Decoding general relativity     

Daniel Kennefick 《Metascience》2011,20(1):91-93

  相似文献   

Concepts and interests in twentieth-century health policy     

Cecily Hunter 《Metascience》2016,25(1):71-74

  相似文献   

Eugenics: Then and now     

Staffan Müller-Wille 《Metascience》2011,20(2):347-349

  相似文献   

You Say “Myth” Like It’s a Bad Thing     

Christopher Hamlin 《Science & Education》2017,26(1-2):191-193

  相似文献   

<Emphasis Type="Bold">October’s</Emphasis><Emphasis Type="BoldItalic">Sumerki</Emphasis>     

David Randall 《Academic Questions》2017,30(3):365-370

  相似文献   

Erratum to: Who Benefits Most from a University Degree?: A Cross-National Comparison of Selection and Wage Returns in the US,UK, and Germany     

Renee Reichl Luthra  Jennifer Flashman 《Research in higher education》2017,58(8):879-879

  相似文献   

Clayton Childress: Under the Cover: The Creation,Production, and Reception of a Novel     

David Emblidge 《Publishing Research Quarterly》2017,33(4):497-499

  相似文献   

“Where do we come from? What are we? Where are we going?”     

Jeff Buechner 《Ethics and Information Technology》2017,19(3):221-236

  相似文献   

Mathematics for Its Own Sake     

Phillip Williams 《Academic Questions》2017,30(3):321-326

  相似文献   

One step antibody-mediated isolation and patterning of multiple cell types in microfluidic devices     

Danny Bavli  Elishai Ezra  Daniel Kitsberg  Margarita Vosk-Artzi  Shashi K. Murthy  Yaakov Nahmias 《Biomicrofluidics》2016,10(2)

Cell-cell interactions play a key role in regeneration, differentiation, and basic tissue function taking place under physiological shear forces. However, current solutions to mimic such interactions by micro-patterning cells within microfluidic devices have low resolution, high fabrication complexity, and are limited to one or two cell types. Here, we present a microfluidic platform capable of laminar patterning of any biotin-labeled peptide using streptavidin-based surface chemistry. The design permits the generation of arbitrary cell patterns from heterogeneous mixtures in microfluidic devices. We demonstrate the robust co-patterning of α-CD24, α-ASGPR-1, and α-Tie2 antibodies for rapid isolation and co-patterning of mixtures of hepatocytes and endothelial cells. In addition to one-step isolation and patterning, our design permits step-wise patterning of multiple cell types and empty spaces to create complex cellular geometries in vitro. In conclusion, we developed a microfluidic device that permits the generation of perfusable tissue-like patterns in microfluidic devices by directly injecting complex cell mixtures such as differentiated stem cells or tissue digests with minimal sample preparation.  相似文献