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Abstract
3D bioprinting is a transformative technology for fabricating biomimetic tissue constructs with significant potential in tissue engineering and regenerative medicine. However, developing sustainable bio-inks that achieve good printability, mechanical strength, and stability under physiological conditions without costly and time-consuming chemical modifications remains a major challenge. In this study, we present a cost-effective and sustainable physically crosslinked gelatin-based bio-ink (Gel-X) composed of gelatin, gellan gum, and Laponite XLG for multi-modal bioprinting. The composite Gel-X bio-ink is prepared in a straightforward and rapid manner (∼1 h) by simply stirring the different polymers in deionized water, eliminating the need for chemical crosslinkers. This formulation offers improved printability, mechanical properties, and controlled degradation and dimensional stability. Notably, the incorporation of Laponite XLG strengthens the gel network, further improving the structural integrity and mechanical robustness over time. Our results demonstrate that the cell-laden Gel-X tissue constructs maintain their structural integrity and robustness under physiological conditions, effectively addressing the rapid degradation and poor mechanical performance associated with conventional physically crosslinked bio-inks. Furthermore, Gel-X tissue constructs exhibit good biocompatibility, enabling the fabrication of highly complex and robust 3D structures suitable for bioprinting applications. By eliminating the reliance on chemical crosslinkers, Gel-X bio-ink provides a sustainable solution for advanced multi-modal bioprinting. This innovation not only overcomes existing limitations in bio-ink design but also broadens the accessibility and utility of 3D bioprinting.
Keywords
3D bioprinting
/
bio-inks
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biofabrication
/
gelatin
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multi-modal printing
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sustainability
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Wei Long Ng, Chuen Herh Ethan Yeow, Xi Huang, Samuel Lee, Wai Yee Yeong.
Physically crosslinked gelatin bio-inks with enhanced printability, degradation and mechanical robustness for multi-modal bioprinting.
Interdisciplinary Medicine, 2025, 3(4): e20250058 DOI:10.1002/INMD.20250058
| [1] |
C. K. Chua, J. An, S. Fan, X. Zhang, L. Ouyang, H. Liu, L. Zhang, Y. Ren, M. Gou, W. L. Ng, W. Y. Yeong, H. Zhu, Z. Meng, J. He, Int. J. Bioprint 2025, 11, 1.
|
| [2] |
W. L. Ng, J. An, C. K. Chua, Engineering 2024, 36, 146.
|
| [3] |
A. Shapira, T. Dvir, Adv. Sci. 2021, 8, 2003751.
|
| [4] |
W. L. Ng, C. K. Chua, Y.-F. Shen, Prog. Polym. Sci. 2019, 97, 101145.
|
| [5] |
D. Bejleri, B. W. Streeter, A. L. Nachlas, M. E. Brown, R. Gaetani, K. L. Christman, M. E. Davis, Adv. Healthcare Mater. 2018, 7, 1800672.
|
| [6] |
N. Noor, A. Shapira, R. Edri, I. Gal, L. Wertheim, T. Dvir, Adv. Sci. 2019, 6, 1900344.
|
| [7] |
J. Liu, K. Miller, X. Ma, S. Dewan, N. Lawrence, G. Whang, P. Chung, A. D. McCulloch, S. Chen, Biomaterials 2020, 256, 120204.
|
| [8] |
K. Flégeau, A. Puiggali-Jou, M. Zenobi-Wong, Biofabrication 2022, 14, 034105.
|
| [9] |
Y. Wang, R. Pereira, C. Peach, B. Huang, C. Vyas, P. Bartolo, Int. J. Extrem. Manuf. 2023, 5, 032004.
|
| [10] |
A. Puiggalí-Jou, R. Rizzo, A. Bonato, P. Fisch, S. Ponta, D. M. Weber, M. Zenobi-Wong, Adv. Healthcare Mater. 2024, 13, 2302179.
|
| [11] |
A. Isaacson, S. Swioklo, C. J. Connon, Exp. Eye Res. 2018, 173, 188.
|
| [12] |
A. Sorkio, L. Koch, L. Koivusalo, A. Deiwick, S. Miettinen, B. Chichkov, H. Skottman, Biomaterials 2018, 171, 57.
|
| [13] |
A. Mörö, S. Samanta, L. Honkamäki, V. K. Rangasami, P. Puistola, M. Kauppila, S. Narkilahti, S. Miettinen, O. Oommen, H. Skottman, Biofabrication 2022, 15, 015020.
|
| [14] |
P. Fan, F. Jin, Y. Qin, Y. Wu, Q. Yang, H. Liu, J. Li, Int. J. Bioprint 2023, 9, 1166.
|
| [15] |
D. Kang, J. A. Park, W. Kim, S. Kim, H. R. Lee, W. J. Kim; J. Y. Yoo, S. Jung. Adv. Sci. 2021, 8, 2004990.
|
| [16] |
W. L. Ng, T. C. Ayi, Y.-C. Liu, S. L. Sing, W. Y. Yeong, B.-H. Tan, Int. J. Bioprint 2021, 7332.
|
| [17] |
W. L. Ng, Z. Q. Tan, W. Y. Yeong, M. W. Naing, Biofabrication 2018, 10, 025005.
|
| [18] |
Y. Zhang, n. Enhejirigala, B. Yao, Z. Li, W. Song, J. Li, D. Zhu, Y. Wang, X. Duan, X. Yuan, Burns Trauma 2021, 9, tkab013.
|
| [19] |
W. L. Ng, S. Wang, W. Y. Yeong, M. W. Naing, Trends Biotechnol. 2016, 34, 689.
|
| [20] |
S. Ramesh, O. L. Harrysson, P. K. Rao, A. Tamayol, D. R. Cormier, Y. Zhang, I. V. Rivero, Bioprinting 2021, 21, e00116.
|
| [21] |
Z. Fu, S. Naghieh, C. Xu, C. Wang, W. Sun, X. Chen, Biofabrication 2021, 13, 033001.
|
| [22] |
S. Naghieh, X. Chen, J. Pharm. Anal. 2021, 11, 564.
|
| [23] |
W. L. Ng, V. Shkolnikov, Bio-des. Manuf. 2024, 7, 771.
|
| [24] |
W. L. Ng, J. M. Lee, W. Y. Yeong, M. Win Naing, Biomater. Sci. 2017, 5, 632.
|
| [25] |
R. Suntornnond, W. L. Ng, V. Shkolnikov, W. Y. Yeong, Droplet 2024, 3, e144.
|
| [26] |
W. L. Ng, J. M. Lee, M. Zhou, Y.-W. Chen, K.-X. A. Lee, W. Y. Yeong, Y.-F. Shen, Biofabrication 2020, 12, 022001.
|
| [27] |
W. Li, L. S. Mille, J. A. Robledo, T. Uribe, V. Huerta, Y. S. Zhang, Adv. Healthcare Mater. 2020, 9, 2000156.
|
| [28] |
S. Boularaoui, G. Al Hussein, K. A. Khan, N. Christoforou, C. Stefanini, Bioprinting 2020, 20, e00093.
|
| [29] |
A. C. Daly, Adv. Healthcare Mater. 2023, 2301388.
|
| [30] |
A. Blaeser, D. F. Duarte Campos, U. Puster, W. Richtering, M. M. Stevens, H. Fischer, Adv. Healthcare Mater. 2016, 5, 326.
|
| [31] |
W. L. Ng, X. Huang, V. Shkolnikov, G. L. Goh, R. Suntornnond, W. Y. Yeong, Int. J. Bioprint 2022, 8, 424.
|
| [32] |
W. L. Ng, X. Huang, V. Shkolnikov, R. Suntornnond, W. Y. Yeong, Bio-des. Manuf. 2023, 6, 676.
|
| [33] |
W. L. Ng, V. Shkolnikov, Int. J. Bioprint 2024, 10, 2135.
|
| [34] |
M. Khandaker, A. Orock, S. Tarantini, J. White, O. Yasar, Int. J. Biomater. 2016, 2016, 3208312.
|
| [35] |
H. Xu, J. Casillas, S. Krishnamoorthy, C. Xu, Biomed. Mater. 2020, 15, 055021.
|
| [36] |
R. Masuma, S. Kashima, M. Kurasaki, T. Okuno, J. Photochem. Photobiol. B Biol. 2013, 125, 202.
|
| [37] |
T. Xu, K. W. Binder, M. Z. Albanna, D. Dice, W. Zhao, J. J. Yoo, A. Atala, Biofabrication 2012, 5, 015001.
|
| [38] |
A. C. Daly, D. J. Kelly, Biomaterials 2019, 197, 194.
|
| [39] |
M. Abellan Lopez, L. Hutter, E. Pagin, M. Vélier, J. Véran, L. Giraudo, C. Dumoulin, L. Arnaud, N. Macagno, R. Appay, L. Daniel, B. Guillet, L. Balasse, H. Caso, D. Casanova, B. Bertrand, F. Dignat, L. Hermant, H. Riesterer, F. Guillemot, F. Sabatier, J. Magalon, Front. Bioeng. Biotechnol. 2023, 11, 1217655.
|
| [40] |
P. S. Gungor-Ozkerim, I. Inci, Y. S. Zhang, A. Khademhosseini, M. R. Dokmeci, Biomater. Sci. 2018, 6, 915.
|
| [41] |
G. Decante, J. B. Costa, J. Silva-Correia, M. N. Collins, R. L. Reis, J. M. Oliveira, Biofabrication 2021, 13, 032001.
|
| [42] |
W. L. Ng, J. M. Lee, M. Zhou, W. Y. Yeong, in Rapid Prototyping of Biomaterials (Ed: R. Narayan), Elsevier 2020, pp. 183-204.
|
| [43] |
J. Su, W. L. Ng, J. An, W. Y. Yeong, C. K. Chua, S. L. Sing, Virtual Phys. Prototyp. 2024, 19, e2438899.
|
| [44] |
S. Asim, T. A. Tabish, U. Liaqat, I. T. Ozbolat, M. Rizwan, Adv. Healthcare Mater. 2023, 12, 2203148.
|
| [45] |
J. He, Y. Sun, Q. Gao, C. He, K. Yao, T. Wang, M. Xie, K. Yu, J. Nie, Y. Chen, Y. He, Adv. Healthcare Mater. 2023, 12, 2300395.
|
| [46] |
K. Yue, G. Trujillo-de Santiago, M. M. Alvarez, A. Tamayol, N. Annabi, A. Khademhosseini, Biomaterials 2015, 73, 254.
|
| [47] |
C.-C. Tan, A. A. Karim, U. Uthumporn, F. C. Ghazali, Food Hydrocoll. 2020, 108, 106024.
|
| [48] |
A. A. Karim, R. Bhat, Food Hydrocoll. 2009, 23, 563.
|
| [49] |
Y. J. Yin, K. D. Yao, G. X. Cheng, J. B. Ma, Polym. Int. 1999, 48, 429.
|
| [50] |
W. L. Ng, W. Y. Yeong, M. W. Naing, Proced. CIRP 2016, 49, 105.
|
| [51] |
W. L. Ng, W. Y. Yeong, M. W. Naing, Int. J. Bioprinting 2016, 2, 53.
|
| [52] |
J. T. Koivisto, C. Gering, J. Karvinen, R. Maria Cherian, B. Belay, J. Hyttinen, K. Aalto-Setälä, M. Kellomäki, J. Parraga, ACS Appl. Mater. Interfaces 2019, 11, 20589.
|
| [53] |
K. Y. Lee, J. Shim, H. G. Lee, Carbohydr. Polym. 2004, 56, 251.
|
| [54] |
A. K. Gaharwar, L. M. Cross, C. W. Peak, K. Gold, J. K. Carrow, A. Brokesh, K. A. Singh, Adv. Mater. 2019, 31, 1900332.
|
| [55] |
J. W. Davern, L. Hipwood, L. J. Bray, C. Meinert, T. J. Klein, APL Bioeng. 2024, 8, 016101.
|
| [56] |
Y. Jin, C. Liu, W. Chai, A. Compaan, Y. Huang, ACS Appl. Mater. Interfaces 2017, 9, 17456.
|
| [57] |
W. L. Ng, W. Y. Yeong, M. W. Naing, Materials 2017, 10, 191.
|
| [58] |
Y. Zheng, Y. Liang, D. Zhang, X. Sun, L. Liang, J. Li, Y.-N. Liu, ACS Omega 2018, 3, 4766.
|
| [59] |
S. Jatav, Y. M. Joshi, Appl. Clay Sci. 2014, 97, 72.
|
| [60] |
B. Ruzicka, E. Zaccarelli, L. Zulian, R. Angelini, M. Sztucki, A. Moussaïd, T. Narayanan, F. Sciortino, Nat. Mater. 2011, 10, 56.
|
| [61] |
Y. M. Joshi, S. Patel, K. Suman, J. Rheol. 2024, 68, 145.
|
| [62] |
J. L. Dávila, M. A. d’Ávila, Carbohydr. Polym. 2017, 157, 1.
|
| [63] |
N. R. de Barros, A. Gomez, M. Ermis, N. Falcone, R. Haghniaz, P. Young, Y. Gao, A.-F. Aquino, S. Li, S. Niu, R. Chen, S. Huang, Y. Zhu, P. Eliahoo, A. Sun, D. Khorsandi, J. Kim, J. Kelber, A. Khademhosseini, H. J. Kim, B. Li, Biofabrication 2023, 15, 045005.
|
| [64] |
G. Cidonio, C. R. Alcala-Orozco, K. S. Lim, M. Glinka, I. Mutreja, Y.-H. Kim, J. I. Dawson, T. B. Woodfield, R. O. Oreffo, Biofabrication 2019, 11, 035027.
|
| [65] |
Z. Ma, H. He, C. Deng, Y. Ren, D. Lu, W. Li, X. Sun, W. Wang, Y. Zhang, Y. Xu, X. Zhou, L. Zhou, J. Lin, T. Li, T. Wu, J. Wang, Composites Part B: Engineering 2022, 229, 109399.
|
| [66] |
S. Miao, J. Zhou, B. Liu, X. Lei, T. Wang, X. Hao, P. Cheng, H. Wu, Y. Song, G. Pei, L. Bi, Mater. Today Bio 2022, 16, 100342.
|
| [67] |
L. Dong, Z. Bu, Y. Xiong, H. Zhang, J. Fang, H. Hu, Z. Liu, X. Li, Int. J. Biol. Macromol. 2021, 188, 72.
|
| [68] |
S. A. Wilson, L. M. Cross, C. W. Peak, A. K. Gaharwar, ACS Appl. Mater. Interfaces 2017, 9, 43449.
|
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2025 The Author(s). Interdisciplinary Medicine published by Wiley-VCH GmbH on behalf of Nanfang Hospital, Southern Medical University.
