Aric Pahnke

Aric Pahnke
University of Toronto | U of T · Department of Chemical Engineering and Applied Chemistry

About

12
Publications
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1,627
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Introduction
Skills and Expertise

Publications

Publications (12)
Article
Full-text available
Objective Elastin gene deletion or mutation leads to arterial stenoses due to vascular smooth muscle cell (SMC) proliferation. Human induced pluripotent stem cells–derived SMCs can model the elastin insufficiency phenotype in vitro but show only partial rescue with rapamycin. Our objective was to identify drug candidates with superior efficacy in r...
Article
Tissue engineering using cardiomyocytes derived from human pluripotent stem cells holds a promise to revolutionize drug discovery, but only if limitations related to cardiac chamber specification and platform versatility can be overcome. We describe here a scalable tissue-cultivation platform that is cell source agnostic and enables drug testing un...
Article
Full-text available
Despite great progress in engineering functional tissues for organ repair, including the heart, an invasive surgical approach is still required for their implantation. Here, we designed an elastic and microfabricated scaffold using a biodegradable polymer (poly(octamethylene maleate (anhydride) citrate)) for functional tissue delivery via injection...
Article
Animal models have been instrumental in providing insight into the molecular basis of disease. While such information has been successfully applied to the study of human disease, this translation would be significantly strengthened by the availability of models based on human cells. This would be particularly important for cardiovascular disease, a...
Article
Full-text available
We report the fabrication of a scaffold (hereafter referred to as AngioChip) that supports the assembly of parenchymal cells on a mechanically tunable matrix surrounding a perfusable, branched, three-dimensional microchannel network coated with endothelial cells. The design of AngioChip decouples the material choices for the engineered vessel netwo...
Chapter
Functional human engineered cardiac tissue may one day be used to repair defects and disastrous results of myocardial infarction or used in high throughput drug screening and development applications. Recent advances in stem cell biology allow the production of immature autologous human cardiomyocytes. Tissue engineers aim to mature these cells to...
Article
Full-text available
We describe here a bioreactor capable of applying electrical field stimulation in conjunction with static strain and on-line force of contraction measurements. It consisted of a polydimethylsiloxane (PDMS) tissue chamber and a pneumatically driven stretch platform. The chamber contained eight tissue microwells (8.05 mm in length and 2.5 mm in width...
Article
Full-text available
Tissue engineering enables the generation of three-dimensional (3D) functional cardiac tissue for pre-clinical testing in vitro, which is critical for new drug development. However, current tissue engineering methods poorly recapitulate the architecture of oriented cardiac bundles with supporting capillaries. In this study, we designed a microfabri...
Article
To tackle tissue vascularization, a robust 3-D micro-patterning technique was developed to create complex bioscaffolds from a synthetic biodegradable elastomer (Poly(octamethylene maleate (anhydride) citrate) by pre-patterning, solidifying, and stamping thin polymer sheets layer-by-layer to form intricate micro-structures. The bio-scaffold contains...
Article
Full-text available
Quantifying structural features of native myocardium in engineered tissue is essential for creating functional tissue that can serve as a surrogate for in vitro testing or the eventual replacement of diseased or injured myocardium. We applied three-dimensional confocal imaging and image analysis to quantitatively describe the features of native and...

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