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Journal of Bionic Engineering ›› 2022, Vol. 19 ›› Issue (4): 1100-1108.doi: 10.1007/s42235-022-00183-3

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Oxygen and Glucose Transportation and Distribution on 3D Osteochondral Scaffold in Silico Model

Ziyu Liu1,2, Hao Huang2,3, Jingying Yang2, Maryam Tamaddon1, Haoyu Wang1, Yingying Gu1, Zhenyun Shi3, Chaozong Liu1    

  1. 1 Division of Surgery and Interventional Science, Royal National Orthopaedic Hospital, University College London, Stanmore, London HA7 4LP, UK  2 Beijing Advanced Innovation Centre for Biomedical Engineering, School of Engineering Medicine, Beihang University, Beijing 100083, China  3 School of Mechanical Engineering and Automation, Beihang University, Beijing 100191, China
  • Received:2021-09-25 Revised:2022-02-18 Accepted:2022-03-28 Online:2022-09-22 Published:2022-09-23
  • Contact: Chaozong Liu E-mail:chaozong.liu@ucl.ac.uk
  • About author:Ziyu Liu1,2, Hao Huang2,3, Jingying Yang2, Maryam Tamaddon1, Haoyu Wang1, Yingying Gu1, Zhenyun Shi3, Chaozong Liu1

Abstract: Nutrients supply especially like nutrients and oxygen play vital role in tissue engineering process. It is found that tissue could not grow very well in the middle of the scaffold because few nutrients could transport to the middle. Nutrient limitations would reduce cell proliferation and differentiation. In that case, there is urgent need to understand the nutrient distribution for both in vitro and in vivo study, as no technology is able for researchers to observe the nutrients transport during those process. In this paper, a numerical model coupling with VOF (volume of fluid) model and species transport model together for predicting the distribution of oxygen and glucose in the scaffold after implantation in to the site is developed. Comparing with our previous in vivo tests, the regenerated tissue distribution has a similar trend as oxygen distribution rather than glucose. The reported scaffold manufactured by additive manufacturing provided a good interconnected structure which facilitated the nutrient transportation in the scaffold. Considering nutrient transportation, this numerical model could be used in better understanding the nutrients transportation in the scaffold, and leading to a better understanding of tissue formation in the scaffold.

Key words: Nutrient transport , · Scafold , · Nutrient distribution , · Computational fuid dynamic , · Discrete phase model