@article{li_lv_zhu_mei_huang_wang_li_zhang_hu_popowski_et al._2022, title={Intrapericardial hydrogel injection generates high cell retention and augments therapeutic effects of mesenchymal stem cells in myocardial infarction}, volume={427}, ISSN={["1873-3212"]}, url={https://doi.org/10.1016/j.cej.2021.131581}, DOI={10.1016/j.cej.2021.131581}, abstractNote={Although cell therapy has shown potential efficacy in the treatment of heart diseases, one challenge is low cellular retention rate and poor engraftment. We sought to perform a head-to-head comparison on cell retention and therapeutic benefits of intramyocardial (IM) injection and intrapericardial cavity (IPC) injection of adult stem cells in hydrogel. Mouse green fluorescent protein (GFP)-labeled mesenchymal stem cells (MSCs) were combined in extracellular matrix (ECM) hydrogel and injected into the pericardial cavity or the myocardium of the heart of C57BL/6 mice that had been subjected to a myocardial infarction. The IPC injection, as an alternative cell delivery route, led to better cardiac function in our mouse model with myocardial infarction, which was showed by echocardiographies in the short term (2 weeks) and the long term (6 weeks). This result was attributed to 10-fold higher engraftment of MSCs injected via IPC route (42.5 ± 7.4%) than that of MSCs injected intramyocardially (4.4 ± 1.3%). Immunohistochemistry data revealed better cellular proliferation, less apoptosis, and better vascular regeneration in the myocardium after IPC delivery of MSCs. CD63-RFP exosome labeling system showed that heart cells including cardiomyocytes absorbed MSC-exosomes at higher rates when MSCs were injected via IPC route, compared to the results from IM injections, indicating more extensive paracrine activity of MSCs after IPC injections. What is more, the feasibility and safety of IPC injection were demonstrated in a porcine model with minimally invasive procedure. Intrapericardial cavity injection gave a promising solution for the low retention issue of MSCs in the infarcted heart.}, journal={CHEMICAL ENGINEERING JOURNAL}, publisher={Elsevier BV}, author={Li, Junlang and Lv, Yongbo and Zhu, Dashuai and Mei, Xuan and Huang, Ke and Wang, Xianyun and Li, Zhenhua and Zhang, Sichen and Hu, Shiqi and Popowski, Kristen D. and et al.}, year={2022}, month={Jan} }
 @article{zhang_zhu_li_huang_hu_lutz_xie_mei_li_neal-perry_et al._2021, title={A stem cell-derived ovarian regenerative patch restores ovarian function and rescues fertility in rats with primary ovarian insufficiency}, volume={11}, ISSN={["1838-7640"]}, url={http://www.scopus.com/inward/record.url?eid=2-s2.0-85114771196&partnerID=MN8TOARS}, DOI={10.7150/thno.61690}, abstractNote={Rationale: Primary ovarian insufficiency (POI) normally occurs before age 40 and is associated with infertility. Hormone replacement therapy is often prescribed to treat vasomotor symptom, but it cannot restore ovarian function or fertility. Stem cell therapy has been studied for the treatment of POI. However, the application of live stem cells has suffered from drawbacks, such as low cell retention/engraftment rate, risks for tumorigenicity and immunogenicity, and lack of off-the-shelf feasibility. Methods: We developed a therapeutic ovarian regenerative patch (ORP) that composed of clinically relevant hydrolysable scaffolds and synthetic mesenchymal stem cells (synMSCs), which are microparticles encapsulating the secretome from MSCs. The therapeutic potency of ORP was tested in rats with cisplatin induced POI injury. Results:In vitro studies revealed that ORP stimulated proliferation of ovarian somatic cells (OSCs) and inhibited apoptosis under injury stress. In a rat model of POI, implantation of ORP rescued fertility by restoring sexual hormone secretion, estrus cycle duration, and follicle development. Conclusion: ORP represents a cell-free, off-the-shelf, and clinically feasible treatment for POI.}, number={18}, journal={THERANOSTICS}, author={Zhang, Sichen and Zhu, Dashuai and Li, Zhenhua and Huang, Ke and Hu, Shiqi and Lutz, Halle and Xie, Mengjie and Mei, Xuan and Li, Junlang and Neal-Perry, Genevieve and et al.}, year={2021}, pages={8894–8908} }
 @article{xie_li_zhang_zhu_mei_wang_cheng_li_wang_cheng_2021, title={A trifunctional contraceptive gel enhances the safety and quality of sexual intercourse}, volume={6}, ISSN={["2452-199X"]}, url={https://doi.org/10.1016/j.bioactmat.2020.11.031}, DOI={10.1016/j.bioactmat.2020.11.031}, abstractNote={Current contraceptive methods come with a number of drawbacks, including low efficacy, in the case of commercial contraceptive gels, and a reduction in the quality of sexual intercourse, in the case of condoms. Adding pharmacologically-active agents to contraceptive gels holds the potential to improve sexual experience, and hardbor safety and hygiene. In this study, we fabricated a carbomer-based contraceptive gel consisting of three agents: tenofovir, gossypol acetate, and nitroglycerin (TGN), with pH adjusted to 4.5 (to be compatible with the vagina). In vitro, the gossypol component of the contraceptive gel proved to be an effective spermicide. When the concentration of gossypol acetate was 10 mg/ml, the spermicidal ability reached 100% after 30 s. In addition, tenofovir in the gel significantly inhibited lentiviral transfection efficiency in cell-containing media. In 6 pairs of rats, the gel successfully prevented all females from conceiving after successful mating. Moreover, increased sexual frequency and enhanced erection, which were promoted by the nitroglycerin in the components, were observed in male rats that had the gel applied to their penises. This novel TGN contraceptive gel yielded a higher contraceptive success rate than that of the commercial contraceptive gel (Contragel®). In addition, it has the added benefits to prevent sexually transmitted diseases and improve male libido and erectile function during sexual intercourse. Combining three FDA-approved and marketed agents together, our trifunctional TGN gel has a great potential for further translation and commercialization.}, number={6}, journal={BIOACTIVE MATERIALS}, publisher={Elsevier BV}, author={Xie, Mengjie and Li, Junlang and Zhang, Sichen and Zhu, Dashuai and Mei, Xuan and Wang, Zhenzhen and Cheng, Xiao and Li, Zhenhua and Wang, Shaowei and Cheng, Ke}, year={2021}, month={Jun}, pages={1777–1788} }
 @misc{zhang_zhu_mei_li_li_xie_xie_wang_cheng_2021, title={Advances in biomaterials and regenerative medicine for primary ovarian insufficiency therapy}, volume={6}, ISSN={["2452-199X"]}, url={https://doi.org/10.1016/j.bioactmat.2020.12.008}, DOI={10.1016/j.bioactmat.2020.12.008}, abstractNote={Primary ovarian insufficiency (POI) is an ovarian dysfunction that affects more than 1 % of women and is characterized by hormone imbalances that afflict women before the age of 40. The typical perimenopausal symptoms result from abnormal levels of sex hormones, especially estrogen. The most prevalent treatment is hormone replacement therapy (HRT), which can relieve symptoms and improve quality of life. However, HRT cannot restore ovarian functions, including secretion, ovulation, and fertility. Recently, as part of a developing field of regenerative medicine, stem cell therapy has been proposed for the treatment of POI. Thus, we recapitulate the literature focusing on the use of stem cells and biomaterials for POI treatment, and sum up the underlying mechanisms of action. A thorough understanding of the work already done can aid in the development of guidelines for future translational applications and clinical trials that aim to cure POI by using regenerative medicine and biomedical engineering strategies.}, number={7}, journal={BIOACTIVE MATERIALS}, publisher={Elsevier BV}, author={Zhang, Sichen and Zhu, Dashuai and Mei, Xuan and Li, Zhenhua and Li, Junlang and Xie, Mengjie and Xie, Halle Jiang Williams and Wang, Shaowei and Cheng, Ke}, year={2021}, month={Jul}, pages={1957–1972} }