Myo-inositol for the Management of Poor Ovarian Responders: A Prospective Randomized Controlled Trial

Brief Summary

Detailed Description

The management of poor ovarian responders (POR) remains the most challenging in In-Vitro Fertilization (IVF). The incidence of POR ranges between 9 and 24% (Caprio F, et al, 2015). POR refers to a reduction in the quantity of primordial follicle pool in reproductive age group (Jirge, P. R., 2016, Sunkara, S. K., et al, 2014), in addition to a higher risk of implantation failure (Kailasam C, et al, 2004). To overcome this condition, adjuvant fertility treatments using controlled ovarian stimulation along with IVF is needed to achieve pregnancy. Despite the use of various treatments including high dose gonadotropins, patients with POR have lower rates of pregnancy compared to patients with normal ovarian response (Oudendijk, J. F., et al, 2011). Studies now suggest a variety of regimens like the use of growth hormones, DHEA or androgens to improve the outcomes (Kyrou D, et al, 2009). Inositol belongs to the vitamin B group, precursor for the synthesis of phosphatidylinositol polyphosphates (PIPs). PIPs belong to the signal transduction system involved in the regulation of different cellular functions such as signal transduction, cell morphogenesis and cytogenesis (Kutateladze TG, 2010). It is involved in cell membrane formation, lipid synthesis and cell growth (Unfer V, et al, 2012). It has been extensively studied in patients with insulin resistance, as inositol has an insulin sensitizing action (Croze ML \& Soulage CO, 2013). In addition, researchers have hypothesized different mechanisms of action on different cell types especially at the level of the ovaries. An international consensus has confirmed that myo-inositol pre-treatment is able to improve the oocyte and the embryo quality via enhancing the intracellular Ca2+ oscillation with meiotic progression of germinal vesicle oocytes. Therefore, it acts on improving the oocyte maturation and embryo development (Nestler JE, et al, 1999, Papaleo E, et al, 2009). Previous studies showed that higher concentrations of myo-inositol in follicular fluid are correlated with a better oocyte quality (Chiu TT, et al, 2002). A study by Jiang demonstrated that inositol supplementation reduces oxidative stress by different agents such as increasing superoxide dismutase and catalase levels (Jiang WD, et al, 2011). In view of its effects on oocyte maturation and quality, the use of myo-inositol in women with POR is promising. However, data is still sparse whether supplementation with myo-inostiol prior to IVF cycles does improve the pregnancy outcomes. The main interest of this study is the use of myo-inositol prior to IVF cycles for improvement of reproductive outcomes in poor ovarian responders.

Primary Outcomes

Secondary Outcomes

• Cycle cancellation rate(4 months)
• Fertilization rate(4 months)
• Implantation rate(5 months)
• Clinical pregnancy rate per started treatment cycle (CPR)(6 months)
• Ongoing pregnancy per embryo transferred(7 months)
• Miscarriage rates(7 months)