Female infertility and reproductive disorders represent a significant global health challenge, with complex etiologies often linked to impaired cellular communication, inflammation, and tissue dysfunction. Exosomes (EXOs), nanosized extracellular vesicles laden …
Endometriosis is a chronic disorder characterized by abnormal endometrial tissue growth. This study evaluates a novel combination immunomodulatory treatment involving etanercept (ETN) and exosomes derived from human Wharton's jelly mesenchymal …
Endometriosis is a typical disorder affecting the female reproductive system and is characterized by the presence of tissue resembling the endometrium both within and beyond the pelvic cavity. Unfortunately, the …
Exosomes are secreted by most cell types and reflect the internal state of their cells of origin, playing crucial roles in the progression of various pathological conditions. Endometriosis is a …
Sirtuin 6 Mediates the Therapeutic Effect of Endometrial Regenerative Cell-derived Exosomes in Alleviation of Acute Transplant Rejection by Weakening c-Myc-dependent Glutaminolysis Frontiers
Endometriosis (EMS) is a persistent, inflammatory condition that relies on estrogen and is distinguished by the proliferation of endometrial tissue outside the confines of the uterus. The impact on the …
Menstrual blood (MB), a biofluid rich in diverse cell types and biomolecules, has emerged as a vital resource for investigating female reproductive health and diseases because of its unique composition …
(PDF) Unveiling the Pathological Landscape of Intrauterine Adhesion: Mechanistic Insights and Exosome-Biomaterial Therapeutic Innovations researchgate.net
Gynecologic postoperative adhesions (GPOA) remain an under-appreciated source of morbidity despite advances in minimally invasive surgery. Adhesions forming after myomectomy, extensive endometriosis excision, repeat caesarean section, or hysteroscopic adhesiolysis develop …
Enhancing exosome stability and delivery with natural polymers to prevent intrauterine adhesions and promote endometrial regeneration: a review Journal of Nanobiotechnology