Results 161 to 170 of about 213,267 (396)
Impact of solid lipid nanoparticles on 3T3 fibroblasts viability and lipid profile: The effect of curcumin and resveratrol loading
Journal of Applied Toxicology, Volume 43, Issue 2, Page 272-286, February 2023., 2023 Abstract
This study focused on the impact in 3T3 fibroblasts of several types of empty and curcumin‐ and resveratrol‐loaded solid lipid nanoparticles (SLN) on cell viability and lipid metabolism in relation to their lipid content and encapsulated drug.Antonella Rosa, Mariella Nieddu, Giulia Pitzanti, Rosa Pireddu, Francesco Lai, Maria Cristina Cardia +5 morewiley +1 more sourceCancer prevention and therapy through the modulation of the tumor microenvironment [PDF]
, 2015 Cancer arises in the context of an in vivo tumor microenvironment. This microenvironment is both a cause and consequence of tumorigenesis. Tumor and host cells co-evolve dynamically through indirect and direct cellular interactions, eliciting multiscale ...Amedei, Amedeo, Aquilano, Katia, Azmi, Asfar S., Benencia, Fabian, Bhakta, Dipita, Bilsland, Alan, Boosani, Chandra S., Casey, Stephanie C., Chen, Sophie, Ciriolo, Maria Rosa, Crawford, Sarah, Felsher, Dean W., Fujii, Hiromasa, Georgakilas, Alexandros G., Guha, Gunjan, Halicka, Dorota, Helferich, William G., Heneberg, Petr, Honoki, Kanya, Keith, W. Nicol, Kerkar, Sid P., Mohammed, Sulma I., Niccolai, Elena, Nowsheen, Somaira, Samadi, Abbas, Singh, Neetu, Talib, Wamidh H., Vasantha Rupasinghe, H.P., Venkateswaran, Vasundara, Whelan, Richard L., Yang, Xujuan +30 morecore +1 more sourceNanomaterials for enhanced X‐ray‐triggered cancer therapy: Progress and prospects
BMEMat, EarlyView.This review summarizes the latest progress in nanomaterials for X‐ray‐triggered cancer therapy, highlighting their various advantages such as targeted delivery, reduced side effects, and enhanced therapeutic efficacy. Abstract
X‐rays, a form of ionizing radiation with high energy and significant penetration capability, are commonly used in clinical ...Yuanchun Chen, Shijie Shangguan, Zhongyu Lin, Xuemei Zeng, Siew Yin Chan, Xian Qin, Shuangqian Yan +6 morewiley +1 more sourceAASLD practice guidance on drug, herbal, and dietary supplement–induced liver injury
, 2022 Hepatology, EarlyView.Robert J. Fontana, Iris Liou, Adrian Reuben, Ayako Suzuki, M. Isabel Fiel, William Lee, Victor Navarro +6 morewiley +1 more sourceIs Curcumin an Antidote for Civilization Diseases? A Literature Review
Quality in Sport
Introduction and purpose: Curcumin is the main natural lipophilic polyphenol obtained from Curcuma longa L. Its anti-inflammatory, anti-cancerous, anti-obesity, antioxidant, and lipid-lowering effects have attracted scientists' attention.Adrianna Madej, Adrian Suława, Oskar Targoński, Marta Targońska, Julia Furgalska-Kudła , Sebastian Fedorowicz, Aneta Basiak, Aleksander Ptasiński , Rafał Niekurzak, Agnieszka Buczek +9 moredoaj +1 more sourceAntibacterial hydrogel: The sniper of chronic wounds
BMEMat, EarlyView.The treatment of chronic wounds has always been an important challenge in the medical field. We focus on hydrogels not only because they provide a moist healing environment but also because compared with traditional dressings, they can effectively prevent and treat infections, reduce wound pain and scar formation.Shengtai Bian, Huijun Ye, Pan Wang, Changxing Li, Xutao Guo, Ming Guan, Shilun Feng +6 morewiley +1 more sourceEvasion of anti-growth signaling: a key step in tumorigenesis and potential target for treatment and prophylaxis by natural compounds [PDF]
, 2015 The evasion of anti-growth signaling is an important characteristic of cancer cells. In order to continue to proliferate, cancer cells must somehow uncouple themselves from the many signals that exist to slow down cell growth.A.R.M. Ruhul Amin, Abraham, Adorno, Ahmad, Akhurst, Alan Bilsland, Albertoni, Alexandros G. Georgakilas, Amedeo Amedei, Amin, Amin, Amin, Amr Amin, Apelqvist, Arbiser, Aronchik, Asfar S. Azmi, Aster, Athar, Baek, Baek, Baek, Baek, Bagli, Bahr, Balasubramanyam, Banerjee, Barry, Bateman, Bauskin, Bean, Beckerman, Belletti, Berletch, Bhattacharyya, Bian, Bill Helferich, Bock, Bolos, Bolos, Bootcov, Bracken, Bray, Bray, Breen, Brooks, Brown, Brown, Brown, Buck, Bunney, Cancer Genome Atlas Research, Cantero, Cekanova, Chandra S. Boosani, Charles, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Chen, Cheng, Chintharlapalli, Choi, Choudhuri, Christofori, Classon, Clem, Cordero-Espinoza, Cornen, Costa, Covey, Cui, Dai, Dai, Dallas, Damera, Dameron, Daniels, Dardousis, Debeb, Decristofaro, Dell’Eva, Deng, Denissova, Dennis, Dhar, Di, Dickinson, Dickson, Ding, Dipita Bhakta, Dominguez, Dong, Dong M. Shin, Dorota Halicka, Dotsch, Douc-Rasy, Du, Dudas, Durfort, D’Angelo, Ehebauer, Elena Niccolai, Enderle, Engelman, Evans, Fang, Fang, Farabegoli, Faridoni-Laurens, Fernandez, Firth, Fischbach, Fotsis, Fox, Freed-Pastor, Friday, Fuggetta, Gabellini, Gao, Garcia, Garofalo, Gazala N. Khan, Giovannini, Gloria S. Huang, Goldstein, Griner, Grogan, Gualberto, Guan, Guan, Gudkov, Guha, Gui, Gullett, Guo, Guo, Guo, Guo, Gupta, Haddad, Hahm, Hahm, Hahn, Hald, Hanahan, Hardcastle, Hardtner, Harper, Hartog, Harvey, Hastak, Hayes, Heallen, Hebert, Hendrickson, Hennessy, Herman-Antosiewicz, Heyninck, Heyninck, Hiromasa Fujii, Ho-Young Lee, Hoffmann, Hollander, Holy, Hossain, Huang, Huang, Huang, Hudson, Humbel, Husaini, Hussain, Hwa, Ichimiya, Indovina, Ishida, Jack Arbiser, Jacque, Jang, Jerome, Ji, Jia, Jiang, Jin-Tang Dong, Joerg Reichrath, Jogie-Brahim, Johnson, Jones, Joshi, Jung, Kahlert, Kan, Kang, Kanya Honoki, Karpowicz, Katagiri, Katia Aquilano, Kaushik, Kennedy, Khan, Khaw, Khaw, Kim, Kim, Kim, Kim, Kim, Kim, Kim, King, Knudsen, Knuutila, Koduru, Kohno, Kong, Konishi, Kooijman, Koopmann, Koopmann, Kopelovich, Kovalev, Kunnumakkara, Kurosu, Kwak, Lai, Lam, Lamar, Lambert, Lamonte, Lanzilli, Leao, Lee, Lee, Lee, LeRoith, Leupin, Levine, Li, Li, Li, Li, Li, Li, Liang, Lichner, Licitra, Lin, Lin, Lin, Lindmark, Liu, Liu, Liu, Liu-Chittenden, Loukopoulos, Lundberg, Luo, Luo, Ma, Maher, Maillard, Majumdar, Malaguarnera, Mamo, Mankame, Maor, Maria Rosa Ciriolo, Martinez, Martinez-Garcia, Massi, Maxwell, McClatchey, McGrath, Medema, Mendivil, Menendez, Miele, Mimeault, Min, Mitra, Miyake, Miyamoto, Mizuno, Mohan, Moll, Moon, Moore, Morgillo, Murga, Murillo, Murtaugh, Nagl, Nahta, Nair, Nakamura, Nallet-Staub, Nandakumar, Nandan, Nandan, Nandan, Nasiri, National Cancer Genome Atlas Research, Nefedova, Negi, Ng, Nian, Nihal, Ogawara, Oh, Oh, Okuyama, Omer Kucuk, Ono, Osada, Ouchi, Overholtzer, Pal, Pankov, Park, Park, Peacock, Phillip A. Karpowicz, Pinnix, Pollak, Pollak, Ponnurangam, Pons, Pratheeshkumar, Premkumar, Rao, Reed, Reedijk, Reedijk, Reidy, Reinmuth, Reisman, Ren, Riedemann, Rita Nahta, Rizzo, Rogler, Rosenfeldt, Roy, Rufini, Ryan, S. Salman Ashraf, Sadava, Samani, Santer, Santoro, Sarkar, Sasiela, Sausen, Schlegelmilch, Schmidt, Selander, Senapati, Serrano, Shamim, Shammas, Shangary, Shankar, Shankar, Sharif, Sharma, Shi, Shih Ie, Shijun Mi, Shim, Shim, Shimizu, Shin, Shindo, Shnaper, Shrimali, Siddiqui, Singh, Sinha, Sjolund, Somaira Nowsheen, Sophie Chen, Sotoca, Staal, Staff, Stockhausen, Stoeltzing, Stupack, Su, Subbaramaiah, Suh, Sulma I. Mohammed, Sun, Sunahara, Sur, Szarc vel Szic, Tan, Tan, Tannapfel, Tao, Thaiparambil, Thamilselvan, Thomas E. Carey, Tian, Ting, Trimboli, Tsui, Ulanet, Ulbricht, Valenti, van der Veeken, Vanhara, Varelas, Varelas, Villanueva, Volate, Vousden, W. Nicol Keith, Wallace, Wallin, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Wang, Weinberg, Welsh, Wen, Weng, Werner, Werner, Wesolowska, Wetterau, Whitson, Wiegand, Wiklund, William, Wilson, Wolf, Wong, Wu, Wu, Wu, Wynne, Xie, Xing, Xu, Xue, Xujuan Yang, Yamaguchi, Yamamoto, Yan, Yang, Yang, Yang, Yasaei, Yavari, Yee, Yin, Ying, Yokomizo, Yokomizo, Yonekura, Youns, Yu, Yu, Yu, Yu, Zaika, Zang, Zanotto-Filho, Zender, Zgheib, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhang, Zhao, Zhao, Zhao, Zheng, Zheng, Zhong, Zhu, Zhuo G. Chen, Zilfou, Zlotogorski +515 morecore +1 more sourceUnveiling the complexity of cellular senescence in cancers: From mechanism to therapeutic opportunities
BMEMat, EarlyView.This review highlights the complex roles of cellular senescence in cancer progression and suppression, discusses the mechanisms and regulatory pathways involved, and evaluates the efficacy of the “One‐Two punch” sequential treatment approach while addressing emerging challenges in this novel therapeutic strategy.Qiuming Pan, Ye Zhu, Zhi Ye, Huayang Zhang, Junxi Wang, Guozhong Yi, Zhiyong Li, Rongyang Xu, Luyao Wang, Zhenzhen Wu, Songtao Qi, Guanglong Huang, Shanqiang Qu +12 morewiley +1 more sourceLong noncoding RNA CDKN2B‐AS1 silencing protects against esophageal cancer cell invasion and migration by inactivating the TFAP2A/FSCN1 axis
The Kaohsiung Journal of Medical Sciences, Volume 38, Issue 12, Page 1144-1154, December 2022., 2022 Abstract
Esophageal cancer (EC) is the most aggressive malignancy in the gastrointestinal tract. Long noncoding RNA cyclin‐dependent kinase inhibitor 2 B antisense RNA 1 (CDKN2B‐AS1) is implicated in EC development. However, the specific mechanisms involved remain poorly defined.Jia‐Liang Zhu, Wen‐Bo Xue, Zhi‐Bin Jiang, Wei Feng, Yi‐Cai Liu, Xiong‐Ying Nie, Long‐Yu Jin +6 morewiley +1 more source
