OBJECTIVE: To investigate the effects of a dynamic fluidic culture system on early in vitro folliculogenesis in standardized ovarian cortex biopsies. DESIGN: Cortical small strips were cultured for 6 days in a conventional static or in a dynamic fluidic culture system. SETTING: University-affiliated laboratory with an associated cryobank facility. PATIENT(S): Ovarian cortex from postpuberal female cancer patients (26.1 ± 1.3 y) who opted for cryopreservation of their tissue for fertility protection before gonadotoxic cancer therapy. With informed consent of the Institutional Ethics Committee, part of the tissue was available for patient-related research studies. INTERVENTION(S): None. MAIN OUTCOME MEASURE(S): The viability and proliferative capacity of the cortex biopsies were evaluated by chemiluminescent microparticle immunoassay for detection of in vitro produced E2 and P in the supernate, by viable follicle counting via calcein staining, by histologic analyses, and by total RNA preparation and reverse transcription for real-time polymerase chain reaction of selected early folliculogenesis genes. RESULT(S): The data support the notion that early follicle development can be better achieved in vitro in a dynamic fluidic culture system. The findings are based on the presence of more viable follicles, higher expression levels of early folliculogenesis genes KIT-L, INHB, and GDF9, and the absence of premature luteinization of follicles. CONCLUSION(S): This study provides evidence that dynamic fluidic culture is a promising approach for investigating early follicular recruitment and growth in cortical biopsies. It may serve as a first step in a multistep culture system to design a complex in vitro system for complete folliculogenesis.
OBJECTIVE: To investigate the effects of a dynamic fluidic culture system on early in vitro folliculogenesis in standardized ovarian cortex biopsies. DESIGN: Cortical small strips were cultured for 6 days in a conventional static or in a dynamic fluidic culture system. SETTING: University-affiliated laboratory with an associated cryobank facility. PATIENT(S): Ovarian cortex from postpuberal female cancerpatients (26.1 ± 1.3 y) who opted for cryopreservation of their tissue for fertility protection before gonadotoxic cancer therapy. With informed consent of the Institutional Ethics Committee, part of the tissue was available for patient-related research studies. INTERVENTION(S): None. MAIN OUTCOME MEASURE(S): The viability and proliferative capacity of the cortex biopsies were evaluated by chemiluminescent microparticle immunoassay for detection of in vitro produced E2 and P in the supernate, by viable follicle counting via calcein staining, by histologic analyses, and by total RNA preparation and reverse transcription for real-time polymerase chain reaction of selected early folliculogenesis genes. RESULT(S): The data support the notion that early follicle development can be better achieved in vitro in a dynamic fluidic culture system. The findings are based on the presence of more viable follicles, higher expression levels of early folliculogenesis genes KIT-L, INHB, and GDF9, and the absence of premature luteinization of follicles. CONCLUSION(S): This study provides evidence that dynamic fluidic culture is a promising approach for investigating early follicular recruitment and growth in cortical biopsies. It may serve as a first step in a multistep culture system to design a complex in vitro system for complete folliculogenesis.
Authors: L Bastings; J Liebenthron; J R Westphal; C C M Beerendonk; H van der Ven; B Meinecke; M Montag; D D M Braat; R Peek Journal: J Assist Reprod Genet Date: 2014-06-14 Impact factor: 3.412
Authors: A Langbeen; E P A Jorssen; N Granata; E Fransen; J L M R Leroy; P E J Bols Journal: J Assist Reprod Genet Date: 2014-10-02 Impact factor: 3.412
Authors: K Kyono; T Hashimoto; M Toya; M Koizumi; C Sasaki; S Shibasaki; N Aono; Y Nakamura; R Obata; N Okuyama; Y Ogura; H Igarashi Journal: J Assist Reprod Genet Date: 2017-09-02 Impact factor: 3.412