Impact of very low anti-Müllerian hormone on pregnancy success

The effect of micronutrient supplementation on serum anti-Mullerian hormone levels: a retrospective pilot study

BACKGROUND

The anti-Müllerian-hormone (AMH) is secreted by the granulosa cells of the oocytes and can be used as a marker of the ovarian reserve; helpful to estimate female fertility or the menopause onset. Although various factors may influence AMH levels, the correlation with nutritional factors needs more research.

OBJECTIVE

To evaluate the effect of a micronutrient supplementation on female AMH levels.

METHODS

This retrospective analysis includes a total of 244 women, who attended the Karl Landsteiner Institute, Korneuburg, Austria from January 2013 to June 2019 due to an unfulfilled desire for a child. All women were treated with an oral micronutrient preparation consisting the dosage of one soft capsule and one tablet per day for 3 months. The soft capsule contains omega-3 fatty acids and the tablet is a standardized combination of coenzyme Q₁₀, vitamin E, folic acid, selenium, catechins from green tea extract, and glycyrrhizin from licorice extract. Serum AMH levels before and after 3 months were compared. In addition, available clinical data such as ovulation frequency, endometrium thickness, and luteal phase duration were analyzed.

RESULTS

The mean age of the women was 37.3 ± 1.8 years, the mean body mass index of 24.3 ± 4.6 k/m². The mean serum AMH levels and endometrial thickness values were significantly higher after micronutrient supplementation as compared to baseline (1.42 ± 0.86 versus 1.86 ± 0.82 ng/mL and 6.10 ± 1.76 versus 7.29 ± 1.65 mm, respectively). In addition, ovulation frequency and luteal phase duration significantly improved in more than 60%.

CONCLUSION

Proposed micronutrient supplementation had a positive effect on serum AMH levels, endometrial thickness, ovulation frequency, and luteal phase duration. It could be a simple, risk-free therapeutic option to improve female fertility. More research is warranted to prove this effect.

Influence of age on response to controlled ovarian stimulation in women with low levels of serum anti-Müllerian hormone

This study aims at detecting and evaluating differences in quantitative response to controlled ovarian stimulation (COS) with high doses of gonadotropins in women with low serum anti-Müllerian hormone (AMH). About 369 first cycles in a real-life scenario in women between 21 and 43 years old and with AMH ≤0.9 ng/ml were analyzed. Older women had a significantly worse outcome with respect to young women, not only qualitatively, but also in terms of quantitative ovarian response to COS [odd ratio (OR) to obtain at least three MII oocytes with each increasing year of female age: 0.89, 95% CI: 0.85 - 0.94; p < .001]. This study endorses that age is a significant factor when counseling patients with low AMH. AMH levels per se are not a reason to exclude patients from a COS treatment, since pregnancy and live birth can be achieved, especially in younger patients. However, with an AMH equally low, the ovarian response worsens with age, making questionable the effectiveness of a stimulation with high-dose gonadotropins in the older subgroup.

Anti-Müllerian hormone concentrations in women with chronic kidney disease

Background

Serum anti-Müllerian hormone (AMH) is a biomarker of ovarian reserve. There are limited data to guide the clinical interpretation of AMH in women with chronic kidney disease (CKD). The purpose of this study was to examine AMH concentrations in women with CKD compared with women without CKD.

Methods

We conducted a prospective cohort study of serum AMH concentrations in 163 non-pregnant women with CKD. Serum AMH concentrations were compared with age-specific AMH centiles from 887 healthy female controls.

Results

Participants included 30 women with Stage 1 CKD, 37 women with Stage 2 CKD, 26 women with Stage 3a CKD, 31 women with Stage 3b CKD and 39 women with Stages 4 and 5 CKD. The median estimated glomerular filtration rate (eGFR) was 51 (interquartile range 31–80) mL/min/1.73 m². Serum AMH concentrations were lower in all CKD stages compared with women without CKD. Women ages 20–24 years with CKD had comparable serum AMH concentrations (median 1.959 ng/mL) to women ages 35–39 years without CKD (median 1.995 ng/mL). There was no evidence that eGFR was an independent modifier of serum AMH concentrations. More than half of women with CKD (58%) were predicted to have a low response to gonadotrophin stimulation.

Conclusions

Women with CKD have a lower ovarian reserve and are predicted to have a lower ovarian response to gonadotrophin stimulation compared with women without CKD of a similar age. Women with CKD who fail to conceive within 6 months of regular unprotected intercourse should be considered for fertility assessment and intervention.

Anti-Müllerian Hormone in Fertility Preservation: Clinical and Therapeutic Applications

Anti-Müllerian hormone (AMH) is a member of the transforming growth factor (TGF)-beta family and a key regulator of sexual differentiation and folliculogenesis. While the serum AMH level has been used in reproductive medicine as a biomarker of quantitative ovarian reserve for more than 20 years, new potential therapeutic applications of recombinant AMH are emerging, notably in the field of oncofertility. Indeed, it is well known that chemotherapy, used to treat cancer, induces ovarian follicular depletion and subsequent infertility. Animal models have been used widely to understand the effects of different cytotoxic agents on ovarian function, and several hypotheses regarding chemotherapy gonadotoxicity have been proposed, that is, it might have a direct detrimental effect on the primordial follicles constituting the ovarian reserve and/or on the pool of growing follicles secreting AMH. Recently, a new mechanism of chemotherapy-induced follicular depletion, called the “burn-out effect,” has been proposed. According to this theory, chemotherapeutic agents may lead to a massive growth of dormant follicles which are then destroyed. As AMH is one of the factors regulating the recruitment of primordial follicles from the ovarian reserve, recombinant AMH administration concomitant with chemotherapy might limit follicular depletion, therefore representing a promising option for preserving fertility in women suffering from cancer. This review reports on the potential usefulness of AMH measurement as well as AMH’s role as a therapeutic agent in the field of female fertility preservation.

Transient inhibition of p53 homologs protects ovarian function from two distinct apoptotic pathways triggered by anticancer therapies

Platinum-based chemotherapies can result in ovarian insufficiency by reducing the ovarian reserve, a reduction believed to result from apoptosis of immature oocytes via activation/phosphorylation of TAp63α by multiple kinases including CHEK2, CK1, and ABL1. Here we demonstrate that cisplatin (CDDP) induces oocyte apoptosis through a novel pathway and that temporary repression of this pathway fully preserves ovarian function in vivo. Although ABL kinase inhibitors effectively block CDDP-induced apoptosis of oocytes, oocytic ABL1, and ABL2 are dispensable for damage-induced apoptosis. Instead, CDDP activates TAp63α through the ATR > CHEK1 pathway independent of TAp63α hyper-phosphorylation, whereas X-irradiation activates the ATM > CHEK2 > TAp63α-hyper-phosphorylation pathway. Furthermore, oocyte-specific deletion of Trp73 partially protects oocytes from CDDP but not from X-ray, highlighting the fundamental differences of two pathways. Nevertheless, temporary repression of DNA damage response by a kinase inhibitor that attenuates phosphorylation of ATM, ATR, CHEK1, and CHEK2 fully preserves fertility in female mice against CDDP as well as X-ray. Our current study establishes the molecular basis and feasibility of adjuvant therapies to protect ovarian function against two distinctive gonadotoxic therapeutics, CDDP, and ionizing radiation.

Clinical application of serum anti-Müllerian hormone as an ovarian reserve marker: A review of recent studies

It has been more than 15 years since the measurement of serum anti-Müllerian hormone (AMH) first allowed the quantitative assessment of ovarian reserve. Meanwhile, the clinical implication of serum AMH has been expanding. The measurement of serum AMH has been applied in various clinical fields, including assisted reproduction, menopause, reproductive disorders and assessment of ovarian damage/toxicity. Well-known findings about the usefulness of serum AMH revealed by numerous studies executed in the early era include decline with aging, a good correlation with oocyte yield in assisted reproduction, upregulation in polycystic ovarian syndrome and a decrease on ovarian surgery and toxic treatment. More intensive research, including a meta-analysis, cutting-edge clinical trial and advances in AMH assays, has yielded newer findings and firmer clinical interpretations in serum AMH in the past few years. Variations in the AMH decline trajectory in the general population do not support the accurate prediction of menopause. The ability to predict pregnancy in infertility treatment and natural conception is poor, while a nomogram integrating serum AMH as a stimulation protocol is useful for avoiding poor and/or hyper-responses. On the other hand, improvements in measuring very low concentrations of serum AMH may be capable of distinguishing women with poor ovarian function. Age-independent standardization of AMH values may be helpful for comparing ovarian reserves among women at different ages.