Getting to the heart of engineering a heart – Harvard School of Engineering and Applied Sciences
By daniellenierenberg
Heart disease is theleading cause of deathamong adults and infants in the U.S. with about 659,000 people dying from heart disease each year, every one in four deaths. Among the many patients with a critical heart condition, about 3,500 are waiting for a heart transplant. Many of them will wait for more than six months, and for some of them time will run out before a transplant becomes available. These alarming statistics illustrate the need for more effective heart tissue replacement strategies.
In contrast to other organs that can repair themselves to various degrees after injury, the heart has limited to no regenerative capacity. When heart cells die during prolonged heart disease or a myocardial infarction, they are replaced by a fibrotic scar that compromises the hearts normal contraction. While modern stem cell technology has enabled production of patient-specific heart cells as a source for tissue engineers, emulating the heart muscles highly structured architecture and complex functionality remains a serious challenge.
The hearts left ventricle pumps blood through our circulatory system by contracting in a torsional wringing motion. This is enabled by layers of cardiomyocytes whose contractile machineries are all aligned in the same direction within an individual layer. Multiple layers are then stacked on top of each other across the 1cm thick heart muscle wall, each oriented at an angle with respect to its neighboring layers. Even though each cardiomyocyte contracts in one direction, the varying alignment of each cardiomyocyte layer causes the ventricle to twist, squeezing the blood within and forcing it to flow to the rest of the body. Tissue engineers have devised different methods to align heart cells on various surfaces but these do not recreate the hearts intricate alignment, nor can they generate myocardial tissue thick enough for use in regenerative heart therapies.
Now, Jennifer Lewis' team at theHarvard John A. Paulson School of Engineering and Applied Sciences(SEAS) and the Wyss Institute for Biologically Inspired Engineering at Harvard University has developed a suite of new heart engineering technologies that has allowed them to mimic the alignment of the hearts contractile elements. Using a bioink with densely packed contractile organ building blocks (OBBs) composed of cardiomyocytes derived from human induced pluripotent stem cells (hiPSCs-CMs), they were able to print aligned cardiac tissue sheets with complex and varied alignment. These sheets have an organization and functionality similar to those in actual human heart muscle layers. The findings are published inAdvanced Materials. In the future, this advance could enable the development of thick multilayered human muscle tissue with more physiological contractile properties.
Being able to effectively mimic the alignment of the hearts contractile system across its entire hierarchy from individual cells to thicker cardiac tissue composed of multiple layers is central to generating functional heart tissue for replacement therapy, said Lewis, senior author of the paper and theHansjrg Wyss Professor of Bioinspired Engineering at SEAS. Lewis is also a Wyss Core Faculty member andco-Lead of the Wyss Institutes 3D Organ Engineering Initiative.
The study builds on Lewis teams 3D bioprinting platform, known assacrificial writing in functional tissue (SWIFT), which allowed them to create cardiac tissue constructs that have the typical high cellular densities of normal heart tissue, usingsophisticated 3D bioprinting capabilities. The approach makes use of preassembled cardiac organ building blocks (OBBs) composed of iPSC-CMs, and allows them to address another grand tissue engineering challenge the introduction of a blood-supporting vascular network using sacrificial inks. However, the resulting tissue constructs did not replicate the complex alignment of the human heart.
To also gain control over directional contractility in engineered layers of heart tissue, we first devised a strategy to program the parallel alignment of iPSC-CMs in developing OBBs, said first-authorJohn Ahrens, who is a graduate student in Lewis group.
To accomplish this, the researchers developed a platform with 1050 individual wells, each containing two micropillars. Into the wells, they seeded hiPSCs-CMs in a mixture with human fibroblast cells and the extracellular matrix (ECM) protein collagen, both of which are essential for heart muscle development. Over time as the cells compact the ECM, they form a dense microtissue in which the cardiomyocytes and their cellular contractile machineries are oriented along the axis connecting the micropillars. The OBBs, called anisotropic OBBs (aOBBs) because they contract in one major direction, are then lifted off the micropillars and used as a feedstock to fabricate a dense bioink. The teams high-throughput approach to the generation of aOBBs also enabled them to fabricate an unprecedented number of contractile building blocks.
The second alignment step is the printing process itself. The mechanical shear forces generated at the print head act on the aOBBs while they are being extruded to give them directionality.
Our lab has previously shown that it was possible to align anisotropic soft materials via 3D printing. Here, we demonstrated that this principle could be applied to cardiac microtissues too, said co-authorSebastien Uzel, who is a Research Associate on Lewis team and mentored Ahrens. To highlight the versatility of their bioprinting process, the researchers printed cardiac tissue sheets with linear, spiral, and chevron geometries in which the contractile aOBBs exhibited significant alignment.
But the team also wanted to be able to measure the contractile features of cardiac constructs printed with aOBBs. For this, they printed long macrofilaments connecting two macropillars, similar to the OBB-generating step using the micropillar platform, only on a larger scale. By measuring the macropillar deflections, they could determine the contractile forces generated by the macrofilaments. The team indeed found that the contractile forces and contraction velocity (speed) increased over a period of seven days which showed that the cardiac filaments kept maturing into actual muscle-like filaments.
With SWIFT, we wanted to address cellular density and tissue scale. Now, by programming alignment, we aimed for mimicking the microarchitecture of the myocardium. One innovation at a time, we are moving closer and closer to engineering functional cardiac tissues for repair or replacement, said Uzel.
For their next order of engineering, the team plans to apply this method to generate more physiological tissues beyond two-dimensional, single layered constructs.
While the holy grail of tissue engineering efforts would be a whole organ heart transplantation, our approach could enable contributions to more immediate applications. It could be used to generate more physiological disease models, and create highly architected myocardial patches that, like LEGO blocks, could match and be used to replace a patient-specific scar after a heart attack, said Ahrens. Similarly, they could be tailored to patch up patient-specific holes in the heart of newborns with congenital heart defects. In theory, these patches could also develop with the child and not have to be replaced as the child grows.
Other authors on the study are present and former members of Lewis team, including Mark Skylar-Scott, who was instrumental in the development of SWIFT, Mariana Mata who assisted with most experiments in this study, as well as Aric Lu and Katharina Kroll. The study was supported by an NSF CELL-MET grant (under grant# EEC-1647837), as well as the Vannevar Bush Faculty Fellowship Program sponsored by the Basic Research Office of the Assistant Secretary of Defense for Research and Engineering through the Office of Naval Research (under grant# N00014-16-1-2823 and N00014-21-1-2958).
The rest is here:
Getting to the heart of engineering a heart - Harvard School of Engineering and Applied Sciences
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