Results 211 to 220 of about 372,670 (299)
Interfacial Control in Cu–MXene Hybrids Enables Selective NOx‐to‐NH3 Electroconversion: A Critical Review
Advanced Science, EarlyView.Cu‐MXene interfacial catalysts provide a promising platform for electrochemical NOx upcycling to ammonia. The synergy between Cu active sites and conductive, surface‐tunable MXene supports promotes NOx adsorption, intermediate stabilization, and selective NH3 formation while suppressing competing hydrogen evolution, offering a route toward sustainable ...Hafiz Muhammad Adeel Sharif, Gechuanqi Pan, Yuwei Wang, Yasir Abbas, Asif Mahmood, Changping Li +5 morewiley +1 more sourceROS‐Targeted Nanomotor Therapy in OA: Cartilage Protection and Pain Relief
Advanced Science, EarlyView.ROS‐responsive NM@MET nanomotors utilize elevated ROS in osteoarthritic joints to promote deep penetration into cartilage and synovium and enable sustained metformin release. By scavenging ROS, regulating NRF2/KEAP1 signaling, protecting chondrocytes, suppressing synovial inflammation, and attenuating nociceptive signaling, NM@MET alleviates pain and ...Meng Zheng, Changyu Liu, Qin Xia, Arndt F. Schilling, Jiawei Jiang, Renpeng Peng, Zixing Shu, Tian Ma, Danni Luo, Yaoyu Zhang, Yibo Fan, Xuyuan Zhang, Song Li, Kai Wang, Wentao Ke, Yuan Xiong, Yuanli Zhu, Fangzhi Mou, Jun Xiao, Hao Zhu +19 morewiley +1 more sourceLactate‐Driven Restriction of Mitochondrial Permeability Transition Promotes Resistance to Chemo‐Immunotherapy by Suppressing Tumor PANoptosis
Advanced Science, EarlyView.Tumor‐derived lactate establishes a metabolic lock that drives chemo‐immunotherapy resistance by suppressing PANoptosis. Mechanistically, KAT8 lactylates the mitochondrial translocator ANT2, which recruits PGAM5 to dephosphorylate CypD. This cascade restricts mitochondrial permeability transition pore opening, preventing pro‐inflammatory mtDNA leakage. Sen Zhong, Wenlong Chen, Fanglong Liu, Shengyi Zhou, Bolin Yu, Yuying Wang, Xiqian Zhou, Xuehui Wang, Diya Liu, Zhuoyu Zhang, Xinran Wang, Mounia Lalouly, Yiwen Li, Zhefei Du, Tao Yan, Zhihui Xiao, Zhou Zhou, Huanhuan Zhu, Fengyuan Qian, Bowen Zheng, Lin Fang +20 morewiley +1 more sourceReal‐Time in Vivo Monitoring of Circulating Endometrial Cells: Uncovering Systemic Dissemination and Temporal Fluctuations in Endometriosis
Advanced Science, EarlyView.A dual‐color pseudo‐menstrual mouse model enables real‐time tracing of circulating endometrial cells (CECs) from uterine and ectopic sources. The study reveals menstrual‐phase‐dependent, burst‐like CEC release, distinct postoperative behaviors of different CEC origins, and a potential association with prolactin fluctuations, providing an in vivo ...Shang Wang, Chenyu Hou, Buyun Li, Hongyan Cheng, Xue Ye, Honglan Zhu, Yanmin Li, Rui Chen, Sihan Dong, Yi Li, Huiping Liu, Chen Zhang, Rui Zhang, Hongyi Hou, Xunbin Wei, Xiaohong Chang +15 morewiley +1 more sourceMolecular and Cellular Hallmarks of Age‐Related Vestibular Hair Cell Degeneration
Advanced Science, EarlyView.This study utilizes single‐cell RNA‐seq transcriptomes, advanced imaging, and electrophysiology to examine universal and cell‐type‐specific aging signatures of vestibular hair cells. The study shows that impaired hair bundle function is a key driver of age‐related vestibular dysfunction.Samadhi Kulasooriya, Huizhan Liu, Sarath Vijayakumar, Celia Bloom, Zhenhang Xu, Shu Tu, Benjamin J. Borgmeier, Mi Zhou, Litao Tao, Bechara Kachar, David Z. He +10 morewiley +1 more sourceAcute/Chronic respiratory failure
Intensive Care Medicine, 1992 De La Cruz, C., Criado, A., Diaz, L., Seiz, A., Vidaur, P. L., Fraile, J. R., Filos, K. S., Goudas, L. C., Dougenis, D., Tassoudis, V., Patroni, O., Winkler, W. -B., Karnik, R., Seelmann, O., Havlicek, J., Stany, J., Becker, H., Peter, J. H., Pitzer, W., Schneider, H., Wichert, P. V., De Blasi, R. A., Conti, G., Mattia, C., Mega, A. M., Ferrari, M., Gasparetto, A., Steltzer, H., Hiesmayr, M., Krafft, P., Petcold, R., Strasser, K., Hammerle, A. F., Capellier, G., Liauw, S., Wintoh, T., Marshall, J., Demajo, W., Barale, F., Walker, P. M., Dugernier, T., Laterre, P. F., Deby-Dupont, G., Lamy, M., Reynaert, M. S., Navarrete, P., Vázquez, G., Rivera, R., Fernandez, E., Mérida, A., Boch, J. N., Eibenberger, K., Herold, C., Schlick, W., van der Heijde, R. M. J. L., Grotjohan, H. P., Versprille, A., Wagenvoort, C. A., Raijmakers, P. G. H. M., Groeneveld, A. B. J., Schneider, A. J., Rauwerda, J. A., Teule, G. J. J., Thija, L. G., Singer, M., Vermaat, J., Hall, G., Latter, G., Patel, M., Jansen, J. R. C., Bordet, F., Mercatello, A., Coronel, B., Bret, M., Tlgaud, J. D., Archimbaud, E., Moskovtchenko, J. F., Gregorakos, L., Katsanos, Ch., Michalopoulos, A., Malessios, V., Mavropanou, D., Nicolopoulos, J., Karageorgiou, K., Tognet, E., Polo, P., Devaux, Y., Fière, D., Valta, P., Takala, J., De Blasio, F., Iannuzzi, E., De Sio, A., Ferraro, F., Schiraldi, F., Mostarda, G. F., Spannbrucker, N., Kiesow, U., Kleinschmidt, R., Reper, P., Marion, E., Van Hille, F., De Neef, H., Heymans, W., Ysebaert, D., Van Hoof, R., Vanderkelen, A., Elsen, M., Gregoretti, C., Beltrame, F., Conti, G., Burbi, L., Antonaglia, V., Lucangelo, U., Biolino, P., Giugiaro, P. M., Sasso, F., Schneider, H., Becker, H., Cassel, W., Peter, J. H., von Wichert, P., Ludwigs, Ulf, Klingstedt, Christer, Baehrendtz, Svante, Hedenstierna, Göran, Gomez, V., De la Casa, R., Anon, J. M., Pascual, C., Jimenez, M., Yus, S., Angouridakis, P., Sofianos, B., Anastasaki, M., Frantzeskos, G., Askitopoelou, B., Priem, R., Schultheiss, R., Cedzich, C., Rabbat, A., Garrouste, M. T., Nahmias, G., Le Gall, J. R., Schlemmer, B., Wegenius, Göran, Matte, P., Jacquet, L., Ceriani, R., Goenen, M., Roeseler, J., Palavecino, L., Dougnac, A., Reynaert, H., Avila, A., Oliphant, L., Ward, C., Spitzer, Sh., Fink, G., Putensen, C., Leon, M., Putensen-Himmer, G. +161 moreopenaire +2 more sourcesRHINO: An Integrative Multi‐Omics Framework Linking Circadian Physiology to Precision Medicine
Advanced Science, EarlyView.RHINO (RHythmic Interacting Network for multi‐Omics) is an integrative framework that maps circadian regulation across diverse genetic and disease contexts and prioritizes druggable circadian targets. Released as an AI‐powered interactive web portal, RHINO unifies genetic, regulatory, disease, and drug–target information, enabling context‐specific ...Ying Chen, Chengxuan Chen, Dishu Zhou, Panpan Liu, Roberto E. López‐Valiente, Yuan Liu, Cam Mong La, Isabella Beraldo Xavier, Sean M. Hartig, Pradip Saha, Zheng Sun, Leng Han, Dongyin Guan +12 morewiley +1 more source