Alan Osborne Trounson is a scientist from Australia who studies embryology and stem cells. His research has improved the success rates of in vitro fertilization, or IVF. IVF is a medical procedure in which scientists fertilize an egg cell with sperm outside of the body, often in a laboratory petri dish, then transfer the fertilized egg to a woman’s uterus to start pregnancy. Trounson also researched embryonic stem cells, or stem cells collected from embryos, and their potential for treating injuries and diseases. Additionally, Trounson led the Californian Institute for Regenerative Medicine, or CIRM, one of the largest agencies to fund stem cell research in California, from 2007 to 2014. Over the course of his career, Trounson developed several techniques that improved the effectiveness of IVF, including fertility treatments and cryopreservation, and supported stem cell research as a scientist and administrator.

Laparoscopic tubal sterilization is a set of surgical techniques that use laparoscopy to render people with female reproductive systems sterile, or unable to reproduce. In a laparoscopy, a surgeon uses small incisions in the abdomen to feed in a camera or other viewing tool that aids in diagnosing internal medical issues or treating those issues via surgery. To sterilize a patient, the surgeon uses a camera with attached surgical tools to guide the procedure and interfere with the fallopian tubes to stop the passage of an egg. Laparoscopic sterilization was developed as an alternative to surgical sterilization that requires larger incisions to open the abdomen to access the fallopian tubes, which can pose a greater risk of complications. Due to decades of technical development, laparoscopic tubal sterilization allows people with female reproductive systems to control their fertility more safely and less invasively than with other surgical methods.

In December of 2016, Margus Punab and colleagues published “Causes of Male Infertility: A 9-year Prospective Monocentre Study on 1737 Patients with Reduced Total Sperm Counts,” hereafter “Male Infertility,” in the journal Human Reproduction. The study examines the main causes of severe male factor infertility, or SMF infertility, which occurs when a male’s semen has a very low number of healthy sperm cells or contains atypically low levels of sperm cells. In “Male Infertility,” the authors determine the primary cause of SMF infertility in forty percent of their participants, and among those participants, they found that the primary causes of SMF infertility were varicoceles, or enlarged veins within the loose bag of skin holding the testicles. The authors did not determine the cause of SMF infertility in the remaining sixty percent of the cases, noting a gap in the current understanding of the causes of SMF infertility. “Male Infertility” was one of the first large-scale studies to reveal certain underlying causes of SMF infertility, and its conclusions have allowed researchers to investigate fertility solutions for male patients who would otherwise not be able to reproduce.