A
Ali Khademhosseini
Researcher at University of California, Los Angeles
Publications - 947
Citations - 97152
Ali Khademhosseini is an academic researcher from University of California, Los Angeles. The author has contributed to research in topics: Self-healing hydrogels & Tissue engineering. The author has an hindex of 140, co-authored 887 publications receiving 76430 citations. Previous affiliations of Ali Khademhosseini include King Abdulaziz University & Mayo Clinic.
Papers
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Journal ArticleDOI
Polyester μ-assay chip for stem cell studies
Francesco Piraino,Šeila Selimović,Marco Adamo,Alessandro Pero,Sam Manoucheri,Sang Bok Kim,Danilo Demarchi,Ali Khademhosseini +7 more
TL;DR: The device is a simple polyester-based microfluidic chip capable of simultaneously screening multiple independent stem cell culture conditions and showed the ability to maintain the pluripotency of stem cell aggregates in response to concentrations of leukemia inhibitory factor ranging from 0 to ∼1000 U/ml.
Book ChapterDOI
Micro- and Nanoscale Control of Cellular Environment for Tissue Engineering
TL;DR: This chapter analyzes the use of microand nanoscale engineering techniques for controlling and studying cell–cell, cell–substrate and cell–soluble factor interactions, as well as for fabricating organs with controlled architecture and resolution.
Journal ArticleDOI
A Microfabricated Sandwiching Assay for Nanoliter and High‐Throughput Biomarker Screening
Praveen Bandaru,Dafeng Chu,Wujin Sun,Soufian Lasli,Chuanzhen Zhao,Shuang Hou,Shiming Zhang,Jiahua Ni,Giorgia Cefaloni,Samad Ahadian,Mehmet R. Dokmeci,Shiladitya Sengupta,Shiladitya Sengupta,Junmin Lee,Ali Khademhosseini +14 more
TL;DR: The proposed MIMIC is examined to be used as a drug screening platform by delivering drugs using micropillar arrays in combination with a microfluidic system and then detecting biomolecules from cells as exposed to drugs.
Journal ArticleDOI
Chips to Hits: microarray and microfluidic technologies for high-throughput analysis and drug discovery
TL;DR: This research presents a novel, scalable, scalable and scalable approaches that can be applied to the rapidly changing landscape of infectious disease and provide real-time information about which drugs to consider for use in the treatment of cancer.
Book ChapterDOI
Microfabrication Technology in Tissue Engineering
TL;DR: This chapter reviews microfabrication technologies that are actively employed in various TE applications, including photolithography, rapid prototyping, and soft lithography, including micrometer structures into hierarchical constructs.