Endokrinologikum Hamburg, Zentrum für Hormon- und Stoffwechselerkrankungen, Reproduktionsmedizin und Gynäkologische Endokrinologie, Lornsenstrasse 46, 22767 Hamburg, Germany
1 To whom correspondence should be addressed. Email: frank.nawroth{at}endokrinologikum.com
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Abstract |
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Key words: cryopreservation/embryo/progesterone/replacement protocol
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Introduction |
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The problem of progesterone in assisted reproduction treatment cycles apparently is the correct timing. We therefore would like to discuss the data on: (i) the start of progesterone replacement in oocyte donation programmes; (ii) the start of progesterone replacement in frozenthawed hormone-supplemented cycles; (iii) the problem of too early a rise of progesterone in fresh IVF cycles as a model of too early an administration of progesterone; and (iv) the benefit of high progesterone levels on the day of embryo transfer in fresh IVF cycles. Taking all information together, we will suggest a protocol for the optimal preparation of frozenthawed cycles in IVF patients.
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Importance of an adequate period of estrogen administration before starting progesterone supplementation |
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Successful implantation also was observed in an extreme situation even after 100 days of unopposed estradiol valerate administration (Remohi et al., 1995). Ovulatory patients in this study received a GnRH analogue simultaneously. Break-through bleeding increasingly appeared according to the duration of estrogen replacement. These clinical observations provide evidence that the concept of prolonged follicular phase estrogen replacement for ovum donation can be maintained, at least as long as 15 weeks. Because of the high incidence of break-through bleeding after 9 weeks (>44%), the authors recommended stopping estrogen replacement after this time. Yaron et al. (1995)
extended uterine preparation with estradiol as long as 5 weeks without significantly decreased pregnancy rates.
It was suggested that shorter and lower dosage protocols of estradiol priming of the endometrium could result in higher abortion rates. This indicates an optimal endometrial proliferation which is necessary to enable optimal development of progesterone receptors and subsequent transformation into an endometrium receptive to the transferred embryo (Navot et al., 1991). Neither endometrial thickness nor serum estradiol were able to predict optimal receptivity and therefore outcome in oocyte donation (Remohi et al., 1997
). Banz et al. (2002)
concluded from their results in cryopreservation cycles that monitoring is unnecessary in a protocol with estradiol patches and progesterone vaginal gel.
In cases outside donation programmes we do not have the problem of asynchrony because the patients' own cells are cryopreserved. Devroey and Pados (1998) presumed that an adequate period of estrogen administration is necessary in order to achieve a subsequent normal secretory endometrium. They have summarized different studies and demonstrated that it is possible to vary the length of the follicular phase and still achieve satisfactory reproductive outcome.
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Endometrial pinopodes as one method to individualize progesterone pretreatment and to optimize endometrial receptivity before transfer |
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One may speculate that an individualized endometrial preparationespecially individualized duration of progesterone pretreatmentcould improve implantation rates. Pantos et al. (2004) investigated endometrial pinopodescharacteristic protrusions on the surface of the endometrial epithelial cells during the luteal phaseusing scanning electron microscopy (SEM). Pinopodes as markers of endometrial receptivity appear to correspond to the window of implantation. In a mock cycle, endometrial samples were taken on days 6 and 8 (P6 and P8) after starting progesterone administration for the detection of pinopodes using SEM. Transfer of day 3 embryos was standard in the authors' centre. In nearly 74% a modified transfer cycle was suggested (following pinopode detection) and applied by altering and extending the duration of progesterone pretreatment to synchronize day 3 embryos in P5 endometrium. They achieved significantly higher pregnancy and delivery rates comparing cycles with and without modification. This is in agreement with other studies reporting delayed pinopode formation in artificial cycles compared with natural or IVF cycles (Nikas et al., 1995
). In contrast, long stimulation protocols with GnRH agonist and gonadotrophins led to accelerated pinopode development by 12 days compared with natural cycles (Develioglu et al., 1999
).
Nikas et al. (1995) reported that assessing the time of pinopode expression can prove helpful in defining endometrial receptivity, because pregnancy rates have been shown to improve with adjustment of the day of transfer (Nikas and Psychoyos, 1997
).
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Studies evaluating the duration of progesterone administration before embryo transfer in oocyte donation programmes with estradiol/progesterone-supplemented recipient cycles |
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In different studies dealing with oocyte donation, the transfers were performed on the second (Abu-Musa et al., 1998; Zegers-Hochschild et al., 2000
), third (Remohi et al., 1997
; Zegers-Hochschild et al., 2000
), fourth (Jobanputra et al., 1999
; Tesarik et al., 2003
) and fifth (Ben-Nun and Shulman, 1997
) day of progesterone administration or even later (Navot et al., 1986
, 1991
) (Table I).
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Prapas et al. (1998) performed an interesting retrospective study on the association between the window of embryo transfer and the duration of progesterone therapy. They transferred day 2 embryos (46-cell) after 2, 3, 4, 5 and 6 days following initiation of endometrial exposure to progesterone. Their results indicate that the window of implantation depends on the duration of progesterone treatment. It begins
48 h after starting progesterone administration and lasts for
4 days. Highest pregnancy rates were achieved after 5 days (48.3%), with lower rates after 4 days (40%), 6 days (20.4%) and 3 days (12%). No pregnancies were observed after 2 days of progesterone administration.
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Studies evaluating the duration of progesterone administration before frozenthawed embryo transfer in estradiol/progesterone-supplemented cycles |
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A search of the related literature from estradiol/progesterone-supplemented cycles to prepare endometrium for cryopreservedthawed day 23 embryos shows varying days, preparations and dosages of progesterone administration before transfer of cryopreservedthawed non-fertilized oocytes, pronucleated oocytes or embryos (Table II). It is not possible to find a rational guideline for when to start progesterone before transfer. In most published studies the transfers of day 23 embryos were performed on the third day of progesterone administration. Lelaidier et al. (1995) have shown high pregnancy rates after transferring blastocysts on the fifth day of progesterone administration and concluded that the implantation window was brought forward in time in the case of blastocysts.
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One possibility could be to transfer the experiences of donation programmes, but this would mean extending progesterone administration before transfer and/or finding the optimal individual transfer protocol after mock cycles with pinopode detection or other methods applicable in routine IVF programmes.
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The level of progesterone in the late follicular phase of IVF cyclesa similiar problem? |
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In comparison to the influence of increasing endogenous progesterone, the administration of progesterone before oocyte retrieval was associated with a lower pregnancy rate than the administration after oocyte retrieval (Sohn et al., 1999). The question is, however, whether this negative effect results from an effect on the oocytes or the endometrium.
The most common explanation of increasing progesterone level is based on the correlation of a subtle progesterone rise with a high response (Fanchin et al., 1993; Givens et al., 1994
; Ubaldi et al., 1996
; Lindheim et al., 1999
). Likewise it was discussed whether excessive granulosa cell sensitivity due to supraphysiological levels of FSH may lead to activation of LH receptors even in the presence of low LH levels, since LH receptors are expressed as a consequence of estradiol and FSH (Harada et al., 1995
; Ubaldi et al., 1995a
).
Ubaldi et al. (1995a) reported significantly higher LH levels in a high progesterone group as compared to controls, but no correlation with pregnancy rates, suggesting that low LH levels can luteinize granulosa cells without ovulation. No correlation was shown with immunological or bioactive LH levels, either in a short protocol (Harada et al., 1995
) or with elevated LH levels (Abuzeid and Sasy, 1996
; Fanchin et al., 1997a
). Adonakis et al. (1998)
could not show a correlation with additional administration of hMG.
Finally, circadian ACTH variations and an adrenal contribution of progesterone were suggested, since dexamethasone was found to suppress early progesterone rise and androgens show a concomitant peak with progesterone (Eldar-Geva et al., 1997; Fanchin et al., 1997b
).
The effects found to be associated with an early progesterone rise are shown in Table III. Mostly, endometrium quality seems to drop. The detrimental effect, however, is counterbalanced by the positive effect of the high response or the fact that those patients with an early progesterone rise are mostly patients with a good prognosis to become pregnant. This high response in those patients is at least partly confirmed by the observation that a post-hCG increase of progesterone correlates with a positive cycle outcome (Gonen et al., 1993; Prien et al., 1994
). Fanchin et al. (1997a)
confirmed this theory when they analysed 1012 patients who underwent 1189 cycles. They did a subanalysis according to poor, intermediate and good response. A subtle progesterone rise only in poor-response patients had a significant influence on pregnancy rates (Fanchin et al., 1997a
).
Develioglu et al. (1999) have shown that higher levels of progesterone the day after hCG are the most predictive feature of early pinopode detection correlating with endometrial prematurity after GnRH agonist/gonadotrophin stimulation.
Ubaldi et al. (1995b) demonstrated a case report of a patient with repeated IVF cycles, in which progesterone levels were elevated to >4 ng/ml. The patient became pregnant twice, experienced one abortion and one delivery. This group confirmed their results, that a rise in progesterone does not have any negative impact after that in a large cohort of >1200 ICSI cycles (Ubaldi et al., 1995a
). It may be hypothesized that the exclusive use of ICSI in this cohort influenced the resultsnot by ICSI itself, but by the cohort of preselected patients. It may be that in an IVF cohort, patients are more sensitive to those subtle changes, since the female factor is the predominant one in this groupin contrast to patients treated by ICSI.
Results of the study by Moffitt et al. (1997) confirmed no significant differences in the progesterone levels on the day of hCG between patients who conceived in both fresh and cryopreserved cycles.
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The benefit of high progesterone levels on the day of embryo transfer in fresh IVF cycles |
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Ayoubi et al. (2001) also demonstrated a lower contractility as early as 3 days after starting administration of 45 mg micronized progesterone transvaginally.
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Conclusion |
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The data from fresh IVF cycles show that neither too early nor too late a progesterone administration is beneficial. The method of pinopode detection is not appropriate in routine work but the question is: how we can individualize the protocol in our daily practice?
We think that the paper by Pantos et al. (2004) could stimulate awareness that there is work to do. Perhaps further studies will show that we have a broad range of equally effective protocols with different lengths of progesterone pretreatment before the transfer of cryopreservedthawed cells, as is suggested from the studies in Table I with regard to oocyte donation.
From the data reviewed in this paper it seems to be appropriate to start progesterone administration before transfer of cryopreservedthawed cells as soon as the endometrium is developed sufficiently (8 mm, trilaminar pattern), and to perform the embryo transfer not before day 34 of progesterone treatment, i.e. embryo development on day 23. One has to take into account that hCG administration in fresh cycles will already have led to an increase in progesterone levels and that therefore endometrium will progress quickly compared with frozenthawed cycles which are hormone supplemented.
At the moment this question is open for discussion. We need more studies to be sure whether reproductive outcome after transfer of cryopreservedthawed cells in estrogen/progesterone-supplemented cycles is influenced by the duration of progesterone pretreatment. If this is so, we must look for practicable methods to modify the protocols according to the individual patient, the embryonic developmental stage during transfer and other variables.
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Submitted on October 26, 2004; resubmitted on January 4, 2005; accepted on January 6, 2005.
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