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محمد سعید سعیدی
زمینه های موردعلاقه
  1. بیومیکروفلوییدیک
  2. فناوری ذرات آیروسل
  3. دینامیک سیالات زیستی محاسباتی
زمینه کاری
    بیومیکروفلوییدیک
صفحه شخصی
دکتری
دانشگاه M.I.T
1358
کارشناسی ارشد
دانشگاه M.I.T
1354
کارشناسی
دانشگاه صنعتی شریف
1352
شماره اتاق: 228
شماره تلفن: 66165558
شماره فکس: 66000021

مقالات چاپ شده در سایت

Title:
A portable culture chamber for studying the effects of hydrostatic pressure on cellular monolayers
Year:
2018
Abstract:
Hydrostatic pressure is one of the most fundamental and common mechanical stimuli in the body, playing a critical role in the homeostasis of all organ systems. Kidney function is affected by high blood pressure, namely hypertension, by
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Title:
A new algorithm to solve sinusoidal steady-state Maxwell's equations on unstructured grids
Year:
2018
Abstract:
A new approach for attaining numerical solution to sinusoidal steady-state Maxwell's equations is developed. This approach is based on Yee's method, and can be applied on unstructured grids. A problem is solved by the method and the re
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Title:
Proposing a high-efficiency dielectrophoretic system for separation of dead and live cells
Year:
2018
Abstract:
Recently, electrode-based Dielectrophoresis (eDEP) has been used for particle manipulation by means of triangular electrodes. In this theoretical and numerical study, a microchannel with quarter-of-ellipse electrodes is presented and a
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Title:
A microfabricated platform for the study of chondrogenesis under different compressive loads
Year:
2018
Abstract:
Microfluidic devices are beneficial in miniaturizing and multiplexing various cellular assays in a single platform. Chondrogenesis is known to pertain to chemical, topographical, and mechanical cues in the microenvironment. Mechanical
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Title:
Prediction of necrotic core and hypoxic zone of multicellular spheroids in a microbioreactor with a U-shaped barrier
Year:
2018
Abstract:
Microfluidic devices have been widely used for biological and cellular studies. Microbioreactors for three-dimensional (3D) multicellular spheroid culture are now considered as the next generation in in vitro diagnostic tools. The feas
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Title:
A high-performance polydimethylsiloxane electrospun membrane for cell culture in lab-on-a-chip
Year:
2018
Abstract:
Thin porous membranes are important components in a microfluidic device, serving as separators, filters, and scaffolds for cell culture. However, the fabrication and the integration of these membranes possess many challenges, which res
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Title:
Spheroids-on-a-chip: Recent advances and design considerations in microfluidic platforms for spheroid formation and culture
Year:
2018
Abstract:
A cell spheroid is a three-dimensional (3D) aggregation of cells. Synthetic, in-vitro spheroids provide similar metabolism, proliferation, and species concentration gradients to those found in-vivo. For instance, cancer cell spheroids
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Title:
Challenge in particle delivery to cells in a microfluidic device
Year:
2018
Abstract:
Micro and nanotechnology can potentially revolutionize drug delivery systems. Novel microfluidic systems have been employed for the cell culture applications and drug delivery by micro and nanocarriers. Cells in the microchannels are u
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لیست مقالات چاپ شده

Moghadas. H., Saidi, M.S., Kashaninejad, N., Kiyoumarsioskouei, A., Nguyen, N.,(2017), Fabrication and characterization of low-cost, bead-free, durable and hydrophobic electrospun membrane for 3D cell culture. Biomedical Microdevices, 19(4), 74.
Ghadami, S., Kowsari-Esfahan, R., Saidi. M.S., Firoozbakhsh. K.,(2017), Spiral microchannel with stair-like cross section for size-based particle separation. Microfluidics and Nanofluidics. 21(7), 115.
Abdollahzadeh, M., Saidi, M.S., Sadeghi, A., (2016), Enhancement of surface adsorption-desorption rates in microarrays invoking surface charge heterogeneity. Sensors and Actuators B:Chemical.
Pakravan, H. A., Saidi, M. S., Firoozabadi, B., (2016), A mechanical model for morphological responseof endothelial cells under combined wall shear stress and cyclic stretch loadings. Biomechanics and modeling in mechanobiology. 1-5.

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