SCAFFOLD-FREE TISSUE-ENGINEERED FETAL CARTILAGE-DERIVED PROGENITOR CELLS PROMOTE MENISCUS REPAIR

被引:0
|
作者
Truong Minh-Dung [1 ]
Young, Park Do [1 ,2 ]
In-Su, Park [1 ]
Hyune, Choi Byung [3 ]
Ra, Park So [4 ]
Byoung-Hyun, Min [1 ,2 ,5 ]
机构
[1] Ajou Univ Hosp, Cell Therapy Ctr, Suwon, South Korea
[2] Ajou Univ, Dept Orthoped Surg, Sch Med, Suwon, South Korea
[3] Inha Univ, Dept Biomed Sci, Coll Med, Incheon, South Korea
[4] Inha Univ, Dept Physiol, Coll Med, Incheon, South Korea
[5] Ajou Univ, Dept Mol Sci & Technol, Suwon, South Korea
来源
TISSUE ENGINEERING PART A | 2022年 / 28卷
关键词
D O I
暂无
中图分类号
Q813 [细胞工程];
学科分类号
摘要
1350
引用
收藏
页码:S378 / S378
页数:1
相关论文
共 50 条
  • [41] Treatment of Partial Growth Arrest Using an In Vitro-generated Scaffold-free Tissue-engineered Construct Derived From Rabbit Synovial Mesenchymal Stem Cells
    Yoshida, Kiyoshi
    Higuchi, Chikahisa
    Nakura, Akio
    Nakamura, Norimasa
    Yoshikawa, Hideki
    JOURNAL OF PEDIATRIC ORTHOPAEDICS, 2012, 32 (03) : 314 - 321
  • [42] Next Generation Mesenchymal Stem Cell (MSC)-Based Cartilage Repair Using Scaffold-Free Tissue Engineered Constructs Generated with Synovial Mesenchymal Stem Cells
    Shimomura, Kazunori
    Ando, Wataru
    Moriguchi, Yu
    Sugita, Norihiko
    Yasui, Yukihiko
    Koizumi, Kota
    Fujie, Hiromichi
    Hart, David A.
    Yoshikawa, Hideki
    Nakamura, Norimasa
    CARTILAGE, 2015, 6 (02) : 13S - 29S
  • [43] Evaluating potential of tissue-engineered cryogels and chondrocyte derived exosomes in articular cartilage repair
    Nikhil, Aman
    Kumar, Ashok
    BIOTECHNOLOGY AND BIOENGINEERING, 2022, 119 (02) : 605 - 625
  • [44] A scaffold-free approach to cartilage tissue generation using human embryonic stem cells
    Lauren A. Griffith
    Katherine M. Arnold
    Bram G. Sengers
    Rahul S. Tare
    Franchesca D. Houghton
    Scientific Reports, 11
  • [45] Comparison of fetal cartilage-derived progenitor cells isolated at different developmental stages in a rat model
    Kim, Mijin
    Kim, Jiyoung
    Park, So Ra
    Park, Do Young
    Kim, Young Jick
    Choi, Byung Hyune
    Min, Byoung-Hyun
    DEVELOPMENT GROWTH & DIFFERENTIATION, 2016, 58 (02) : 167 - 179
  • [46] Compressive properties of cartilage-like tissues repaired in vivo with scaffold-free, tissue engineered constructs
    Katakai, D.
    Imura, M.
    Ando, W.
    Tateishi, K.
    Yoshikawa, H.
    Nakamura, N.
    Fujie, H.
    CLINICAL BIOMECHANICS, 2009, 24 (01) : 110 - 116
  • [47] Enhanced articular cartilage regeneration using costal chondrocyte-derived scaffold-free tissue engineered constructs with ascorbic acid treatment
    Zheng, Kaiwen
    Ma, Yiyang
    Chiu, Cheng
    Xue, Mengxin
    Zhang, Changqing
    Du, Dajiang
    JOURNAL OF ORTHOPAEDIC TRANSLATION, 2024, 45 : 140 - 154
  • [48] A scaffold-free approach to cartilage tissue generation using human embryonic stem cells
    Griffith, Lauren A.
    Arnold, Katherine M.
    Sengers, Bram G.
    Tare, Rahul S.
    Houghton, Franchesca D.
    SCIENTIFIC REPORTS, 2021, 11 (01)
  • [49] Adult Dermal Stem Cells for Scaffold-Free Cartilage Tissue Engineering: Exploration of Strategies
    Vapniarsky, Natalia
    Kwon, Heenam
    Paschos, Nikolaos K.
    Haudenschild, Anne K.
    Brown, Wendy E.
    DuRaine, Grayson D.
    Hu, Jerry C.
    Athanasiou, Kyriacos A.
    TISSUE ENGINEERING PART C-METHODS, 2020, 26 (12) : 598 - 607
  • [50] Articular Cartilage Repair with Tissue-Engineered Hyaline Cartilage Reconstructed in a Chitosan-Hyaluronic Acid Scaffold by Costal Chondrocytes
    Lee, Jungsun
    Choi, Young-Joo
    Kim, Chun Ho
    Kim, Hwi-yool
    Son, Youngsook
    TISSUE ENGINEERING AND REGENERATIVE MEDICINE, 2011, 8 (05) : 446 - 453
12345