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1Controlled Delivery of Curcumin and Vitamin K2 from Hydroxyapatite-Coated Titanium Implant for Enhanced in Vitro Chemoprevention, Osteogenesis, and in Vivo Osseointegration
Naboneeta Sarkar,Susmita Bose
ACS Applied Materials & Interfaces.2020;12(12)13644
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2Porous, lithium-doped calcium polyphosphate composite scaffolds containing vascular endothelial growth factor (VEGF)-loaded gelatin microspheres for treating glucocorticoid-induced osteonecrosis of the femoral head
Yue Luo,Donghai Li,Xiaowei Xie,PengDe Kang
Biomedical Materials.2019;14(3)035013
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Qiang Wang,Bing Zhao,Chao Li,Jie-Sheng Rong,Shu-Qing Tao,Tian-Zun Tao
Asian Pacific Journal of Tropical Medicine.2014;7(5)358
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Roya Sedghi,Nastaran Sayyari,Alireza Shaabani,Hassan Niknejad,Tahereh Tayebi
Polymer.2018;142(5)244
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5Impact of natural curcumin on the progression of experimental periodontitis in diabetic rats
Suzana P. Pimentel,Marcio Z. Casati,Fernanda V. Ribeiro,Monica Grazieli Corrêa,Felipe C. Franck,Bruno B. Benatti,Fabiano R. Cirano
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Simin Sharifi,Sepideh Zununi Vahed,Elham Ahmadian,Solmaz Maleki Dizaj,Atefeh Abedi,Seyed Mahdi Hosseiniyan Khatibi,Mohammad Samiei
Phytotherapy Research.2019;33(11)2927
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Chao Liu,Jiao Sun
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Materials.2018;11(4)595
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Giuseppe Tripodo,Theodora Chlapanidas,Sara Perteghella,Barbara Vigani,Delia Mandracchia,Adriana Trapani,Marta Galuzzi,Marta Cecilia Tosca,Barbara Antonioli,Paolo Gaetani,Mario Marazzi,Maria Luisa Torre
Colloids and Surfaces B: Biointerfaces.2015;125(4)300
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Chunmei Li,Tingting Luo,Zhaozhu Zheng,Amanda R. Murphy,Xiaoqin Wang,David L. Kaplan
Acta Biomaterialia.2015;11(4)222
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Xiang-Tao Zhang,Min Sun,Li Zhang,Yi-Ke Dai,Fei Wang
The Kaohsiung Journal of Medical Sciences.2020;36(9)673
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Simin Sharifi,Farzin Arablouye Moghaddam,Atefeh Abedi,Solmaz Maleki Dizaj,Shahin Ahmadian,Elaheh Dalir Abdolahinia,Seyed Mahdi Hosseiniyan Khatibi,Mohammad Samiei
BioFactors.2020;46(6)874
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13Curcumin restores the engraftment capacity of aged hematopoietic stem cells and also reduces PD-1 expression on cytotoxic T cells
Prajakta Shinde,Rutuja Kuhikar,Rohan Kulkarni,Nikhat Khan,Lalita Limaye,Vaijayanti Kale
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L. Floroian,C. Ristoscu,G. Candiani,N. Pastori,M. Moscatelli,N. Mihailescu,I. Negut,M. Badea,M. Gilca,R. Chiesa,I.N. Mihailescu
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Nanne Verheijen,Christiaan M. Suttorp,René E. M. van Rheden,Raymond F. Regan,Maria P. A. C. Helmich,Anne Marie Kuijpers-Jagtman,Frank A. D. T. G. Wagener
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Peng Zhu,Manli Yang,Hao He,Zhibin Kuang,Mu Liang,Anxiao Lin,Song Liang,Qiyun Wen,Zhiqin Cheng,Chaofeng Sun
Molecular Medicine Reports.2019;8(4)224
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17Novel antitumor mechanisms of curcumin: implication of altered tumor metabolism, reconstituted tumor microenvironment and augmented myelopoiesis
Naveen Kumar Vishvakarma
Phytochemistry Reviews.2014;13(3)717
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18TNFa and IL-1ß influence the differentiation and migration of murine MSCs independently of the NF-?B pathway
Catherine B Sullivan,Ryan M Porter,Chris H Evans,Thomas Ritter,Georgina Shaw,Frank Barry,Josephine Murphy
Stem Cell Research & Therapy.2014;5(4)104
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Fei Xing,Lang Li,Changchun Zhou,Cheng Long,Lina Wu,Haoyuan Lei,Qingquan Kong,Yujiang Fan,Zhou Xiang,Xingdong Zhang
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20Antidiabetic Properties of Curcumin I: Evidence from In Vitro Studies
Danja J. Den Hartogh,Alessandra Gabriel,Evangelia Tsiani
Nutrients.2020;12(1)118
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21The Impact of Curcumin on Bone Osteogenic Promotion of MC3T3 Cells under High Glucose Conditions and Enhanced Bone Formation in Diabetic Mice
Jia He,Xiaofeng Yang,Fan Liu,Duo Li,Bowen Zheng,Adil Othman Abdullah,Yi Liu
Coatings.2020;10(3)258
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22Shared Genetic and Epigenetic Mechanisms between the Osteogenic Differentiation of Dental Pulp Stem Cells and Bone Marrow Stem Cells
Sebastian Gaus,Hanluo Li,Simin Li,Qian Wang,Tina Kottek,Sebastian Hahnel,Xiangqiong Liu,Yupei Deng,Dirk Ziebolz,Rainer Haak,Gerhard Schmalz,Lei Liu,Vuk Savkovic,Bernd Lethaus,Min Tang
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Scientific Reports.2020;10(1)1
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24Enhanced bone defect repairing effects in glucocorticoid-induced osteonecrosis of the femoral head using a porous nano-lithium-hydroxyapatite/gelatin microsphere/erythropoietin composite scaffold
Donghai Li,Xiaowei Xie,Zhouyuan Yang,Changde Wang,Zhun Wei,Pengde Kang
Biomaterials Science.2018;6(3)519
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25ClC-3 chloride channels are involved in estradiol regulation of bone formation by MC3T3-E1 osteoblasts
Zhiqin Deng,Wencui Li,Jianying Xu,Meishen Yu,Duan Li,Qiuchan Tan,Daping Wang,Lixin Chen,Liwei Wang
Journal of Cellular Biochemistry.2019;120(5)8366
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26ClC-3 chloride channels are involved in estradiol regulation of bone formation by MC3T3-E1 osteoblasts
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Journal of Cellular Biochemistry.2020;120(5)127
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27Pretreatment of Adipose Derived Stem Cells with Curcumin Facilitates Myocardial Recovery via Antiapoptosis and Angiogenesis
Jianfeng Liu,Ping Zhu,Peng Song,Weiping Xiong,Haixu Chen,Wenhui Peng,Shuxia Wang,Shan Li,Zhiqing Fu,Yutang Wang,Haibin Wang
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29Priming approaches to improve the efficacy of mesenchymal stromal cell-based therapies
Nádia de Cássia Noronha,Amanda Mizukami,Carolina Caliári-Oliveira,Juçara Gastaldi Cominal,José Lucas M. Rocha,Dimas Tadeu Covas,Kamilla Swiech,Kelen C. R. Malmegrim
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Daniel A. Ryan,Jiongjia Cheng,Koichi Masuda,John R. Cashman
Tissue Engineering Part C: Methods.2020;26(11)577
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31Syringic acid, a phenolic acid, promotes osteoblast differentiation by stimulation of Runx2 expression and targeting of Smad7 by miR-21 in mouse mesenchymal stem cells
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32Curcumin: Novel Treatment in Neonatal Hypoxic-Ischemic Brain Injury
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35Molecular signaling mechanisms behind polyphenol-induced bone anabolism
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39Comparison between curcumin and all-trans retinoic acid in the osteogenic differentiation of mouse bone marrow mesenchymal stem cells
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49Ectopic Osteogenesis and Scaffold Biodegradation of Nano-Hydroxyapatite-Chitosan in a Rat Model
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