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Foreword. Worldwide, infertility affects 8-12% of couples of reproductive ages. In recent years,
stem-cell therapy raised new hope in the field of reproductive disability management. Infertility is a
major health problem, and the data presented in this review suggest that the treatment of infertility
with stem cells seems to be plausible, because some types of treatments have already been tested in
humans, achieving live births, while others show great potential only in animal studies.
Material and methods. Was provided scientific research of the preclinical and clinical studies for
the last 15 years in order to determine the effects of stem cell-based therapy in the treatment of
infertility. Articles were selected from the PubMed, Scopus, and ScienceDirect databases.
Results. Studies using the experimental model have shown that stem cell therapy for infertility
treatment gives positive results. The main types of used stem cells are embryonic stem cells (ESCs),
mesenchymal stem cells (MSCs), spermatogonia stem cells (SSCs), and induced-pluripotent stem
cells (iPSCs).
ESCs can produce germ cells and thereby treat infertility. ESC-derived PGCs are susceptible to
ethical controversy because the process involves the destruction of human embryo. Sperm/oocytelike cells can now be produced from embryonic stem cells. SSC transplantation is presented as a
novel and promising strategy, based on the premise of spermatogenesis and stem cell self-renewal.
SSCs are responsible for the continuous production of male sperm. This technology can also be
used to treat human infertility and does not cause ethical or immune problems. These results
strongly suggest that SSC transplantation can be a successful treatment for male infertility caused
by premature chemotherapy. Some studies have recently reported that both human iPSCs can
differentiate into male germ cells. Functional tests showed that sperm produced by iPSCs were able
to fertilize oocytes after intra-cytoplasmic injection and generate fertile offspring after embryo
transfer. Ovarian failure is inevitable with age. In addition, injecting BM stem cells can stimulate
ovarian function, restore normal ovaries and hormone levels, and possibly allow pregnancy.
Conclusion. Several aspects of stem cell therapy remain unexplored. Thus, vast untapped potential
still exists regarding applications in treating diseases such as infertility. We are confident that
science will be able to cure infertility once the right approach is found. The reason for great promise
is that stem cell treatment can be utilized on many different levels, from direct transplantation of
stem cells, or their paracrine factors into reproductive organs, to in vitro differentiation into germ
cells or gametes. |
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