Amorphous curcumin-based hydrogels to reduce the incidence of post-surgical intrauterine adhesions.
Wenya ZhangYuxin HeYun ChuYuanxin ZhaiSong QianXinhui WangPengju JiangPengfei CuiYin ZhangJianhao WangPublished in: Regenerative biomaterials (2024)
The incidence of intrauterine adhesions (IUA) has increased with the rising utilization of intrauterine surgery. The postoperative physical barrier methods commonly used, such as balloons and other fillers, have limited effectiveness and may even cause further damage to the remaining endometrial tissue. Herein, we developed an injectable thermosensitive hydrogel using Pluronic F127/F68 as pharmaceutical excipients and curcumin as a natural active molecule. The hydrogel effectively addresses solubility and low bioavailability issues associated with curcumin. In vitro , drug release assays revealed that the amorphous curcumin hydrogel promotes dissolution and sustained release of curcumin. In vitro experiments reveal high biocompatibility of the hydrogel and its ability to enhance vascular formation while inhibiting the expression of fibrotic factor TGF-β1. To assess the effectiveness of preventing IUAs, in vivo experiments were conducted using IUA rats and compared with a class III medical device, a new-crosslinked hyaluronic acid (NCHA) gel. According to the study, curcumin hydrogel is more effective than the NCHA group in improving the regeneration of the endometrium, increasing the blood supply to the endometrium and reducing the abnormal deposition of fibrin, thus preventing IUA more effectively. This study provides a promising strategy for treating and preventing IUA.
Keyphrases
- hyaluronic acid
- drug delivery
- drug release
- randomized controlled trial
- systematic review
- risk factors
- stem cells
- wound healing
- tissue engineering
- healthcare
- minimally invasive
- poor prognosis
- single cell
- room temperature
- mental health
- gene expression
- coronary artery disease
- high throughput
- idiopathic pulmonary fibrosis
- long non coding rna
- endometrial cancer
- water soluble
- surgical site infection