Ozgun Civelekoglu

Overview

Explore the profile of Ozgun Civelekoglu including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 34

Followers 0

Related Specialties

Biotechnology

Chemistry

Biochemistry

Top 10 Co-Authors

A Fatih Sarioglu

Ningquan Wang

Ruxiu Liu

Tevhide Ozkaya-Ahmadov

Chia-Heng Chu

Mert Boya

A K M Arifuzzman

Norh Asmare

Dohwan Lee

Sibel Islak Mutcali

Published In

Lab Chip

Biosens Bioelectron

Nat Commun

Small

Affiliations

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Recent Articles

An autonomous microchip for real-time, label-free immune cell analysis

Arifuzzman A, Asmare N, Ozkaya-Ahmadov T, Civelekoglu O, Wang N, Sarioglu A

Biosens Bioelectron . 2022 Dec; 222:114916. PMID: 36462431

Characterization of cell populations and identification of distinct subtypes based on surface markers are needed in a variety of applications from basic research and clinical assays to cell manufacturing. Conventional...

High throughput, label-free isolation of circulating tumor cell clusters in meshed microwells

Boya M, Ozkaya-Ahmadov T, Swain B, Chu C, Asmare N, Civelekoglu O, et al.

Nat Commun . 2022 Jun; 13(1):3385. PMID: 35697674

Extremely rare circulating tumor cell (CTC) clusters are both increasingly appreciated as highly metastatic precursors and virtually unexplored. Technologies are primarily designed to detect single CTCs and often fail to...

Immunomagnetic leukocyte differential in whole blood on an electronic microdevice

Civelekoglu O, Ozkaya-Ahmadov T, Arifuzzman A, Mutcali S, Sarioglu A

Lab Chip . 2022 May; 22(12):2331-2342. PMID: 35593257

Leukocytes are the frontline defense mechanism of the immune system. Their composition dynamically changes as a response to a foreign body, infection, inflammation, or other malignant behavior occurring within the...

Automated lightless cytometry on a microchip with adaptive immunomagnetic manipulation

Civelekoglu O, Wang N, Arifuzzman A, Boya M, Sarioglu A

Biosens Bioelectron . 2022 Jan; 203:114014. PMID: 35092880

Surface expression of cell populations are often sought as diagnostic and prognostic biomarkers in hematology-oncology and infectious diseases, making flow cytometry an invaluable technique for both clinical and basic research...

Electronic measurement of cell antigen expression in whole blood

Civelekoglu O, Liu R, Usanmaz C, Chu C, Boya M, Ozkaya-Ahmadov T, et al.

Lab Chip . 2021 Dec; 22(2):296-312. PMID: 34897353

Membrane antigens are phenotypic signatures of cells used for distinguishing various subpopulations and, therefore, are of great interest for diagnosis of diseases and monitoring of patients in hematology and oncology....

Closed-loop feedback control of microfluidic cell manipulation deep-learning integrated sensor networks

Wang N, Liu R, Asmare N, Chu C, Civelekoglu O, Sarioglu A

Lab Chip . 2021 May; 21(10):1916-1928. PMID: 34008660

Microfluidic technologies have long enabled the manipulation of flow-driven cells en masse under a variety of force fields with the goal of characterizing them or discriminating the pathogenic ones. On...

Combinatorial Immunophenotyping of Cell Populations with an Electronic Antibody Microarray

Liu R, Chu C, Wang N, Ozkaya-Ahmadov T, Civelekoglu O, Lee D, et al.

Small . 2019 Oct; 15(51):e1904732. PMID: 31631578

Immunophenotyping is widely used to characterize cell populations in basic research and to diagnose diseases from surface biomarkers in the clinic. This process usually requires complex instruments such as flow...

Electronic profiling of membrane antigen expression via immunomagnetic cell manipulation

Civelekoglu O, Wang N, Boya M, Ozkaya-Ahmadov T, Liu R, Sarioglu A

Lab Chip . 2019 Jun; 19(14):2444-2455. PMID: 31199420

Membrane antigens control cell function by regulating biochemical interactions and hence are routinely used as diagnostic and prognostic targets in biomedicine. Fluorescent labeling and subsequent optical interrogation of cell membrane...

Design and modeling of electrode networks for code-division multiplexed resistive pulse sensing in microfluidic devices

Liu R, Waheed W, Wang N, Civelekoglu O, Boya M, Chu C, et al.

Lab Chip . 2017 Jul; 17(15):2650-2666. PMID: 28695944

A typical microfluidic device sorts, captures or fractionates sample constituents by exposing them to discriminating microenvironments. Direct electronic acquisition of such manipulation by a network of integrated sensors can provide...