Development of In Vitro Fertilization , a Very Important Part of Human Reproductive Medicine , in the Last 40 Years

It is estimated that, worldwide, over 8 million babies are born following infertility treatment with in vitro fertilization (IVF) since the birth of world’s first IVF baby 40 years ago. Recent estimates suggest that by year 2100, 400 million individuals or 3% of the world population may be alive as a result of IVF and other fertility treatments. The developments within infertility treatment using techniques and procedures that evolved from initially animal and lately human research are enormous. Some of the technological advances in reproductive medicine have also contributed to developments and treatment possibilities in other fields of medicine. This mini review article aims to briefly describe and summarize the developments seen in this fascinating field of medicine over the past 40 years.

raised as to the health both of treated women, but also as to the health of their offspring.However, the health of these women and their offspring has not indicated any major concerns [3].
The technological developments in the IVF field have been beyond imagination during the last four decades, such as cryopreservation of surplus embryos [4], the introduction of intracytoplasmic sperm injection (ICSI) to treat male factor infertility [5], chromosomal screening by preimplantation genetic diagnosis (PGD) [6], mitochondrial donation or three parent IVF [1], cryopreservation of ovarian tissue [7] uterine transplantation [8] and many other modification in the treatment of infertility that would not be possible without IVF.Something that has also forced politicians, researchers and health policy makers to take ethical considerations and make difficult decisions; as possibilities that previously were seen as unrealistic and impossible, actually became a reality.An example of this is the discussion of donation of surplus embryos (known as "snowflake adoption"), and oocyte donation.

Introduction
In January 2018 the UK government opened up for three-parent conception, with the legalization of donation of mitochondrial DNA in cases where genetic disease may be transmitted to the offspring through affected maternal mitochondrial DNA [1].This happened 40 years after the birth of the world's first test tube baby, Louise Brown [2].In 2018 The International Committee Monitoring Assisted Reproductive Technologies (ICMART's) reported from its annual collection of global in vitro fertilization (IVF) data, that an estimated 8 million babies are born worldwide from IVF This has been a novel treatment method and concerns have been of infertility in recent years [9].Infertility is defined as the failure to achieve a clinical pregnancy after 12 months or more of regular unprotected sexual intercourse and the prevalence is reported to lie between 10 and 15% of all couples [10].The most important cause of female infertility is age, primarily through age related decline in ovarian reserve [11].Other common causes of female infertility are ovulatory disorders, tubal factors, endometriosis, cervical factors and unexplained infertility [12].Male factor infertility comprises approximately 30% of cases, and contributes to 50% of cases overall [13].Common causes of male infertility are sperm production issues, genetic factors and ejaculation dysfunctions, lifestyle factors (smoking, alcohol and drug use) as well as environmental factors such as working with pesticides.

Early Day Assisted Reproduction
Although we are celebrating 40 years of human IVF, the techniques involved have been around much longer and are still evolving.In the United States in the 1930s G. Pincus and E.V. Enzmann from Harvard University made the first attempts at mammalian IVF in mice models [14].Their work much involved understanding how hormones played a role in reproductive processes, and in 1934 they published an article claiming they had performed IVF in a rabbit [15].During the next decade two researchers, M. Menken and J. Rock tried to achieve clinical IVF and observed cleavage of human zygotes in vitro, as reported in the American Journal of Obstetrics and Gynecology [16].Shortly after this, Menken reportedly left Harvard, and when she returned some years later, Rock had left the field of in vitro fertilization, and had, ironically, moved on to work on the development of the contraceptive pill.
A further decade later the first successful mammalian birth following in vitro fertilization in the rabbit was reported by Bedford and Chang in 1962 [17].Chang however, was more interested in the scientific value of this achievement, and not its clinical application, as he pointed out "there were too many people in the world already".
A few years later, based on his expertise in animal reproductive physiology, Robert Edwards suggested that by priming doses of follicular stimulating hormone it should be possible to obtain more oocytes, thus initiating the idea of modern ovarian stimulation and ultimately the growth and in vitro fertilization of human oocytes [18].
Before the successful birth in 1978 of Louise Brown at Oldham Hospital, R. Edwards and his team at Bourn Hall had made over 100 attempts at transferring the in vitro produced embryo.However, no pregnancy progressed further than what we today know as a biochemical pregnancy.The reasons for this are thought to be that the injected hormones created harsh intrauterine environment.By abandoning hormone stimulation and using only monitoring of the natural cycle by measuring the concentration of luteinizing hormone in the woman's urine, the intrauterine conditions for a successful pregnancy became more favorable and subsequently it happened, the birth of Louise Brown, a result of IVF in a natural cycle [2].the group reported the first birth after cryopreservation of an embryo in 1983 [4].
Another significant achievement was intracytoplasmic sperm injection (ICSI) in the early 1990ies.Inserting a single sperm cell into the ovum, left improved treatment outcomes for couples suffering from male factor infertility and in Belgium in 1992 the world's first "ICSI baby" saw the light of day [5].
In the clinical setting, vaginal ultrasound technology paralleled the aforementioned developments.Already in the mid-eighties, follicle development monitoring, individual dose adjustment of hormone stimulation protocols and oocyte aspiration were done by ultrasound guidance [27], a procedure developed in Scandinavia by the Swedish gynecologists Matts Wikland and Lars Hamberger [28].Prior to this, follicle aspiration was performed under general anesthesia by percutaneous aspiration.
Improvements in the scientific part of the treatment, i.e. the in vitro culture techniques, laboratory standards such as air quality, temperature in incubators, culture media composition and standardization as well as improvements in embryo development monitoring have also contributed in the establishment of the successful IVF-treatment.The initial introduction of elective single embryo transfer in the Nordic countries and its adoption by other countries has contributed greatly in reducing the incidence of and the risks associated with multiple births [29].

IVF -A developing Field; Oocyte Donation, Preimplantation Genetic Diagnosis and Study of Early Human Development
Following the first pregnancy after donation of an egg [30], the possibility of treating women with premature ovarian failure became an option.Three parent babies [1] and babies born after uterine transplantations in women born without a uterus are also among the most cutting edge treatments [8].The possibility of preimplantation genetic diagnosis (PGD) and screening (PGS), were also made possible as a direct result of IVF [6].It has enabled preimplantation genetic testing (PGT) of embryos before embryo transfer, enabling the transfer of genetically normal embryos.Studying the development of early human embryos has been made possible by IVF.Superfluous embryos created by IVF and donated by the parents are now being used in the laboratory to study key early processes, such as implantation, involved in the shaping of the embryo and its supporting tissues.These studies are, however, strictly regulated by the "14-day rule" which does not allow research on human embryos to fourteen days after fertilization [31].

Future Perspectives
The use of IVF has increased in recent years, mostly due to delayed childbearing, and there is little reason to

Bob Edwards and Baby Louise Joy Brown
The work by Edwards, Steptoe and Purdy at the Dr. Kershaw's Cottage Hospital in the years leading up to this birth, has been named "among the towering achievements of recent British biology".During the following years, Robert Edwards and his team assisted the conception of more than 1000 babies, at that time comprising more than half of all IVF babies worldwide [19].Alongside him had worked the gynaecologist Patrick Steptoe and the nurse and embryologist, Jean Purdy.She was a cofounder of the Bourn Hall clinic, and performed the actual insemination in vitro and the first to see the embryo that resulted in Louise Brown's birth.Edwards was in 2010 awarded the Nobel prize in Physiology and Medicine for this work [20].Since the first birth, the demand and supply of fertility treatments has exploded, and large economical and commercial interests have become involved in this field of medicine.For example the UK fertility market is worth ca 340 million euros (320 million pounds) and experiencing accelerating growth [21].The success rate has also improved, and today approximately 60-70% of couples treated for infertility end up with a healthy child [22].

Advancements in the Early Treatments
Not surprisingly, many scientists working with infertile patients all around the world, were intrigued by this new field of medicine and "the enthusiasm was contagious", as stated by Jean Cohen.Cohen, alongside Jaqueline Mandelbaum and Michelle Plachot were the French IVF pioneers [23].There were also fears and skepticism among the same people, and in many clinics, such as at the Monash University in Australia, it was commonplace to perform amniocentesis on all IVF pregnancies.Ironically, the first pregnancy after IVF in Australia resulted in a second trimester miscarriage following such a procedure [24].The tedious work in reproductive centers in Australia, the UK, the US and the Nordic countries have contributed many small steps, which have proved important in the development of modern day IVF.The first trials of IVF were made with ovarian stimulation by the anti-estrogen clomiphene citrate.Drs.Georgeanna S. and Howard W. Jones announced the first US born IVF baby in 1981, [25] and they had, for the first time, used human menopausal gonadotropin (hMG) for controlled ovarian hyperstimulation.Further, in 1982 R. Fleming demonstrated that stimulation with GnRH (Gonadotropin releasing hormone) agonists could reduce the premature ovulation induced by endogenous LH surge [26].Improvements in the treatment protocols in the early 90ies, induced more mature follicles per stimulation cycle and more oocytes were aspirated.This not only increased the chances of conception for infertile couples, but also precipitated a need for a suitable cryopreservation and storage procedures for the surplus embryos.This work was fronted by the Australian Alan Trounson and his team, at the Monash Institute in Melbourne and believe that this trend will halt.In fact, recent estimates suggest that by year 2100, 400 million individuals or 3% of the world population may be alive as a result of assisted reproductive technologies (ART) [32].Underlying this prediction is an assumption that the use of IVF will rise even more in middle and low-income countries in years to come.The efficiency and safety of treatments are therefore of paramount importance.Future challenges remain for IVF research in the future.The big questions are how to overcome the inevitable problem of oocyte ageing and female infertility, understanding and thereby developing measures to overcome implantation issues, as well as working for treatments for male infertility.Only the future will show what possibilities the next 40 years will bring for assisted reproduction, with such strong driving forces among the caregiver, researcher and most importantly, the infertile couple (Table 1).

Figure 1 :
Figure 1: Timeline figure of important events during the 40 years of in vitro fertilisation (IVF).

Table 1 :
Current antifertility treatments for women and men -advantages and disadvantages.