Esra Yilmaz scite author profile

In clinical practice, a variety of diagnostic applications require the identification of target cells. Density has been used as a physical marker to distinguish cell populations since metabolic activities could alter the cell densities. Magnetic levitation offers great promise for separating cells at the single cell level within heterogeneous populations with respect to cell densities. Traditional magnetic levitation platforms need bulky and precise optical microscopes to visualize levitated cells. Moreover, the evaluation process of cell densities is cumbersome, which also requires trained personnel for operation. In this work, we introduce a device (HologLev) as a fusion of the magnetic levitation principle and lensless digital inline holographic microscopy (LDIHM). LDIHM provides ease of use by getting rid of bulky and expensive optics. By placing an imaging sensor just beneath the microcapillary channel without any lenses, recorded holograms are processed for determining cell densities through a fully automated digital image processing scheme. The device costs less than $100 and has a compact design that can fit into a pocket. We perform viability tests on the device by levitating three different cell lines (MDA-MB-231, U937, D1 ORL UVA) and comparing them against their dead correspondents. We also tested the differentiation of mouse osteoblastic (7F2) cells by monitoring characteristic variations in their density. Last, the response of MDA-MB-231 cancer cells to a chemotherapy drug was demonstrated in our platform. HologLev provides cost-effective, label-free, fully automated cell analysis in a compact design that could be highly desirable for laboratory and point-of-care testing applications.

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Label-free density-based detection of adipocytes of bone marrow origin using magnetic levitation

Sarigil

Anıl-İnevi

Yilmaz

et al. 2019

Analyst

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Single Cell Densitometry and Weightlessness Culture of Mesenchymal Stem Cells Using Magnetic Levitation

Anıl-İnevi

Yilmaz

Sarigil

et al. 2019

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Magnetic levitation methodology enables density-based separation of microparticles/cells and sustains cell culture in different media. Levitation process can be accomplished via negative magnetophoresis (diamagnetophoresis), where the applied magnetic force compensates gravitational acceleration and the density of the diamagnetic object (e.g., cell) determines its levitation height. Here we describe a portable, sensitive, and cost-effective technology that uses the principles of magnetic levitation to measure single cell density and cell culture under desired conditions.

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Application of Magnetic Levitation Induced Weightlessness to Detect Cell Lineage

Sarigil

Anıl-İnevi

Yilmaz

et al. 2019

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Identification and classification of bone marrow cells is an important step for molecular biology and therapeutic studies related to bone marrow disorders such as osteoporosis or obesity. In this study, we applied magnetic levitation technology to induce a weightlessness environment to detect adipocytes and osteoblasts based on their single cell density. This biotechnological method can be used for separation of heterogeneous populations such as bone marrow once adapted to a continuous microfluidic platform.

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Protective effects of Ficus carica seed oil on ischemia and reperfusion injury in a rat model of acute mesenteric ischemia

Orak

Şirinyıldız

Yilmaz

et al. 2020

Ulus Travma Acil Cerrahi Derg

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BACKGROUND:The increase in free oxygen radicals and proinflammatory cytokines in the ischemia-reperfusion injury caused by acute mesenteric ischemia are the key responsibilities of intestinal histopathological alterations. It has been reported that Ficus carica and its various parts contain antioxidant and anti-inflammatory compounds recently. Thus, in the present study, we aimed to investigate how Ficus carica seed oil affects intestinal ischemia-reperfusion injury in a rat model. METHODS:In this study, 50 male Wistar albino rats were randomly divided into five equal groups. Negative control (NC), sham-operated (Sham), ischemia and reperfusion (IR), 3 ml/kg/day Ficus carica seed oil (FC3), 6 ml/kg/day Ficus carica seed oil (FC6). IR, FC3 and FC6 groups underwent ischemia and reperfusion procedure for 45+120 min. Only abdominal midline laparotomy was performed in the Sham group for 165 minutes.RESULTS: Tissue levels of TNFα and IL-1β, which were proinflammatory cytokines, were significantly reduced in the FC6 group than the IR group (p<0.05). In FC3 and FC6 groups, the tissue MPO and MDA enzyme levels were significantly lower than the IR group, but there was a significantly greater decrease in the FC6 group than the FC3 group (p<0.05). SOD and CAT enzymes and reduced glutathione levels of FC3 and FC6 groups were significantly lower than IR group (p<0.05); however, there was no statistically significant difference between the FC3 and FC6 groups. FC3 and FC6 groups were histopathologically graded statistically lower than the IR group, and the FC6 group showed a significant decrease than the FC3 group (p<0.05). CONCLUSION:Oral administration of fig seed oil may reverse biochemical and histopathological findings resulting from ischemia-reperfusion injury in an experimental model of acute mesenteric ischemia in rats, probably because of its antioxidant and anti-inflammatory compounds.

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Esra Yilmaz

HologLev: A Hybrid Magnetic Levitation Platform Integrated with Lensless Holographic Microscopy for Density-Based Cell Analysis

Label-free density-based detection of adipocytes of bone marrow origin using magnetic levitation

Single Cell Densitometry and Weightlessness Culture of Mesenchymal Stem Cells Using Magnetic Levitation

Application of Magnetic Levitation Induced Weightlessness to Detect Cell Lineage

Protective effects of Ficus carica seed oil on ischemia and reperfusion injury in a rat model of acute mesenteric ischemia

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