Selective single blastocyst transfer study: 604 cases in 6 years.

AIM
To evaluate the credibility of single blastocyst transfer (SBT) method in selected group of patients.


SETTINGS AND DESIGN
Retrospective analysis of SBT cases based on computerized data in a private Fertility research centre.


MATERIALS AND METHODS
A total of 604 cases of SBTs, done during June 2000 to June 2006, have been analyzed retrospectively to assess the credibility of the method as a method of choice in selective high fertile group of patients. Women between 28 and 42 years have been included in the retrospective analysis, who had adequate number of eggs for fertilization, between 6 and 12.


RESULTS AND CONCLUSIONS
Grade I blastocyst transfer resulted in 46.6% of clinical pregnancy and grade II blastocyst transfer resulted in 17.4% of clinical pregnancy rates. Overall pregnancy rate was 64%. Pregnancy loss, as early and late fetal wastages, was 11.06%.

Single embryo transfer, is becoming a wellaccepted concept, which reduces the problems of multifetal gestation, though there are meager opportunities for monozygotic twinning. Multifetal gestation increases the obstetric risk into many folds. This includes premature delivery, small for gestational age and increased risk of congenital malformations. [1] Many perspective randomized clinical studies support embryo culture up to 5 days till it reaches blastocyst stage to improve implantation rates. Single blastocyst transfer (SBT) is ideal in selected group of IVF cases, with at least Þ ve fertilized eggs and at least three grade I and grade II embryos on day 3. [1][2][3][4][5]

MATERIALS AND METHODS
The aim of the study is to evaluate retrospectively, the outcome of SBT in selected group of patients, bringing out promising results for a period of 6

Original Article
Utensils and disposables were from Falcon, UK. Eppendorf microtips and pipett handles were also used for handling the embryos, in addition to the routine Pastuer pipett es from Falcon. Blastocysts with comparatively thicker zona and embryos of women more than 35 were subjected for Laser-assisted hatching using Saturn Laser system, UK, before ET.
Embryo transfer was cancelled if quality of blastocyst had not reached Grade I or Grade IIAA [ Figures 1 -12 diff erent stages and grades of embryo]. There were separate data maintained for cryopreserved embryos and transfer and not included in this analysis.
Blastocyst quality scoring was done using Gardner and Trounson's criteria [Tables 1 and 2]. Even early hatching blastocysts were taken as grade-I embryo. Cook-K-soft Embryo transfer catheter used for blastocyst transfer with or without ultrasound guidance as per the need. Luteal support was given with Inj. Progesterone (Gestone 50 mgm) in oil everyday. Inj. Pregnyl 1500 IU given on day 5, 9, 13, aft er ovum retrieval. Even mild cases of OHSS were detained from gett ing HCG supplementation. Serum Beta HCG levels assessed 15 days aft er ET. Positive Intrauterine gestational sac observed from 18th day itself in most of the cases. Totally six tubal ectopics reported, out of which four were amenable for methotrexate injections and two cases underwent laparoscopic correction.

RESULTS
Mean age 32.9 years (SD 3.9 years, median 32.3) and 207 women were between 36 and 42 years. In most of the cases, it was II or III att empt IVF cycle. Laser-assisted hatching was done in 63.1% cases. Surplus blastocysts were cryopreserved in 28% of cases (either grades I or II). Serum Beta HCG level is analyzed, 15 days aft er ET. Positive test report, which gave clinical pregnancies, diff ers between 540 and 2150 IU depending on the sac size. Positive Intrauterine gestational sac observed from 18th day itself in most of the cases. Beta HCG levels below 540 mIU ended in either chemical pregnancies or blighted ovum without establishing the embryonic heartbeat. Totally six tubal ectopics reported, out of which four were amenable for methotrexate injections and two cases underwent laparoscopic correction. The causes of infertility for the study group of couples are, Tubal infertility, ovulatory dysfunctions (PCOD, Premature/Primary Ovarian failure and less ovarian reserve), Idiopathic Infertility, Uterine problems corrected (aft er Þ broid/septum resection) and Surrogacy and Male infertility (ICSI done). Incidence of ICSI being 21.9% of the cases. Ovum donation done for 22.6% of cases with genuine ovum donors. Over all male infertility as an indication for this ART work being 38%.
Clinical pregnancy rate for this SBT analysis is 64.1 and 53.2% was the take home baby rate [ Table 3 and chart 1]. Only 3% had monozygotic twinning which is acceptable, when compared with overall twinning rate if more than one embryo were transferred (33.3%). Early and late pregnancy loss was calculated as 11.06%. Clinical pregnancy rate is signiÞ cantly higher with grade I transfers (46.6%) when compared with grade II blastocyst transfer (17.4%). When two blastocysts were transferred the clinical pregnancy rate was higher (70.1%) with more maternal and fetal morbidities      The twin rate, when two blastocysts were transferred were 33.3% as per the previous study reports, while this retrospective analysis has shown only 3% incidence of monozygotic twinning. The main outcome of this  observational study was, significant increase in viable pregnancy rates and birth rates with SBT in a selected group of IVF patients, which is very much encouraging. It could be taken as an ideal embryo culture strategy in those mentioned group of highly fertile couple, to augment the success opportunities. Apart from the advantage of increased clinical pregnancy rates (64.1%), it reduces the multifetal gestation (3%) rates, thereby reducing the morbidities.
Earlier studies [6,7] also confirmed more or less similar beneÞ ts out of SBT. The ESHRE [8] also recommends SET in selected group of patients to reduce the incidence of twins perhaps fewer than 10%.
Certain laboratory conditions are mandatory for undertaking blastocyst cultures as the primary system of the laboratory. It necessitates expertise, optimal culture conditions and adequate experience in this sequential culture system. It also warrants skillful assessment of the blastocyst grading before transfer and correct timing of embryo transfer. Comparatively, blastocyst-microscopical quality evaluation is easier than D2 or D3 assessment and it comes in practice to choose the most viable blastocyst at once [Tables 1 and 2]. The probable reason for the augmented success opportunities may be: 1. We choose the most viable embryo at the end of day 5 (survival of the Þ tt est) for transfer 2. Easier microscopical assessment possible with short exposure time 3. The technique off ers bett er synchronization between embryo and endometrium to have healthy embryo maternal dialogue There are more than 10 perspective randomized controlled trials comparing day 3 and day 5 transfers, supporting the blastocyst transfer on day 5. [9][10][11][12][13][14][15] When SBT programme is undertaken, the rest of the grade I or grade II blastocysts of the couple were cryopreserved. The most crucial event, being the ability to freeze such blastocysts with fairly good pregnancy rates in thaw cycles.
In our study, 89.8% of the couples produced at least one grade I or grade II blastocyst for SBT, most oft en with grade I blastocyst, while 10.2% of the couples had none for ET. But in a previous study, [16] only 80% of cases had successful blastocyst formation on day 5 of the culture. Encouraging higher Þ gures were also reported. [17] This SBT helps in avoiding multifetal gestation, off ering highly beneÞ cial cost-eff ective management for infertility in selected group of couples who have adequate number of mature oocytes and in Ovum donation programmes.