植入培養液添加Hyaluronic acid  (EmbryoGlue) 無法有效提高胚胎著床率

Hyaluronic acid–enriched transfer medium for frozen embryo transfer: a randomized, double-blind, controlled trial

Published:April 09, 2021DOI:https://doi.org/10.1016/j.fertnstert.2021.02.015

Objective

To compare the effects of hyaluronic acid (HA)–enriched transfer medium versus standard medium on live birth rate after frozen embryo transfer (FET).

Patient(s)

Infertile women aged <43 years at the time of in vitro fertilization undergoing FET.

Intervention(s)

The women were randomly assigned to 2 groups in a 1:1 ratio. The HA group used EmbryoGlue (Vitrolife, Gothenburg, Sweden) with an HA concentration of 0.5 mg/mL, while the control group used supplemented G-2 (Vitrolife) medium with an HA concentration of 0.125 mg/mL.

Result(s)

Five hundred fifty women were recruited from April 2016 to April 2018 and included in the intention-to-treat analysis. Eight women in the HA group and 5 women in the control group did not undergo FET because the embryos did not survive on thawing. One woman in the HA group cancelled FET because of fever. One woman in the HA group withdrew and received conventional medium. The 2 groups were similar in demographic characteristics. The live birth rates in the HA group and the control group were comparable (25.5% vs. 25.8%; relative risk 0.99; 95% confidence interval 0.74–1.31). The other clinical outcomes were also similar between the 2 groups. Logistic regression showed that the type of transfer medium was not associated with live birth.

Conclusion(s)

The use of HA-enriched transfer medium does not improve the live birth rate of FET compared with standard medium.

取卵後一月凍胚植入 vs  取卵後一月凍胚植入

---懷孕率無明顯差異

Immediate versus postponed frozen embryo transfer after IVF/ICSI: a systematic review and meta-analysis

Sara J Bergenheim, Marte Saupstad, Nina Pistoljevic, Anders Nyboe Andersen, Julie Lyng Forman, Kristine Løssl, Anja Pinborg

Human Reproduction Update, dmab002, https://doi.org/10.1093/humupd/dmab002

Published:

 

16 February 2021

 Article history

BACKGROUND

In Europe, the number of frozen embryo transfer (FET) cycles is steadily increasing, now accounting for more than 190 000 cycles per year. It is standard clinical practice to postpone FET for at least one menstrual cycle following a failed fresh transfer or after a freeze-all cycle. The purpose of this practice is to minimise the possible residual negative effect of ovarian stimulation on the resumption of a normal ovulatory cycle and receptivity of the endometrium. Although elective deferral of FET may unnecessarily delay time to pregnancy, immediate FET may be inefficient in a clinical setting, following an increased risk of irregular ovulatory cycles and the presence of functional cysts, increasing the risk of cycle cancellation.

OBJECTIVE AND RATIONALE

This review explores the impact of timing of FET in the first cycle (immediate FET) versus the second or subsequent cycle (postponed FET) following a failed fresh transfer or a freeze-all cycle on live birth rate (LBR). Secondary endpoints were implantation, pregnancy and clinical pregnancy rates (CPR) as well as miscarriage rate (MR).

SEARCH METHODS

We searched PubMed (MEDLINE) and EMBASE databases for MeSH and Emtree terms, as well as text words related to timing of FET, up to March 2020, in English language. There were no limitations regarding year of publication or duration of follow-up. Inclusion criteria were subfertile women aged 18-46 years with any indication for treatment with IVF/ICSI. Studies on oocyte donation were excluded. All original studies were included, except for case reports, study protocols and abstracts only. Covidence, a Cochrane-tool, was used for sorting and screening of literature. Risk of bias was assessed using the Robins-I tool and the quality of evidence using the Grading of Recommendations, Assessment, Development and Evaluation framework.

OUTCOMES

Out of 4124 search results, 15 studies were included in the review. Studies reporting adjusted odds ratios (aOR) for LBR, CPR and MR were included in meta-analyses. All studies (n = 15) were retrospective cohort studies involving a total of 6,304 immediate FET cycles and 13,851 postponed FET cycles including 8,019 matched controls. Twelve studies of very low to moderate quality reported no difference in LBR with immediate versus postponed FET. Two studies of moderate quality reported a statistically significant increase in LBR with immediate FET and one small study of very low quality reported better LBR with postponed FET. Trends in rates of secondary outcomes followed trends in LBR regarding timing of FET. The meta-analyses showed a significant advantage of immediate FET (n =2,076) compared to postponed FET (n =3,833), with a pooled aOR of 1.20 (95% CI 1.01–1.44) for LBR and a pooled aOR of 1.22 (95% CI 1.07–1.39) for CPR.