A New Vascular Engineering Strategy Using 3D Printed Ice

被引:4
|
作者
Yeo, Giselle C. [1 ,2 ,3 ]
机构
[1] Univ Sydney, Charles Perkins Ctr, Sydney, NSW 2006, Australia
[2] Univ Sydney, Sch Life & Environm Sci, Sydney, NSW 2006, Australia
[3] Univ Sydney, Bosch Inst, Sydney, NSW 2006, Australia
来源
TRENDS IN BIOTECHNOLOGY | 2019年 / 37卷 / 05期
关键词
D O I
10.1016/j.tibtech.2019.01.007
中图分类号
Q81 [生物工程学(生物技术)]; Q93 [微生物学];
学科分类号
071005 ; 0836 ; 090102 ; 100705 ;
摘要
Vascular engineering requires integrating dimensional flexibility, strength, and bioactivity to fabricate materials that enable diffusive exchange of oxygen and nutrients between cells and their environment. A recent publication (Biomaterials 2019; 192: 334-345) has described a new method of creating freestanding, tailorable, and biocompatible vascular constructs by coating ice scaffolds with natural or synthetic polymers.
引用
收藏
页码:451 / 453
页数:4
相关论文
共 50 条
  • [31] Investigation of 3D Printed Bioresorbable Vascular Scaffold Crimping Behavior
    Collins, Caralyn P.
    Leng, Junqing
    Fu, Rao
    Ding, Yonghui
    Ameer, Guillermo
    Sun, Cheng
    ADVANCED MATERIALS TECHNOLOGIES, 2024, 9 (08)
  • [32] Development and Application of 3D Printed Mesoreactors in Chemical Engineering Education
    Tabassum, Tahseen
    Iloska, Marija
    Scuereb, Daniel
    Taira, Noriko
    Jin, Chongguang
    Zaitsev, Vladimir
    Afshar, Fara
    Kim, Taejin
    JOURNAL OF CHEMICAL EDUCATION, 2018, 95 (05) : 783 - 790
  • [33] Interface Engineering for 3D Printed Energy Storage Materials and Devices
    Bai, Jiaxuan
    Li, Haojie
    Vivegananthan, Priyanka
    Tian, Xiaocong
    Dong, Yifan
    Sun, Jian
    Dai, Zhigao
    Zhou, Kun
    ADVANCED ENERGY MATERIALS, 2024, 14 (07)
  • [34] ADVANCEMENTS IN THE USE OF CERAMIC NANOPARTICLES IN 3D PRINTED TISSUE ENGINEERING
    Hao, Huinan
    CERAMICS-SILIKATY, 2024, 68 (01) : 96 - 115
  • [35] Polymeric 3D printed structures for soft-tissue engineering
    Stratton, Scott
    Manoukian, Ohan S.
    Patel, Ravi
    Wentworth, Adam
    Rudraiah, Swetha
    Kumbar, Sangamesh G.
    JOURNAL OF APPLIED POLYMER SCIENCE, 2018, 135 (24)
  • [36] Engineering 3D Printed Gummies Loaded with Metformin for Paediatric Use
    Santamaria, Karla J.
    Anaya, Brayan J.
    Lalatsa, Aikaterini
    Gonzalez-Barranco, Patricia
    Cantu-Cardenas, Lucia
    Serrano, Dolores R.
    GELS, 2024, 10 (10)
  • [37] Three-Dimensional Printed 3D Structure for Tissue Engineering
    Park, Jeong Hun
    Jang, Jinah
    Cho, Dong-Woo
    TRANSACTIONS OF THE KOREAN SOCIETY OF MECHANICAL ENGINEERS B, 2014, 38 (10) : 817 - 829
  • [38] DRUG ELUTING 3D PRINTED SCAFFOLDS FOR BONE TISSUE ENGINEERING
    Chakka, Jaidev
    Nakhla, David
    Saha, Sanjeeb
    Elangovan, Satheesh
    Salem, Aliasger
    TISSUE ENGINEERING PART A, 2022, 28 : S487 - S487
  • [39] Analysis of 3D Printed Diopside Scaffolds Properties for Tissue Engineering
    Liu, Tingting
    Deng, Youwen
    Gao, Chengde
    Feng, Pei
    Shuai, Cijun
    Peng, Shuping
    MATERIALS SCIENCE-MEDZIAGOTYRA, 2015, 21 (04): : 590 - 594
  • [40] Engineering of 3D printed personalized polypills for the treatment of the metabolic syndrome
    Anaya, Brayan J.
    Cerda, Jose R.
    D'Atri, Rita Maria
    Yuste, Ivan
    Luciano, Francis C.
    Kara, Aytug
    Ruiz, Helga K.
    Ballesteros, Maria Paloma
    Serrano, Dolores R.
    INTERNATIONAL JOURNAL OF PHARMACEUTICS, 2023, 642
12345