| Title |
Hollow fiber integrated microfluidic platforms for in vitro Co-culture of multiple cell types
|
|---|---|
| Published in |
Biomedical Microdevices, September 2016
|
| DOI | 10.1007/s10544-016-0102-y |
| Pubmed ID | |
| Authors |
Jen-Huang Huang, Jennifer F. Harris, Pulak Nath, Rashi Iyer |
| Abstract |
This study demonstrates a rapid prototyping approach for fabricating and integrating porous hollow fibers (HFs) into microfluidic device. Integration of HF can enhance mass transfer and recapitulate tubular shapes for tissue-engineered environments. We demonstrate the integration of single or multiple HFs, which can give the users the flexibility to control the total surface area for tissue development. We also present three microfluidic designs to enable different co-culture conditions such as the ability to co-culture multiple cell types simultaneously on a flat and tubular surface, or inside the lumen of multiple HFs. Additionally, we introduce a pressurized cell seeding process that can allow the cells to uniformly adhere on the inner surface of HFs without losing their viabilities. Co-cultures of lung epithelial cells and microvascular endothelial cells were demonstrated on the different platforms for at least five days. Overall, these platforms provide new opportunities for co-culturing of multiple cell types in a single device to reconstruct native tissue micro-environment for biomedical and tissue engineering research. |
X Demographics
The data shown below were collected from the profile of 1 X user who shared this research output. Click here to find out more about how the information was compiled.
Geographical breakdown
| Country | Count | As % |
|---|---|---|
| United States | 1 | 100% |
Demographic breakdown
| Type | Count | As % |
|---|---|---|
| Members of the public | 1 | 100% |
Mendeley readers
The data shown below were compiled from readership statistics for 39 Mendeley readers of this research output. Click here to see the associated Mendeley record.
Geographical breakdown
| Country | Count | As % |
|---|---|---|
| Unknown | 39 | 100% |
Demographic breakdown
| Readers by professional status | Count | As % |
|---|---|---|
| Student > Ph. D. Student | 10 | 26% |
| Student > Master | 5 | 13% |
| Researcher | 5 | 13% |
| Student > Postgraduate | 3 | 8% |
| Student > Doctoral Student | 2 | 5% |
| Other | 7 | 18% |
| Unknown | 7 | 18% |
| Readers by discipline | Count | As % |
|---|---|---|
| Engineering | 11 | 28% |
| Biochemistry, Genetics and Molecular Biology | 7 | 18% |
| Agricultural and Biological Sciences | 5 | 13% |
| Chemical Engineering | 4 | 10% |
| Chemistry | 2 | 5% |
| Other | 2 | 5% |
| Unknown | 8 | 21% |
Attention Score in Context
This research output has an Altmetric Attention Score of 1. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 19 September 2016.
All research outputs
#20,341,859
of 22,888,307 outputs
Outputs from Biomedical Microdevices
#666
of 747 outputs
Outputs of similar age
#287,537
of 330,063 outputs
Outputs of similar age from Biomedical Microdevices
#7
of 10 outputs
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So far Altmetric has tracked 747 research outputs from this source. They receive a mean Attention Score of 4.1. This one is in the 1st percentile – i.e., 1% of its peers scored the same or lower than it.
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