2022
DOI: 10.21608/ejchem.2022.138553.6104
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Anticancer effect of Sorafenib-loaded iron oxide nanoparticles and bee venom on some genes expression in hepatocellular carcinoma

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Cited by 4 publications
(2 citation statements)
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“…Recently, an increasing number of studies have focused on the synthesis of nanoscale metals using chemical, physical, and green approaches ( Wang et al, 2007 ; Horwat et al, 2011 ). Green synthesis technologies are progressively replacing physical and chemical approaches ( Tippayawat et al, 2016 ; Alsammarraie et al, 2018 ; Rashwan et al, 2022 ; Nagy et al, 2022 ; Jahan et al, 2023 ; Khafaga et al, 2023a , 2023b ) owing to difficulties with significant energy usage ( Horwat et al, 2011 ), toxic and hazardous chemical emissions ( Hoag et al, 2009 ), and the use of complex equipment and synthetic environments ( Baruwati, Polshettiwar & Varma, 2009 ; Ahmed & Ikram, 2015 ). Physical methods such as UV radiation ( Wojnarowicz et al, 2018 ), aerosols ( Smirniotis, Boningari & Inturi, 2018 ), and thermal decomposition ( Ahmed et al, 2016a ) require high temperatures and pressures ( Ahmed et al, 2016b ).…”
Section: Green Synthesis Of Nanomaterialsmentioning
confidence: 99%
“…Recently, an increasing number of studies have focused on the synthesis of nanoscale metals using chemical, physical, and green approaches ( Wang et al, 2007 ; Horwat et al, 2011 ). Green synthesis technologies are progressively replacing physical and chemical approaches ( Tippayawat et al, 2016 ; Alsammarraie et al, 2018 ; Rashwan et al, 2022 ; Nagy et al, 2022 ; Jahan et al, 2023 ; Khafaga et al, 2023a , 2023b ) owing to difficulties with significant energy usage ( Horwat et al, 2011 ), toxic and hazardous chemical emissions ( Hoag et al, 2009 ), and the use of complex equipment and synthetic environments ( Baruwati, Polshettiwar & Varma, 2009 ; Ahmed & Ikram, 2015 ). Physical methods such as UV radiation ( Wojnarowicz et al, 2018 ), aerosols ( Smirniotis, Boningari & Inturi, 2018 ), and thermal decomposition ( Ahmed et al, 2016a ) require high temperatures and pressures ( Ahmed et al, 2016b ).…”
Section: Green Synthesis Of Nanomaterialsmentioning
confidence: 99%
“…The benefits of nanoparticles as nano-carriers for a drug delivery system are particle size and surface characteristics of nano-carriers can be manipulated to actually achieve both the two ways passive and active drug targeting after parenteral administration, controlled release and the particle degradation , enhance shelf life of product, the specific site targeting can achieve by using of magnetic nan-carrier [24,25], control the release of the drug during the transportation, modifying the drug's organ distribution and subsequent clearance in order to improve drug therapeutic efficacy and reduce side effects, it used in a variety of methods of administration including oral, nasal, parenteral, intra-ocular, size very small and can penetrate the smaller capillaries, which allow efficient drug to accumulate at the target sites. Protection from chemical and physical degradation.…”
Section: Nano-technology-based Herbal Medicinementioning
confidence: 99%