Lucy Nam scite author profile

Engineering organ-specific tissues for therapeutic applications is a grand challenge, requiring the fabrication and maintenance of densely cellular constructs composed of ~108 cells/ml. Organ building blocks (OBBs) composed of patient-specific–induced pluripotent stem cell–derived organoids offer a pathway to achieving tissues with the requisite cellular density, microarchitecture, and function. However, to date, scant attention has been devoted to their assembly into 3D tissue constructs. Here, we report a biomanufacturing method for assembling hundreds of thousands of these OBBs into living matrices with high cellular density into which perfusable vascular channels are introduced via embedded three-dimensional bioprinting. The OBB matrices exhibit the desired self-healing, viscoplastic behavior required for sacrificial writing into functional tissue (SWIFT). As an exemplar, we created a perfusable cardiac tissue that fuses and beats synchronously over a 7-day period. Our SWIFT biomanufacturing method enables the rapid assembly of perfusable patient- and organ-specific tissues at therapeutic scales.

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3D and 4D Bioprinting of the Myocardium: Current Approaches, Challenges, and Future Prospects

Ong

Nam

Ong

et al. 2018

BioMed Research International

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3D and 4D bioprinting of the heart are exciting notions in the modern era. However, myocardial bioprinting has proven to be challenging. This review outlines the methods, materials, cell types, issues, challenges, and future prospects in myocardial bioprinting. Advances in 3D bioprinting technology have significantly improved the manufacturing process. While scaffolds have traditionally been utilized, 3D bioprinters, which do not require scaffolds, are increasingly being employed. Improved understanding of the cardiac cellular composition and multiple strategies to tackle the issues of vascularization and viability had led to progress in this field. In vivo studies utilizing small animal models have been promising. 4D bioprinting is a new concept that has potential to advance the field of 3D bioprinting further by incorporating the fourth dimension of time. Clinical translation will require multidisciplinary collaboration to tackle the pertinent issues facing this field.

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Orthogonally induced differentiation of stem cells for the programmatic patterning of vascularized organoids and bioprinted tissues

Skylar‐Scott

Huang

et al. 2022

Nat. Biomed. Eng

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Use of Breast Milk and Other Feeding Practices Following Gastrointestinal Surgery in Infants

Varma

Bartlett²,

Nam

et al. 2019

J. pediatr. gastroenterol. nutr.

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Lucy Nam

Biomanufacturing of organ-specific tissues with high cellular density and embedded vascular channels

3D and 4D Bioprinting of the Myocardium: Current Approaches, Challenges, and Future Prospects

Orthogonally induced differentiation of stem cells for the programmatic patterning of vascularized organoids and bioprinted tissues

Use of Breast Milk and Other Feeding Practices Following Gastrointestinal Surgery in Infants

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