No abstract available.
Pregnancy* ; Primary Ovarian Insufficiency*

No abstract available.
Primary Ovarian Insufficiency*

No abstract available.
Antibodies* ; Female ; Humans ; Primary Ovarian Insufficiency*

This study was performed to determine whether the LHbeta -subunit gene missense mutation is present in Korean infertile patients with 46,XX POF women. The variants of LHbeta exon 2 (Trp 8Arg; TGG to CGG and Ile15Thr; ATC ti ACC) were studied in forty-four 46.XX idiopathic POF and 54 nonpregnant women. The LHbeta exon 2 variants were more frequent in POF patients (20.5%) than nonpregnant( 16.7%) women (p>0.05). POF patients with the variant was slightly higher than nonpregnant women with the variant.
Exons ; Female ; Humans ; Korea* ; Mutation, Missense ; Primary Ovarian Insufficiency*

OBJECTIVE: This study was performed to determine whether the FSH receptor mutation is present in infertile Korean patients with 46,XX premature ovarian failure (POF) women. METHODS: The variant of FSH receptor exon 10 in thirteen 46, XX idiopathic POF and 4 healthy fertile (control) women were studied. Missense mutation in Exon 10 was detected in POF patients and healthy fertile women by polymerase chain reaction-single stranded conformation polymorphism (PCR-SSCP). RESULTS: The variant types of FSH receptor exon 10 (Thr307Ala; A919G) were found in healthy fertile (control) and POF women. CONCLUSIONS: This mutation may not be specific in POF patients and further study is needed in fertile (control) and POF women.
Exons* ; Female ; Humans ; Mutation, Missense ; Primary Ovarian Insufficiency* ; Receptors, FSH*

Female ; Humans ; Consensus ; Menopause, Premature ; Primary Ovarian Insufficiency/therapy*

The ovarian reserve is necessary for female fertility and endocrine health. Commonly used cancer therapies diminish the ovarian reserve, thus, resulting in primary ovarian insufficiency, which clinically presents as infertility and endocrine dysfunction. Prepubertal children who have undergone cancer therapies often experience delayed puberty or cannot initiate puberty and require endocrine support to maintain a normal life. Thus, developing an effective intervention to prevent loss of the ovarian reserve is an unmet need for these cancer patients. The selection of adjuvant therapies to protect the ovarian reserve against cancer therapies underlies the mechanism of loss of primordial follicles (PFs). Several theories have been proposed to explain the loss of PFs. The “burn out” theory postulates that chemotherapeutic agents activate dormant PFs through an activation pathway. Another theory posits that chemotherapeutic agents destroy PFs through an “apoptotic pathway” due to high sensitivity to DNA damage. However, the mechanisms causing loss of the ovarian reserve remains largely speculative. Here, we review current literature in this area and consider the mechanisms of how gonadotoxic therapies deplete PFs in the ovarian reserve.
Adolescent ; Child ; DNA Damage ; Female ; Fertility ; Fertility Preservation ; Humans ; Infertility ; Ovarian Follicle ; Ovarian Reserve ; Primary Ovarian Insufficiency ; Puberty ; Puberty, Delayed

Primordial follicle activation is a process in which individual primordial follicles leave their dormant state and enter a growth phase. While existing hormone stimulation strategies targeted the growing follicles, the remaining dormant primordial follicles were ruled out from clinical use. Recently, in vitro activation (IVA), which is a method for controlling primordial follicle activation, has provided an innovative technology for primary ovarian insufficiency (POI) patients. IVA was developed based on Hippo signaling and phosphatase and tensin homolog (PTEN)/phosphatidylinositol-3-kinase (PI3K)/protein kinase B (AKT)/forkhead box O3 (FOXO3) signaling modulation. With this method, dormant primordial follicles are activated to enter growth phase and developed into competent oocytes. IVA has been successfully applied in POI patients who only have a few remaining remnant primordial follicles in the ovary, and healthy pregnancies and deliveries have been reported. IVA may also provide a promising option for fertility preservation in cancer patients and prepubertal girls whose fertility preservation choices are limited to tissue cryopreservation. Here, we review the basic mechanisms, translational studies, and current clinical results for IVA. Limitations and further study requirements that could potentially optimize IVA for future use will also be discussed.
Cryopreservation ; Female ; Fertility Preservation ; Humans ; In Vitro Techniques ; Methods ; Oocytes ; Ovarian Follicle ; Ovary ; Phosphotransferases ; Pregnancy ; Primary Ovarian Insufficiency

Premature ovarian failure (POF) is a condition in which the ovarian functions of hormone production and oocyte development become impaired before the typical age for menopause. POF and early menopause are present in a broad spectrum of gonad dysgenesis, from a complete cessation of ovarian function to an intermittent follicle maturation failure. Actually POF has been identified as a genetic entity (especially chromosome X), but data on genetic factors of premature menopause are limited. Until now, several cases revealed that inactivation of X chromosomes has an effect on ages of premature menopause and females with balanced or unbalanced X-autosome translocations can have several reproductive problems. On the other hand, there have been a few data that was caused by autosome-autosome translocation can lead. Therefore we report a relevant case of POF with translocation between chromosomes 1 and 4. She had her first menstrual period at the age of 12, and after 7 years she stopped menstruation. Chromosomal analysis showed 46, XX, t (1;4) (p22.3;q31.3). While evaluating this rare case, we could review various causes (especially genetic factors) of POF. To remind clinicians about this disease, we report a case of POF caused by autosome-autosome translocation with a literature review.
Female ; Gonads ; Hand ; Humans ; Menopause ; Menopause, Premature* ; Menstruation ; Oocytes ; Primary Ovarian Insufficiency ; X Chromosome

Primary ovarian insuffiency (POI), which accounts for female infertility, is characterized by amenorrhea before the age of 40 and high serum level of follicular stimulating hormone (>40 U/L) at two measurements taken at least one month apart. The disorder is believed to have a strong genetic component. A large number of candidate genes have been proposed, though few of them were extensively studied. With the rapid evolvement of genome sequencing technology, recent research raised the possibility that the genes involved in essential steps of meiosis such as chromosome synapsis and recombination play an important role in the pathogenesis of POI. Clarifying the genetic pathogenesis of POI not only can enhance understanding of the molecular mechanism of reproductive functions and infertility, but also provide accurate information for genetic counseling for such patients.
Female ; Follicle Stimulating Hormone ; metabolism ; Humans ; Infertility, Female ; genetics ; Meiosis ; Primary Ovarian Insufficiency ; genetics ; metabolism