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  1. Fulltext Growth inhibitory effects of crude pomegranate peel extract on chronic myeloid leukemia, K562 cells
    Asmaa MJ, Ali AJ, Farid JM, Azman S
    Int J Appl Basic Med Res, 2015;5(2):100-5.
    PMID: 26097816 DOI: 10.4103/2229-516X.157154
    BACKGROUND: Pomegranate (Punica granatum) is currently a member of Lythraceae family which has potentially cytotoxic activities. Numerous studies have been done on cytotoxic components of pomegranate's juices, barks and leaves. The peels, which considered as a waste, contain higher antioxidant components compared with other parts of the plant.

    AIM: To investigate the potential anti-cancer activity of pomegranate peel on growth and cell death mechanisms of chronic myeloid leukemic (CML) cells, K562.

    MATERIALS AND METHODS: Punica granatum peels extract (PGPE) was extracted by successive ethanol extraction, 80% (v/v), freeze dried, diluted to 20 mg/mL working concentration and was subjected to phytochemical screening. K562 cell was treated with crude PGPE for 72 h. Following IC50 concentration, the apoptosis, cell cycle and protein analysis were evaluated. Cell growth inhibition assay was performed by conventional trypan blue exclusion assay. Apoptosis and cell cycle were analyzed by flow-cytometry using BD apoptosis and cell cycle kits and protein analysis by western blotting. All the results are expressed as mean ± standard error of mean of three independent experiments. Statistical analysis was performed by nonparametric Mann-Whitney U-test.

    RESULTS: Results demonstrated that PGPE promotes growth inhibition of K562 cells mainly via G2/M phase arrest while still conserving apoptosis induction, but at a lower rate. Apoptosis activities were proposed by the up-regulation of caspases and cytochrome c with an elevated level of p21 and p53.

    CONCLUSION: PGPE caused an inhibition in cell proliferation of CML cell mainly by cell cycle arrest.

  2. Fulltext Optimizing MWCNT-Based Nanofluids for Photovoltaic/Thermal Cooling through Preparation Parameters
    Chaichan MT, Kazem HA, Al-Ghezi MKS, Al-Waeli AHA, Ali AJ, Sopian K, et al.
    ACS Omega, 2023 Aug 22;8(33):29910-29925.
    PMID: 37636957 DOI: 10.1021/acsomega.2c07226
    Multiwalled carbon nanotubes (MWCNTs) were employed as added particles for nanofluids in this practical investigation. To identify the most appropriate nanofluid for cooling PVT systems that are functional in the extreme summer environment of Baghdad, the parameters of base fluid, surfactant, and sonication time used for mixing were examined. Water was chosen as the base fluid instead of other potential candidates such as ethylene glycol (EG), propylene glycol (PG), and heat transfer oil (HTO). Thermal conductivity and stability were important thermophysical qualities that were impacted by the chosen parameters. The nanofluid tested in Baghdad city (consisting of 0.5% MWCNTs, water, and CTAB with a sonication period of three and a quarter hours) resulted in a 119.5, 308, and 210% enhancement of thermal conductivity (TC) for water compared with EG, PG, and oil, respectively. In addition, the nanofluid-cooled PVT system had an electrical efficiency that was 88.85% higher than standalone PV technology and 44% higher than water-cooled PVT systems. Moreover, the thermal efficiency of the nanofluid-cooled PVT system was 20% higher than the water-cooled PVT system. Finally, the nanofluid-cooled PVT system displayed the least decrease in electrical efficiency and a greater thermal efficiency even when the PV panel was at its hottest at noon.
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