Artificial ovary

Survival rates of many malignant diseases are steadily improving, but for patients of childbearing age, fertility restoration often becomes a vital concern after dis-ease remission. In women, treatments such as chemo/radiotherapy can be very harmful to the ovaries, causing loss of both endocrine and reproductive functions. When gonadotoxic treatment cannot be delayed, ovarian tissue cryobanking is the only way of preserving fertility. However, this technique is not advisable for patients with certain types of cancer, since there is a risk of reintroducing malig-nant cells present in the cryopreserved tissue. For these patients, a safer alterna-tive could be transplantation of isolated preantral follicles back to their natural environment. To encapsulate and protect isolated follicles, a transplantable artifi-cial ovary needs to be created. The main goal of the artificial ovary is to mimic the natural organ and for this, it should be composed of a matrix that encapsu-lates and protects not only the isolated follicles, but also autologous ovarian cells and bioactive factors, which are necessary for follicle survival and development. The aim of this chapter is to describe this new technology, its indications, ad-vantages and the different approaches to create it.