects Who Failed to Conceive with Clomiphene Citrate. Fertility and Sterility 88 (2007): 879-885.
  35. Abu Hashim H, Shokeir T, Badawy A. Letrozole versus combined metformin and clomiphene citrate for ovulation induction in clomiphene-resistant women with polycystic ovary syndrome: a randomized controlled trial. Fertil Steril 94 (2010): 1405-1409.
  36. Wiser A, Herrero B, Hyman J, Reinblatt S, Shalom-Paz E. What are the best semen parameters to predict pregnancy in intrauterine insemination cycles? IVF Lite 1 (2014): 153-7.
  37. Atasever M, Kalem MN, Hat?rnaz ?, Hat?rnaz E, Kalem Z, Kalayl?o?lu Z. Factors affecting clinical pregnancy rates after IUI for the treatment of unexplained infertility and mild male subfertility. J Turk Ger Gynecol Assoc 17 (2016): 134-8
  38. Ruiter-Ligeti J, Agbo C, Dahan M. The impact of semen processing on sperm parameters and pregnancy rates after intrauterine insemination. Minerva Ginecol J 69 (2017): 218-24.
  39. Luco SM, Agbo C, Behr B, Dahan MH. The evaluation of pre and post processing semen analysis parameters at the time of intrauterine insemination in couples diagnosed with male factor infertility and pregnancy rates based on stimulation agent. A retrospective cohort study. Eur J Obstet Gynecol Reprod Biol 179 (2014): 159-62.
  40. Ombelet W, Dhont N, Thijssen A, Bosmans E, Kruger T. Semen quality and prediction of IUI success in male subfertility: a systematic review. Reproductive Biomedicine Online 28 (2014): 300-
  41. Van Weert JM, Repping S, Van Voorhis BJ, van der Veen F, Bossuyt PM, Mol BW: Performance of the postwash total motile sperm count as a predictor of pregnancy at the time of intrauterine insemination: a meta-analysis. Fertil Steril 82 (2004): 612-620.
  42. Tan O, Ha T, Carr BR, et al. Predictive value of postwashed total progressively motile sperm count using CASA estimates in 6871 non-donor intrauterine insemination cycles. J Assist Reprod Genet 31 (2014): 1147-1153.
  43. Ok EK, Do?an OE, Okyay RE, et al. 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 14 (2013): 142-145.
  44. Hassan N, Agbo C, Dahan MH. Pregnancy rates unaffected by sperm count in intrauterine insemination: a retrospective cohort study. Minerva Ginecol 69 (2017): 6-12.
  45. Xiao CW, Agbo C, Dahan MH. Comparison of pregnancy rates in pre-treatment male infertility and low total motile sperm count at insemination. Arch Gynecol Obstet 293 (2016): 211-7.
  46. Remohi J, Gastaldi C, Patrizio P, Gerli S, Ord T, Asch RH, et al. Intrauterine insemination and controlled ovarian hyperstimulation in cycles before GIFT. Hum Reprod 4 (1989): 918-20.
  47. Shelden R, Kemmann E, Bohrer M, Pasquale S. Multiple gestation is associated with the use of high sperm numbers in the intrauterine insemination specimen in women undergoing gonadotropin stimulation. Fertil Steril 49 (1988): 607.
  48. Dodson WC, Haney AF. Controlled ovarian hyperstimulation and intrauterine insemination for treatment of infertility. Fertil Steril 55 (1991): 457-67.
  49. Aboulghar MA, Mansour RT, Serour GI, Elattar I, Amin Y. Follicular aspiration does not protect against the development of ovarian hyperstimulation syndrome. J Asst Reprod Genet 9 (1992): 238-43.
  50. Medical Research International, Society for Assisted Reproductive Technology, The American Fertility Society. In vitro fertilization-embryo transfer (IVF-ET) in the United States: 1989 results from the IVF-ET Registry. Fertil Steril 55 (1991): 14-23.
  51. Allen NC, Herbert CM III, Maxson WS, Rogers BJ, Diamond MP, Wentz AC. Intrauterine insemination: a critical review. Fertil Steril 44 (1985): 569-80

© 2016-2024, Copyrights Fortune Journals. All Rights Reserved