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Tissue Spheroids as Building Blocks: A Scientometric Analysis
Table 1. Top ten cited Scopus publications related to tissue spheroids as building blocks.
S. No. Title Authors Year Source Scopus
cites
1 Allogeneic bone marrow–derived Lin, BL; Chen, JF; Qiu, WH; 2017 Hepatology 119
mesenchymal stromal cells Wang, KW; Xie, D; Chen, XY; (Baltimore,
for hepatitis B virus–related Liu, QL; Peng, L; Li, JG; Mei, Md.) 66 (1),
acute-on-chronic liver failure: A YY; Weng, WZ; Peng, YW; Cao, 209-219
randomized controlled trial [22] HJ; Xie, JQ; Xie, SB; Xiang, AP;
Gao, ZL.
2 3D spheroid culture enhances Xu, Y; Shi, T; Xu, A; Zhang, L. 2016 Journal of 91
survival and therapeutic capacities Cellular and
of MSCs injected into ischemic Molecular
kidney [23] Medicine 20
(7), 1203-1213
3 Combined intramyocardial delivery Avolio, E; Meloni, M; 2015 Circulation 88
of human pericytes and cardiac stem Spencer, H; Riu, F; Katare, Research 116
cells additively improves the healing R; Mangialardi, G; Oikawa, (10), e81-94
of mouse infarcted hearts through A; Rodriguez-Arabaolaza, I;
stimulation of vascular and muscular Dang, Z; Mitchell, K; Reni,
repair [24] C; Alvino, V; Rowlinson, J;
Livi, U; Cesselli, D; Angelini,
G; Emanueli, C; Beltrami, A;
Madeddu, P.
4 Transplantation of a human Nagamoto, Y; Takayama, K; 2016 Journal of 80
iPSC-derived hepatocyte sheet Ohashi, K; Okamoto, R; Sakurai, Hepatology 64
increases survival in mice with acute F; Tachibana, M; Kawabata, K; (5), 1068-1075
liver failure [31] Mizuguchi, H.
5 Enhanced survival and engraftment Jha, AK; Tharp, KM; Ye, J; 2015 Biomaterials 77
of transplanted stem cells using Santiago-Ortiz, JL; Jackson, 47, 1-12
growth factor sequestering WM; Stahl, A; Schaffer, DV;
hydrogels [32] Yeghiazarians, Y; Healy, KE.
6 Three-dimensional testicular Pendergraft, SS; Sadri-Ardekani, 2017 Biology of 67
organoid: A novel tool for the study H, Atala, A; Bishop, CE. Reproduction
of human spermatogenesis and 96 (3),
gonadotoxicity in vitro [33] 720–732
7 Accessible bioprinting: Adaptation Reid, JA; Mollica, PA; Johnson, 2016 Biofabrication 60
of a low-cost 3D-printer for precise GD; Ogle, RC; Bruno, RD; 8 (2), 025017
cell placement and stem cell Sachs, PC.
differentiation [25]
8 Microfluidic Templated Zhang, L; Chen, K; Zhang, H; 2018 Small 14 (9) 60
Multicompartment Microgels for 3D Pang, B; Choi, CH; Mao, AS;
Encapsulation and Pairing of Single Liao, H; Utech, S; Mooney, DJ;
Cells [34] Wang, H; Weitz, DA.
9 Towards Single-Step Biofabrication Knowlton, S; Yenilmez, B; 2016 Trends in 58
of Organs on a Chip via 3D Tasoglu, S. Biotechnology
Printing [26] 34 (9),
685-688
10 Airflow-Assisted 3D Bioprinting Zhao, H; Chen, Y; Shao, L; 2018 Small 14 (39) 51
of Human Heterogeneous Xie, M; Nie, J; Qiu, J; Zhao, P;
Microspheroidal Organoids with Ramezani, H; Fu, J, Ouyang, H;
Microfluidic Nozzle [27] He, Y.
196 International Journal of Bioprinting (2022)–Volume 8, Issue 3
