Objective: We wished to assess the changes in serum IGF-I and IGF-II concentrations during gonadotrophin treatment alone or with additional GH treatment and to compare follicular fluid IGF-I and IGF-II concentrations in the two treatment groups.
Design: We performed an open study of co-treatment with GH and subsequently a randomized double blind comparison of addition of placebo or GH to clomiphene citrate and gonadotrophins.
Patients: We studied previously poor responders to superovulation regimens for in-vitro fertilization and embryo transfer, six women in an open study, four of whom had ultrasound diagnosed polycystic ovaries, and 17 women in a double blind study, 12 of whom had polycystic ovaries.
Measurements: We measured serum IGF-I and IGF-II concentrations throughout treatment cycles. Follicular fluid concentrations were measured at the time of oocyte recovery.
Results: Neither serum IGF-I nor IGF-II concentrations were altered by gonadotrophin treatment alone. However, co-treatment with GH led to a significant rise in serum IGF-I concentrations in women with ultrasound diagnosed polycystic ovaries. Concentrations of IGF-I and IGF-II in follicular fluid were lower than in serum, although follicular fluid IGF-I concentrations were higher in women receiving GH than in those receiving placebo.
Conclusions: Poor responders to superovulation regimens may have an abnormality of growth factor response. GH co-treatment leads to an increase in circulating IGF-I concentrations in women with polycystic ovaries but our results do not support the hypothesis that GH stimulates IGF-I production in the human ovary.