PROK1 Level in the Follicular Microenvironment: A New Noninvasive Predictive Biomarker of Embryo Implantation

International audienceProkineticin 1 (PROK1), also called endocrine gland-derived vascular endothelial growth factor, is a well-established regulator of endometrial receptivity and placental development. However, its clinical usefulness as a noninvasive predictive biomarker of embryo implantation is yet to be validated.PROK1 levels in FF and FCM could constitute new predictive noninvasive markers of successful embryo implantation in conventional in vitro fertilization-embryo transfer

Prokineticin 1 is a new biomarker of human oocyte competence: expression and hormonal regulation throughout late folliculogenesis

International audienceProkineticin 1 (PROK1) quantification in global follicular fluid (FF) has been recently reported as a predictive biomarker of in vitro fertilization (IVF) outcome. It is now necessary to evaluate its clinical usefulness in individual follicles.Sixty-nine infertile couples underwent in vitro fertilization (IVF)

Uterine volume is dramatically decreased after Hematopoietic Stem Cell Transplantation during childhood regardless of the conditioning regimen.

International audienceObjective: To study the impact of hematopoietic stem cell transplantation (HSCT) on uterine volume of childhood acute leukemia (AL) survivor depending on age at HSCT and the type of myeloablative conditioning (MAC) regimen.Design: Prospective cohort study EXPOSURE: A multicentric prospective national study compared uterine volume in a cohort of childhood AL survivor adult women treated with HSCT, matched 1:1 to control women. Pelvic MRI scans included diffusion-weighted imaging sequences. Scans were centralized for a double-blinded reading by two radiologists.Main outcome measures: Uterine volume, uterine body-to-cervix ratio, and apparent diffusion coefficient (ADC).Results: Mean age at HSCT was 9.1 + 0.3 years with a mean follow-up duration of 16.4 + 0.5 years. The cohort of 88 HSCT survivor women was composed of two sub-groups depending on the MAC regimen received: an alkylating agents-based regimen group (n=34) and a TBI-based regimen group (n=54). Among the 88 women, 77 were considered as having a "correct hormonal balance" with estrogens supplied by hormone replacement therapy (HRT) for premature ovarian insufficiency (POI), or thanks to a residual ovarian function. In the control group (n=88), the mean uterine volume was 79.7 + 3.3 mL. Uterine volume was significantly decreased in all HSCT survivor women (p < 0.0001). After alkylating agents-based regimen, uterine volume was 45.3 + 5.6 mL, corresponding to a significant volume reduction of 62.6 % [55.5 - 69.6] compared to the control group. After TBI, uterine volume was 19.6 + 1.9 mL, corresponding to a significant volume reduction of 75.3 % [70.5 - 80.2] compared to the control group. After alkylating agents-based regimen, uterine volume was dramatically decreased in POI women without HRT compared to those with a correct hormonal balance (15.2 + 2.6 Vs 49.3 + 6 mL, p < 0.05). In contrast, after TBI, uterine volume was similar in all women, with no positive effect of hormonal impregnation on uterine volume (respectively 16.3 + 2.6 Vs 20.1 + 2.2 mL).Conclusion: Uterine volume was diminished after HSCT, regardless of the conditioning regimen. The physiopathology needs to be further investigated: specific impact of high dose of alkylating agent, impact of hormone deprivation around puberty, poor compliance to HRT, or different myometrial impact of HRT compared to endogenous ovarian estrogens

Uterine volume is dramatically decreased after Hematopoietic Stem Cell Transplantation during childhood regardless of the conditioning regimen

International audienceObjective: To study the impact of hematopoietic stem cell transplantation (HSCT) on uterine volume of childhood acute leukemia (AL) survivor depending on age at HSCT and the type of myeloablative conditioning (MAC) regimen.Design: Prospective cohort study EXPOSURE: A multicentric prospective national study compared uterine volume in a cohort of childhood AL survivor adult women treated with HSCT, matched 1:1 to control women. Pelvic MRI scans included diffusion-weighted imaging sequences. Scans were centralized for a double-blinded reading by two radiologists.Main outcome measures: Uterine volume, uterine body-to-cervix ratio, and apparent diffusion coefficient (ADC).Results: Mean age at HSCT was 9.1 + 0.3 years with a mean follow-up duration of 16.4 + 0.5 years. The cohort of 88 HSCT survivor women was composed of two sub-groups depending on the MAC regimen received: an alkylating agents-based regimen group (n=34) and a TBI-based regimen group (n=54). Among the 88 women, 77 were considered as having a "correct hormonal balance" with estrogens supplied by hormone replacement therapy (HRT) for premature ovarian insufficiency (POI), or thanks to a residual ovarian function. In the control group (n=88), the mean uterine volume was 79.7 + 3.3 mL. Uterine volume was significantly decreased in all HSCT survivor women (p < 0.0001). After alkylating agents-based regimen, uterine volume was 45.3 + 5.6 mL, corresponding to a significant volume reduction of 62.6 % [55.5 - 69.6] compared to the control group. After TBI, uterine volume was 19.6 + 1.9 mL, corresponding to a significant volume reduction of 75.3 % [70.5 - 80.2] compared to the control group. After alkylating agents-based regimen, uterine volume was dramatically decreased in POI women without HRT compared to those with a correct hormonal balance (15.2 + 2.6 Vs 49.3 + 6 mL, p < 0.05). In contrast, after TBI, uterine volume was similar in all women, with no positive effect of hormonal impregnation on uterine volume (respectively 16.3 + 2.6 Vs 20.1 + 2.2 mL).Conclusion: Uterine volume was diminished after HSCT, regardless of the conditioning regimen. The physiopathology needs to be further investigated: specific impact of high dose of alkylating agent, impact of hormone deprivation around puberty, poor compliance to HRT, or different myometrial impact of HRT compared to endogenous ovarian estrogens

Uterine volume is dramatically decreased after Hematopoietic Stem Cell Transplantation during childhood regardless of the conditioning regimen

International audienceObjective: To study the impact of hematopoietic stem cell transplantation (HSCT) on uterine volume of childhood acute leukemia (AL) survivor depending on age at HSCT and the type of myeloablative conditioning (MAC) regimen.Design: Prospective cohort study EXPOSURE: A multicentric prospective national study compared uterine volume in a cohort of childhood AL survivor adult women treated with HSCT, matched 1:1 to control women. Pelvic MRI scans included diffusion-weighted imaging sequences. Scans were centralized for a double-blinded reading by two radiologists.Main outcome measures: Uterine volume, uterine body-to-cervix ratio, and apparent diffusion coefficient (ADC).Results: Mean age at HSCT was 9.1 + 0.3 years with a mean follow-up duration of 16.4 + 0.5 years. The cohort of 88 HSCT survivor women was composed of two sub-groups depending on the MAC regimen received: an alkylating agents-based regimen group (n=34) and a TBI-based regimen group (n=54). Among the 88 women, 77 were considered as having a "correct hormonal balance" with estrogens supplied by hormone replacement therapy (HRT) for premature ovarian insufficiency (POI), or thanks to a residual ovarian function. In the control group (n=88), the mean uterine volume was 79.7 + 3.3 mL. Uterine volume was significantly decreased in all HSCT survivor women (p < 0.0001). After alkylating agents-based regimen, uterine volume was 45.3 + 5.6 mL, corresponding to a significant volume reduction of 62.6 % [55.5 - 69.6] compared to the control group. After TBI, uterine volume was 19.6 + 1.9 mL, corresponding to a significant volume reduction of 75.3 % [70.5 - 80.2] compared to the control group. After alkylating agents-based regimen, uterine volume was dramatically decreased in POI women without HRT compared to those with a correct hormonal balance (15.2 + 2.6 Vs 49.3 + 6 mL, p < 0.05). In contrast, after TBI, uterine volume was similar in all women, with no positive effect of hormonal impregnation on uterine volume (respectively 16.3 + 2.6 Vs 20.1 + 2.2 mL).Conclusion: Uterine volume was diminished after HSCT, regardless of the conditioning regimen. The physiopathology needs to be further investigated: specific impact of high dose of alkylating agent, impact of hormone deprivation around puberty, poor compliance to HRT, or different myometrial impact of HRT compared to endogenous ovarian estrogens