Abstract
The most common reason for in vitro fertilization (IVF) cycle cancelation is a lack of quality gametes available for intracytoplasmic sperm injection (ICSI). Here we present the successful fertility treatment of the couple affected by obstructive azoospermia combined with suboptimal response to controlled ovarian stimulation. Since the conventional approach appeared ineffective to overcome both partnersˈ specific problems, the targeted interventions, namely, (1) pharmacological enhancement of sperm motility and (2) polarized light microscopy (PLM)-guided optimization of ICSI time, were applied to rescue the cycle with only immature oocytes and immotile testicular sperm retrieved. The treatment with theophylline aided the selection of viable spermatozoa derived from cryopreserved testicular tissue. When the traditional stimulation protocol failed to produce mature eggs, non-invasive spindle imaging was employed to adjust the sperm injection time to the maturational stage of oocytes extruding a polar body in vitro. The fertilization of 12 late-maturing oocytes yielded 5 zygotes, which all developed into blastocysts. One embryo was transferred into the uterus on day 5 post-fertilization, and another 3 good quality blastocysts were vitrified for later use. The pregnancy resulted in a full-term delivery of a healthy child. This case demonstrates that the individualization beyond the standard IVF protocols should be considered to maximize the chance of poor-prognosis patients to achieve pregnancy with their own gametes.
Highlights
Assisted reproductive techniques (ART) evolved from simple co-incubation of gametes into a broad repertoire of procedures helping to deal with various fertility issues and avoid transmission of genetic diseases
In 2016, a couple with a history of 3 failed attempts performed at a different in vitro fertilization (IVF) center approached the clinic presenting with primary male infertility due to the congenital bilateral absence of vas deferens and risk of ovarian hyperstimulation syndrome (OHSS)
He was referred for testicular sperm extraction (TESE), and spermatozoa isolated from the freshly retrieved testicular biopsy were used for intracytoplasmic sperm injection (ICSI)
Summary
Assisted reproductive techniques (ART) evolved from simple co-incubation of gametes into a broad repertoire of procedures helping to deal with various fertility issues and avoid transmission of genetic diseases. Testicular sperm extraction (TESE) constitutes the last recourse for men who have no sperm in their ejaculate [16, 17]. Incubation of TESE-derived sperm with another PDE inhibitor, dimethylxanthine theophylline, enhances sperm movement, allowing embryologists to distinguish between viable, yet immotile, and non-viable male gametes [17,18,19]. This report provides detailed information on how the application of optional ART techniques, namely, (1) pharmacological stimulation of motility in frozen-thawed testicular sperm and (2) PLM-guided optimization of ICSI time for oocytes extruding PB in vitro, helped to achieve a successful pregnancy under extremely challenging circumstances
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