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Correction: The vascular niche in next generation microphysiological systems
Makena L.
Ewald
a,
Yu-Hsi
Chen
b,
Abraham P.
Lee
*bc and
Christopher C. W.
Hughes
*ab
aDepartment of Molecular Biology and Biochemistry, University of California Irvine, Irvine, CA 92697, USA. E-mail: cchughes@uci.edu
bDepartment of Biomedical Engineering, University of California Irvine, Irvine, CA 92697, USA. E-mail: aplee@uci.edu
cDepartment of Mechanical and Aerospace Engineering, University of California Irvine, Irvine, CA 92697, USA
First published on 2nd September 2021
Abstract
Correction for ‘The vascular niche in next generation microphysiological systems’ by Makena L. Ewald et al., Lab Chip, 2021, DOI: 10.1039/d1lc00530h.
In the original article Table 1 was missing some of the sub-titles. The correct version of Table 1 is shown below.
| Organ/tissue | Vascularized MPS study focus | Vascular network formation strategy | Lumenization? | Vascular barrier function assayed? | Ref. |
|---|---|---|---|---|---|
| Primary ECs: human umbilical vein endothelial cell (HUVEC) | |||||
| Liver | Evaluation of anticancer bioactivity in the TME and hepatotoxicity in the liver | Pre-patterned | No | — | 189 |
| Various cancers | Endothelial regulation of chemotherapeutic transport | Self-assembled | Yes | Yes | 102 |
| Ovarian cancer | Platelet extravasation through the endothelium into tumor microenvironment | Pre-patterned | Yes | Yes | 190 |
| Bone marrow | Bone marrow pathophysiology | Pre-patterned | Yes | No | 103 |
| Vasculature | Endothelial-to-mesenchymal transition axis | Self-assembled | Yes | Yes | 13 |
| Various cancers | Tumor heterogeneity and its influence on vasculature formation | Self-assembled | Yes | No | 191 |
| Various cancers | Tumor spheroid induced angiogenesis | Self-assembled | No | — | 192 |
| Myocardia | Endothelialized-myocardium platform for cardiovascular toxicity evaluation | Bioprinted | Yes | No | 123 |
| Lung | Pulmonary toxicity of nanoparticles | Pre-patterned | No | Yes | 193 |
| Lung | Anti-fibrotic drug nintedanib and its effect on vascular remodeling | Self-assembled | Yes | Yes | 194 |
| Bone marrow | Perivascular bone niche to study metastatic colonization of the bone | Self-assembled | Yes | Yes | 136 |
| Lung | Pathophysiology of pulmonary thrombosis and advance drug development | Pre-patterned | Yes | Yes | 195 |
| Retina | Outer blood-retinal barrier model | Self-assembled | Yes | Yes | 196 |
| Glioma | Bioprinted glioblastoma tumors derived from patient-derived tumor cells | Bioprinted | No | — | 124 |
| Vasculature | Effects of ambient fine particulate matter on the vasculature | Self-assembled | Yes | Yes | 197 |
| Primary ECs: organotypic endothelial cells | |||||
|---|---|---|---|---|---|
| Kidney | Tubular–vascular exchange of solutes akin to native kidney tissue. | Pre-patterned | Yes | Yes | 27 |
| Brain | Contributions of individual cell types of the blood brain barrier (BBB) to inflammatory stimuli | Pre-patterned | Yes | Yes | 12 |
| Liver | Continuous zonated liver model for diseases modeling and ADME/TOX | Pre-patterned | No | Yes | 198 |
| Kidney | Constructing a functional kidney glomerular-capillary-wall | Pre-patterned | Yes | Yes | 199 |
| Vasculature | Endothelial barrier dysfunction associated inflammatory and hematological diseases | Pre-patterned | Yes | Yes | 200 |
| Brain | Neurovascular microfluidic bioreactor for modeling of BBB function and testing of drug toxicity and permeability | Pre-patterned | Yes | Yes | 201 |
| Primary ECs: endothelial colony forming cell derived endothelial cells (ECFC-ECs) | |||||
|---|---|---|---|---|---|
| Vasculature | Vascular inflammation and thrombosis | Pre-patterned | Yes | Yes | 202 |
| Vasculature/cancer | Reproducible vascularized micro-organs and tumors | Self-assembled | Yes | Yes | 100, 203 |
| Vasculature | Spatial and temporal control of oxygen tensions characteristic of in vivo biology | Self-assembled | Yes | Yes | 204 |
| Vasculature | Large-scale perfusable microvascular networks | Self-assembled | Yes | Yes | 205 |
| Bone marrow | Hematopoietic stem/progenitor cell culture in parallel perivascular and endosteal niche | Self-assembled | Yes | Yes | 101 |
| Colorectal cancer | Capturing tumor heterogeneity, vascular disruption and TME interactions | Self-assembled | Yes | Yes | 206 |
| Induced pluripotent stem cells derived endothelial cells (iPSC-ECs) | |||||
|---|---|---|---|---|---|
| Vasculature | Developing a CDH5-mCherry reporter iPS cell line amenable to form stable, perfusable microvessels | Self-assembled | Yes | Yes | 52 |
| Progeria syndrome | Elucidating diseased endothelium's role in Hutchinson–Gilford progeria syndrome | Pre-patterned | Yes | No | 14 |
| Pancreas | Microvessel–pancreatic islet interactions | Self-assembled | Yes | Yes | 51 |
The Royal Society of Chemistry apologises for these errors and any consequent inconvenience to authors and readers.
| This journal is © The Royal Society of Chemistry 2021 |