An interdisciplinary team of researchers at Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) led by Prof. Aldo R. Boccaccini from the Chair of Materials Science (biomaterials) and Prof. Dr. Ralf Dittrich from the Department of Obstetrics and Gynaecology at Universitätsklinikum Erlangen have taken an important step towards developing artificial ovaries for patients suffering from cancer. Together, they have been researching innovative techniques for restoring the fertility of cancer patients and have published their innovative results in Scientific Reports, the open access magazine published by Springer Nature.
An artificial ovary would help women fall pregnant, despite suffering from cancer and the strong medication used during chemotherapy that can adversely affect patients’ fertility. The scientific community has been investigating how best to reconstruct female ovaries in the laboratory and which materials to use for a long time. An interdisciplinary team of researchers made up of engineers and materials scientists at the Chair of Biomaterials at FAU and gynaecologists and natural scientists at the Department of Obstetrics and Gynaecology at Universitätsklinikum Erlangen is now providing new approaches.
Success with electrospinning
In their study ‘Electrospun patterned porous scaffolds for the support of ovarian follicles growth: a feasibility study’, the scientists have been using a method called electrospinning that is used in materials science. This technique is based on applying a high electric potential between two electrodes with opposing polarity. This high voltage can overcome the surface tension of a polymer solution and thus enable the solution to vaporise completely and form a fibrous structure. ‘Electrospinning is extremely versatile, as we can use a wide variety of natural and synthetic polymers’, explains Dr. Liliana Liverani, who is the scientific project coordinator. ‘In our current study, we used the biodegradable material polyepsilon caprolactone and a mixture of this material with gelatine for the first time and created a scaffold of very thin fibres that mimics the natural structure and shape of the ovarian cortex’. The researchers used this scaffold in their in-vitro tests as a substrate for the adhesion of follicles from the ovaries of pigs and assessed the viability of the follicles and oocytes after 10 days of culture on the scaffolds. The results of the live dead tests showed a high number of viable follicles that retained their characteristic shape.
‘This is an important step towards an ideal artificial ovary that imitates the natural organ in terms of environmental conditions for the growth and maturity of follicles. These results are very promising, but further research is required before any further development towards clinical applications can be made’, agree the teams led by materials scientist Prof. Aldo R. Boccaccini and Dr. Liliana Liverani and the gynaecologists and natural scientists at the Department of Obstetrics and Gynaecology, Prof. Dr. Ralf Dittrich, Nathalie Raffel and Dr. Amir Fattahi.
Cancer still on the rise
Up to now, women and girls diagnosed with cancer can only preserve their chances for pregnancy by having ovarian tissue removed, frozen and re-implanted after they have recovered from the disease. Although this method is considered safe, certain types of cancer can penetrate the ovarian tissue and the cancer can be reintroduced when the tissue is re-implanted. The aim of the new method is to completely replace the diseased tissue with an artificial ovary and restore patients’ fertility, thus significantly increasing their quality of life.
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