To deal with the limitation of cell thermal experiment, which cannot simulate the complex micro-environment in vivo and may influence the accuracy of the experiment, the present study tried to design a petri dish which is able to heat cells both in 2D and 3D forms. At the same time, operators could constantly monitor the changes of cells during and after heating process through the microscope. Verified by experiments, this petri dish has the superiority of biocompatibility, visuality, accuracy and stability. While the 3D cell culture is used to simulate the micro-environment of the tumor in vivo, this is an effective method for cell heating and culturing.
JIANG Zuomin,ZOU Jincheng,ZHANG Aili
. Establishment of an In Vitro Cell Heating System
Based on 3D Cell Culture[J]. Journal of Shanghai Jiaotong University, 2018
, 52(2)
: 200
-206
.
DOI: 10.16183/j.cnki.jsjtu.2018.02.012
[1]ZHANG Y, CALDERWOOD S K. Autophagy, protein aggregation and hyperthermia: A mini-review[J]. International Journal of Hyperthermia, 2011, 27(5): 409-414.
[2]BARRY M A, BEHNKE C A, EASTMAN A. Activation of programmed cell death (apoptosis) by cisplatin, other anticancer drugs, toxins and hyperthermia[J]. Biochemical Pharmacology, 1990, 40(10): 2353-2362.
[3]LEFEVRE J H, PARC Y, LEWIN M, et al. Radiofrequency ablation for recurrent pelvic cancer[J]. Colorectal Disease the Official Journal of the Association of Coloproctology of Great Britain & Ireland, 2008, 10(8): 781.
[4]ISSELS R D. Hyperthermia adds to chemotherapy[J]. European Journal of Cancer, 2008. 44(17): 2546-2554.
[5]TANAKA K, ITO A, KOBAYASHI T, et al. Heat immunotherapy using magnetic nanoparticles and dendritic cells for T-lymphoma[J]. Journal of Bioscience & Bioengineering, 2005, 100(1): 112-115.
[6]HOMING J L, SAHOO S K, VIJAYARAGHAVALU S, et al. 3-D tumor model for in vitro evaluation of anticancer drugs[J]. Molecular Pharmaceutics, 2008, 5(5): 849-862.
[7]HO W J, PHAM E A, KIM J W, et al. Incorporation of multicellular spheroids into 3-D polymeric scaffolds provides an improved tumor model for screening anticancer drugs[J]. Cancer Science, 2010, 101(12): 2637-2643.
[8]LAN S F, STARLY B.Alginate based 3D hydrogels as an in vitro co-culture model platform for the toxicity screening of new chemical entities[J]. Toxicology and Applied Pharmacology, 2011, 256(1): 62-72.
[9]SEANO G, CHIAVERINA G, GAGLIARDI P A, et al. Modeling human tumor angiogenesis in a three-dimensional culture system[J]. Blood, 2013, 121(21): 129-137.
[10]YAMAMOTO T, FUJII T, NOJIMA T. PDMS-glass hybrid microreactor array with embedded temperature control device: Application to cell-free protein synthesis[J]. Lab on A Chip, 2002, 2(4): 197-202.
[11]KAMEI Y, SUZUKI M, WATANABE K, et al. Infrared laser-mediated gene induction in targeted single cells in vivo[J]. Nature Methods, 2009, 6(1): 79-81.
[12]LIN R Z, CHANG H Y. Recent advances in three-dimensional multicellular spheroid culture for biomedical research[J]. Biotechnology Journal, 2008, 3(9/10): 1172-1184.
[13]HIRSCHHAEUSER F, MENNE H, DITTFELD C, et al. Multicellular tumor spheroids: An underestimated tool is catching up again[J]. Journal of Biotechnology, 2010, 148(1): 3-15.
[14]林漢強, 林志龍.發展ITO玻璃加熱平台用於灌注式細胞培養[D].中国台湾省高雄市:义守大学机械与自动化工程学系, 2009.
[15]KIOURTI A, SUN M, HE X, et al. Microwave cavity with controllable temperature for in vitro hyperthermia investigations[J]. Lecture Notes in Computer Science, 2014, 14(3): 267-272.
