Mehdi Azizi scite author profile

Metastases and cancer recurrence are the main causes of cancer death. Circulating Tumor Cells (CTCs) and disseminated tumor cells are the drivers of cancer cell dissemination. The assessment of CTCs’ clinical role in early metastasis prediction, diagnosis, and treatment requires more information about their biology, their roles in cancer dormancy, and immune evasion as well as in therapy resistance. Indeed, CTC functional and biochemical phenotypes have been only partially characterized using murine metastasis models and liquid biopsy in human patients. CTC detection, characterization, and enumeration represent a promising tool for tailoring the management of each patient with cancer. The comprehensive understanding of CTCs will provide more opportunities to determine their clinical utility. This review provides much-needed insights into this dynamic field of translational cancer research.

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Potential Applications of Advanced Nano/Hydrogels in Biomedicine: Static, Dynamic, Multi‐Stage, and Bioinspired

Ayoubi‐Joshaghani

Seidi

Azizi

et al. 2020

Adv Funct Materials

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Novel advanced hydrogels can provide a versatile platform for controlled delivery and release of various cargos, with a myriad of biomedical applications. These gel-based nanostructures possess good biocompatibility, biodegradability, flexibility, multifunctionality, can respond to internal or external stimuli, and can adapt to their surrounding environment. This new generation of hydrogels is not only capable of serving as targeted drug delivery vehicles, but they can also perform a variety of tasks within living cells and organisms. In this review, advanced hydrogels are classified as static, dynamic, multistage, or bioinspired. They can be used as cell-free gene expression platforms for gene therapy. Administration of nanogel-based sprays can act as an immunovaccine priming macrophages toward the M1 phenotype to avoid cancer recurrence following surgery. Nanogels can also serve as a dual biosensing and capture platform for liquid biopsies, and can recognize and remove circulating cancer cells from the blood of cancer patients.

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Comparison between the artificial neural network, SAFT and PRSV approach in obtaining the solubility of solid aromatic compounds in supercritical carbon dioxide

Vaferi

Karimi

Azizi

et al. 2013

The Journal of Supercritical Fluids

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Experimental Analysis of Thermal Performance in a Two-Phase Closed Thermosiphon Using Graphene/Water Nanofluid

Azizi

Hosseini

Zafarnak

et al. 2013

Ind. Eng. Chem. Res.

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In the present study, the effect of graphene/water nanofluid on the thermal performance of a two-phase closed thermosiphon (TPCT) has been considered. For the synthesis of the mentioned nanofluids, graphene with a thickness of 4–20 nm and length of 5–10 μm has been employed. Due to the natural instability of graphene in polar solvents such as water, gum arabic (GA) has been utilized as a surfactant. Then, various nanofluids at weight concentrations of 0.02–1% were prepared and thermal properties were investigated at the input power of 30–150 W. In agreement with the results, as the weight concentration increased, the overall heat transfer coefficient and thermal efficiency of the TPCT were enhanced. On the other hand, increasing the nanofluid weight concentration and input power led to lower thermal resistance of the TPCT. Interestingly, the rate of change of the temperature in the evaporator has been studied as one of the key parameters affecting the thermal resistance and overall heat transfer coefficient of the TPCT. Increasing the concentration has compounded the reduction of the average temperature of evaporation, which has confirmed the reduction in thermal resistance. Meanwhile, the overall heat transfer coefficient increased with rising concentration at the permanent input power. Also, the vacuum pressure results showed that increasing the concentration of nanofluid led to the vacuum pressure drop being intensified.

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Bioinspired hydrogels build a bridge from bench to bedside

et al. 2021

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The Effect of Seed Extraction Methods on Seed Quality of Two Cultivar's Tomato (Solanum lycopersicum L.)

Nemati

Nazdar²,

Azizi³

et al. 2010

Pakistan J. of Biological Sciences

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In order to compare of different methods and identify the optimum condition for tomato seed extraction, factorial experiments with 3 replications was conducted. In the first experiment, pulp of two tomato cultivars (Faraon, Dominator) were fermented at two temperatures (25, 35 degrees C) and six periods (24, 48, 72, 96, 120, 144 h). The germination of seeds in laboratory as well as seedling emergence and preliminary growth in greenhouse were studied and measured. The results showed that effect of cultivar on traits (except of seedling emergence) was significant. Also the effect of temperature of fermentation, duration of fermentation and also interaction effects of them on seed germination were significant. Totally seed quality decreased with increasing temperature and duration of fermentation and the fermentation duration from 24 to 48 h at temperature 25 degrees C, is recommended. In the second experiment, tomato seeds were extracted by HCL (pH was arranged to 1, 2, 3 for 10, 20, 30 min), H2SO4 (pH was arranged to 1, 2, for 15, 30 min), Sodium carbonate (5, 10% for 24 and 48 h) and fermentation. Percentage germination, germination rate, length of radicle and length of plumule were used for seed quality assessment. The results showed that interaction effect between pH and duration of HCL treatments was significant for seed germination (percentage and rate) and there was an interaction effect between concentration and duration for germination rate in alkali treatments. Different extraction methods had not detrimental effect on percentage germination, but acid treatments produce very bright clean seeds in compare to other treatments.

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Advanced Bioresponsive Multitasking Hydrogels in the New Era of Biomedicine

Niazi

Alizadeh

Zarebkohan

et al. 2021

Adv Funct Materials

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Advanced forms of hydrogels have many inherently desirable properties and can be designed with different structures and functions. In particular, bioresponsive multifunctional hydrogels can carry out sophisticated biological functions. These include in situ single-cell approaches, capturing, analysis, and release of living cells, biomimetics of cell, tissue, and tumor-specific niches. They can allow in vivo cell manipulation and act as novel drug delivery systems, allowing diagnostic, therapeutic, vaccination, and immunotherapy methods. In the present review of multitasking hydrogels, new approaches and devices classified into point-of-care testing (POCT), microarrays, single-cell/rare cell approaches, artificial membranes, biomimetic modeling systems, nanodoctors, and microneedle patches are summarized. The potentials and application of each format are critically discussed, and some limitations are highlighted. Finally, how hydrogels can enable an "all-in-one platform" to play a key role in cancer therapy, regenerative medicine, and the treatment of inflammatory, degenerative, genetic, and metabolic diseases is being looked forward to.

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Mehdi Azizi

Can curcumin and its analogs be a new treatment option in cancer therapy?

The Role of Circulating Tumor Cells in the Metastatic Cascade: Biology, Technical Challenges, and Clinical Relevance

Potential Applications of Advanced Nano/Hydrogels in Biomedicine: Static, Dynamic, Multi‐Stage, and Bioinspired

Comparison between the artificial neural network, SAFT and PRSV approach in obtaining the solubility of solid aromatic compounds in supercritical carbon dioxide

Experimental Analysis of Thermal Performance in a Two-Phase Closed Thermosiphon Using Graphene/Water Nanofluid

Bioinspired hydrogels build a bridge from bench to bedside

The Effect of Seed Extraction Methods on Seed Quality of Two Cultivar's Tomato (Solanum lycopersicum L.)

Advanced Bioresponsive Multitasking Hydrogels in the New Era of Biomedicine

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