Perfusion culture maintained with an air-liquid interface to stimulate epithelial cell organization in renal organoids in vitro

被引:11
|
作者
Sachiko Sekiya
Tetsutaro Kikuchi
Tatsuya Shimizu
机构
[1] Tokyo Women’s Medical University,Institute of Advanced Biomedical and Engineering Science
来源
BMC Biomedical Engineering | / 1卷 / 1期
关键词
Renal organoid; Perfusion culture; Air-liquid interface;
D O I
10.1186/s42490-019-0017-9
中图分类号
学科分类号
摘要
引用
收藏
相关论文
共 50 条
  • [21] Successful In Vitro Culture of Rheumatoid Arthritis Synovial Tissue Explants at the Air-Liquid Interface
    Sakuraba, Koji
    Fujimura, Kenjiro
    Nakashima, Yasuharu
    Okazaki, Ken
    Fukushi, Jun-ichi
    Ohishi, Masanobu
    Oyamada, Akiko
    Esaki, Yukio
    Miyahara, Hisaaki
    Iwamoto, Yukihide
    Yoshikai, Yasunobu
    Yamada, Hisakata
    ARTHRITIS & RHEUMATOLOGY, 2015, 67 (04) : 887 - 892
  • [22] Novel 3D-Printed Cell Culture Inserts for Air-Liquid Interface Cell Culture
    Bauer, Magdalena
    Metzger, Magdalena
    Corea, Marvin
    Schaedl, Barbara
    Grillari, Johannes
    Dungel, Peter
    LIFE-BASEL, 2022, 12 (08):
  • [23] Optimization of an air-liquid interface in vitro cell co-culture model to estimate the hazard of aerosol exposures
    He, Rui-Wen
    Braakhuis, Hedwig M.
    Vandebriel, Rob J.
    Staal, Yvonne C. M.
    Gremmer, Eric R.
    Fokkens, Paul H. B.
    Kemp, Claudia
    Vermeulen, Jolanda
    Westerink, Remco H. S.
    Cassee, Flemming R.
    JOURNAL OF AEROSOL SCIENCE, 2021, 153
  • [24] Cultivation of Clear Cell Renal Cell Carcinoma Patient-Derived Organoids in an Air-Liquid Interface System as a Tool for Studying Individualized Therapy
    Esser, Laura K.
    Branchi, Vittorio
    Leonardelli, Sonia
    Pelusi, Natalie
    Simon, Adrian G.
    Kluemper, Niklas
    Ellinger, Joerg
    Hauser, Stefan
    Gonzalez-Carmona, Maria A.
    Ritter, Manuel
    Kristiansen, Glen
    Schorle, Hubert
    Hoelzel, Michael
    Toma, Marieta, I
    FRONTIERS IN ONCOLOGY, 2020, 10
  • [25] Intestinal epithelial culture under an air-liquid interface: a tool for studying human and mouse esophagi
    Yokobori, T.
    Suzuki, S.
    Miyazaki, T.
    Sohda, M.
    Sakai, M.
    Tanaka, N.
    Ozawa, D.
    Hara, K.
    Honjo, H.
    Altan, B.
    Fukuchi, M.
    Ishii, H.
    Iwatsuki, M.
    Sugimachi, K.
    Sudo, T.
    Iwaya, T.
    Nishida, N.
    Mimori, K.
    Kuwano, H.
    Mori, M.
    DISEASES OF THE ESOPHAGUS, 2016, 29 (07) : 843 - 847
  • [26] Oxygenation as a driving factor in epithelial differentiation at the air-liquid interface
    Kouthouridis, Sonya
    Goepp, Julie
    Martini, Carolina
    Matthes, Elizabeth
    Hanrahan, John W.
    Moraes, Christopher
    INTEGRATIVE BIOLOGY, 2021, 13 (03) : 61 - 72
  • [27] Optimisation of growth conditions for ovine airway epithelial cell differentiation at an air-liquid interface
    O'Boyle, Nicky
    Sutherland, Erin
    Berry, Catherine C.
    Davies, Robert L.
    PLOS ONE, 2018, 13 (03):
  • [28] A Janus-paper PDMS platform for air-liquid interface cell culture applications
    Rahimi, Rahim
    Ochoa, Manuel
    Donaldson, Amy
    Parupudi, Tejasvi
    Dokmeci, Mehmet R.
    Khademhosseini, Ali
    Ghaemmaghami, Amir
    Ziaie, Babak
    JOURNAL OF MICROMECHANICS AND MICROENGINEERING, 2015, 25 (05)
  • [29] USING AN AIR-LIQUID INTERFACE CULTURE SYSTEM FOR THE ACCUMULATION AND ANALYSIS OF AN IN VITRO INTESTINAL MUCUS LAYER
    Howard, R. L.
    Allbritton, N.
    Hill, D. B.
    PEDIATRIC PULMONOLOGY, 2020, 55 : S192 - S192
  • [30] Human keratinocyte culture on macroporous carriers at the air-liquid interface
    Linnau, EK
    Burt, AM
    Katinger, H
    Handa-Corrigan, A
    ANIMAL CELL TECHNOLOGY: PRODUCTS FROM CELLS, CELLS AS PRODUCTS, 1999, : 535 - 537
12345