18 articles
Researchers restored aging ovarian cell function by reactivating mitochondrial sharing via tunneling nanotubes, using FTY720 and 3D scaffolds.
New review reveals how aging disrupts the support cells surrounding eggs, offering therapeutic targets to preserve female fertility.
Spatial transcriptomics reveals how aging disrupts the cellular choreography of ovarian cycling, triggering inflammation and tissue disorganization early.
The Longevity Science Foundation's $250K campaign aims to fund ovarian aging research linking menopause to heart, brain, and bone health.
A molecular link between insulin resistance and ovarian aging is identified, with a traditional herbal formula shown to restore ovarian function in mice.
Scientists mapped ovarian aging across species using 3D imaging and single-cell genomics, uncovering nerve-driven fertility decline.
Single-cell and spatial transcriptomics reveal how excess iron triggers cellular senescence and metabolic dysfunction in ovarian follicles, explaining poor oocyte quality in endometriosis.
A systematic review reveals quercetin's multi-pathway mechanisms in combating ovarian aging, PCOS, premature ovarian insufficiency, and chemo-induced damage.
New research shows that reduced FTO expression drives granulosa cell senescence, cutting fertility-related hormone output and accelerating ovarian aging.
UCSF researchers show that enhancing autophagy in a small population of ovarian somatic cells restores egg production and delays aging.
New research reveals how NCOA7 protein clears cellular stress granules to maintain ovarian health and delay reproductive aging.
New review finds popular fertility interventions like PRP and stem cells improve lab markers but don't increase live births.
