Instrumented cardiac microphysiological devices via multimaterial three-dimensional printing
Johan Ulrik Lind,Johan Ulrik Lind,Travis Alexander Busbee,Travis Alexander Busbee,Alexander D. Valentine,Alexander D. Valentine,Francesco S. Pasqualini,Francesco S. Pasqualini,Hongyan Yuan,Hongyan Yuan,Hongyan Yuan,Moran Yadid,Moran Yadid,Sung-Jin Park,Sung-Jin Park,Arda Kotikian,Arda Kotikian,Alexander P. Nesmith,Alexander P. Nesmith,Patrick H. Campbell,Patrick H. Campbell,Joost J. Vlassak,Jennifer A. Lewis,Jennifer A. Lewis,Kevin Kit Parker,Kevin Kit Parker +25 more
Reads0
Chats0
TLDR
Six functional inks are designed, based on piezo-resistive, high conductance, and biocompatible soft materials that enable integration of soft strain gauge sensors within micro-architectures that guide the self-assembly of physio-mimetic laminar cardiac tissues via multi-material 3D printing.Abstract:
Biomedical research has relied on animal studies and conventional cell cultures for decades. Recently, microphysiological systems (MPS), also known as organs-on-chips, that recapitulate the structure and function of native tissues in vitro, have emerged as a promising alternative. However, current MPS typically lack integrated sensors and their fabrication requires multi-step lithographic processes. Here, we introduce a facile route for fabricating a new class of instrumented cardiac microphysiological devices via multimaterial three-dimensional (3D) printing. Specifically, we designed six functional inks, based on piezo-resistive, high-conductance, and biocompatible soft materials that enable integration of soft strain gauge sensors within micro-architectures that guide the self-assembly of physio-mimetic laminar cardiac tissues. We validated that these embedded sensors provide non-invasive, electronic readouts of tissue contractile stresses inside cell incubator environments. We further applied these devices to study drug responses, as well as the contractile development of human stem cell-derived laminar cardiac tissues over four weeks.read more
Citations
More filters
Journal ArticleDOI
Injection continuous liquid interface production of 3D objects
Gabriel Lipkowitz,Tim Samuelsen,Kai-Yu Hsiao,Maria T. Dulay,Ian A. Coates,Harrison Lin,William Pan,Geoffrey Toth,Lee Tate,Eric S. G. Shaqfeh,Joseph M. DeSimone +10 more
TL;DR: In this article , the authors introduce a previously unexplored ultraviolet-based photopolymerization three-dimensional printing process, iCLIP, which exploits a continuous liquid interface (the dead zone) fed with resin at elevated pressures through microfluidic channels dynamically created and integral to the growing part.
Journal ArticleDOI
Modeling cardiac complexity: Advancements in myocardial models and analytical techniques for physiological investigation and therapeutic development in vitro.
Neal I. Callaghan,Sina Hadipour-Lakmehsari,Shin-Haw Lee,Anthony O. Gramolini,Craig A. Simmons +4 more
TL;DR: This review provides a detailed exploration of different cell models, disease modeling strategies, and tissue constructs used from basic to translational research and highlights recent advancements in imaging, electrophysiology, metabolic measurements, and mechanical and contractile characterization modalities that are advancing the understanding of cardiomyocyte physiology.
Journal ArticleDOI
How 3D printing can boost advances in analytical and bioanalytical chemistry
TL;DR: In this paper, a useful introductory summary of the most commonly used 3D printing systems and mechanisms is provided before the description of most recent trends of the use of 3D printers for analytical and bioanalytical chemistry.
Journal ArticleDOI
Engineering a living cardiac pump on a chip using high-precision fabrication
Christos Michas,M. Çağatay Karakan,Pranjal Nautiyal,Jonathan G. Seidman,Christine E. Seidman,Arvind Agarwal,Kamil L. Ekinci,Jeroen Eyckmans,Alice E. White,Christopher S. Chen +9 more
TL;DR: How high-precision fabrication can enable scaled-down modeling of organ-level cardiac mechanical function is demonstrated by using two-photon direct laser writing to fabricate a nanoscale-resolution metamaterial scaffold with fine-tuned mechanical properties to support the formation and cyclic contraction of a miniaturized, induced pluripotent stem cell–derived ventricular chamber.
Journal ArticleDOI
Anti-gravitational 3D printing of polycaprolactone-bonded Nd-Fe-B based on fused deposition modeling
TL;DR: In this paper, the effects of Nd-Fe-B content, magnetic flux density of the platform and printing angle on mechanical, magnetic and thermal properties were investigated for FDM 3D printing.
References
More filters
Journal ArticleDOI
Skin-like pressure and strain sensors based on transparent elastic films of carbon nanotubes
Darren J. Lipomi,Michael Vosgueritchian,Benjamin C. K. Tee,Sondra L. Hellstrom,Jennifer A. Lee,Courtney H. Fox,Zhenan Bao +6 more
TL;DR: Transparent, conducting spray-deposited films of single-walled carbon nanotubes are reported that can be rendered stretchable by applying strain along each axis, and then releasing this strain.
Journal ArticleDOI
Microfluidic organs-on-chips
TL;DR: A microfluidic cell culture device created with microchip manufacturing methods that contains continuously perfused chambers inhabited by living cells arranged to simulate tissue- and organ-level physiology has great potential to advance the study of tissue development, organ physiology and disease etiology.
Journal ArticleDOI
Rapid casting of patterned vascular networks for perfusable engineered three-dimensional tissues
Jordan S. Miller,Kelly R. Stevens,Michael T. Yang,Brendon M. Baker,Duc-Huy T. Nguyen,Daniel M. Cohen,Esteban Toro,Alice A. Chen,Peter A. Galie,Xiang-Qing Yu,Ritika Chaturvedi,Sangeeta N. Bhatia,Sangeeta N. Bhatia,Christopher S. Chen +13 more
TL;DR: 3D printed rigid filament networks of carbohydrate glass are used as a cytocompatible sacrificial template in engineered tissues containing living cells to generate cylindrical networks which could be lined with endothelial cells and perfused with blood under high-pressure pulsatile flow.
Journal ArticleDOI
Direct ink writing of 3D functional materials
TL;DR: The ability to pattern materials in 3D shapes without the need for expensive tooling, dies, or lithographic masks is critical for composites, microfluidics, photonics, and tissue engineering as discussed by the authors.
Journal ArticleDOI
Three-dimensional bioprinting of thick vascularized tissues.
TL;DR: A multimaterial 3D bioprinting method is reported that enables the creation of thick human tissues (>1 cm) replete with an engineered extracellular matrix, embedded vasculature, and multiple cell types that can be actively perfused for long durations.